KR101721990B1 - The method of making maskpack using electric radiation appliance having temperature controller - Google Patents

Abstract

The present invention relates to a method of manufacturing a mask pack, and a method of manufacturing a mask pack using an electrospinning device equipped with a temperature control device capable of maintaining a constant concentration of an electrospun polymer solution.
According to the present invention, not only the productivity of the electrospinning can be increased by increasing the concentration of the electrospun polymer solution, but also the skin adhesion is greatly improved due to the presence of the nanofiber layer, the impregnation efficiency of the moisturizing component and various nutrients is high, It is possible to provide a mask pack having an excellent spreading effect of nutrients through the mask pack.

Description

[0001] The present invention relates to a method of manufacturing a mask pack using an electrospinning device equipped with a temperature control device,

The present invention relates to a method of manufacturing a mask pack, and more particularly, to a method of manufacturing a mask pack using a temperature controller capable of maintaining a constant concentration of an electrospun polymer solution.

As society is modernized, interest in the environment, welfare, and health is increasing, and interest in health is increasing day by day due to increase in income.

Recently, environmental pollution caused by industrialization has caused a sudden increase in atopic skin patients and side effects such as skin damage due to exposure to ultraviolet rays due to destruction of the ozone layer.

Therefore, in order to remove wastes from damaged skin as described above, or to remove unnatural substances such as cucumber, citrus, aloe, carrot, wormwood, seaweed, carrot, ginseng, red ginseng, Potatoes, cacti, mesyl, vitamins, etc.) and minerals (elvan) have already been commercialized and marketed.

However, such a mask pack has a problem that the substrate layer and the pack layer are easily separated by a slight facial movement. In order to solve such a desorption phenomenon, research is being conducted on a technique of heat-sealing or laminating a substrate layer and a pack layer. However, such thermal fusion or laminating alone can not fundamentally solve the phenomenon of layer separation when the mask pack is impregnated with skin moisturizing or nutritional ingredients.

In order to solve the above-mentioned problem, attempts have been made to stack the packed layer of the mask pack with the nanofibers by electrospinning and stacking them on the substrate. However, as conventional electrospinning is carried out at ambient temperature, the diluent must be used in excess to maintain the viscosity of the polymer solution constant. The use of the diluent excessively lowers the concentration of the polymer solution to reduce the efficiency of electrospinning and causes a problem of environmental pollution.

The present invention provides a method for manufacturing a mask pack in which a polymer solution used for electrospinning is maintained at a high concentration by using a temperature regulating device and a nano fiber layer of high quality having high productivity is laminated .

In addition, the present invention provides a method for manufacturing a mask pack having a skin adhesive property remarkably improved due to the presence of a nano fiber layer, a moisturizing component, a high impregnation efficiency of various nutrients, and an excellent spreading effect of nutrients through the skin.

In order to solve the above problems,

In the method of manufacturing a mask pack,

Wherein the mask pack comprises a substrate and at least one or more nanofiber layers,

Supplying the spinning solution having a polymer content of 20 to 40% by weight to a nozzle block connected to the spinning solution unit;

Electrospinning the spinning solution supplied to the nozzle block to a collector at a temperature of 50 to 100 ° C; , ≪ / RTI >

Wherein the spinning solution does not contain a diluent in the tank, and provides a method for manufacturing the mask pack as means for solving the problem.

At this time, the bond between the substrate, the nanofiber layer and the nanofiber layers is electrospun through a bonding layer formed on the substrate and the nanofiber layer by bonding the low melting point polymer solution.

The low melting point polymer forming the adhesive layer is characterized in that it is selected from at least one of a low melting point polyester, a low melting point polyurethane and a low melting point polyvinylidene fluoride,

The viscosity of the electrospun polymer solution is constantly controlled to 1,000 cps to 3,000 cps.

According to the present invention, not only a productivity of electrospinning can be increased by increasing the concentration of an electrospun polymer solution, but also a mask pack capable of preventing desorption can be provided by firmly bonding the base material and the nano fiber layer using an adhesive layer can do.

In addition, the mask pack manufactured by the manufacturing method of the present invention has an advantage that the skin adhesion is greatly improved due to the nano fiber layer, the moisturizing component and the impregnation efficiency of various nutrients are high, and the diffusion effect of nutrients through the skin is also excellent .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a method of manufacturing a nanofiber with an overflow system and a temperature controller according to the present invention;
FIG. 2 is a front sectional view of a tubular body equipped with a coil-shaped heating wire in an electrospinning device equipped with a temperature control device according to the present invention,
3 is a cross-sectional view taken along the line A-A 'in FIG. 3,
FIG. 4 is a front sectional view of a tubular body equipped with a linear heating wire in an electrospinning device having a temperature control device according to the present invention,
5 is a cross-sectional view taken along line B-B 'of FIG. 5;

Hereinafter, the present invention will be described in more detail with reference to the drawings.

FIG. 1 is a view showing a method of manufacturing nanofibers having an overflow system and a temperature controller according to the present invention. The electrospinning device 1 for manufacturing the nanofiber layer of the present invention comprises a case 102, a nozzle block 110, a collector 150, a power supply device 160, an auxiliary belt device 170, A second transfer pipe 216, a second transfer control unit 218 and a regeneration tank 230, and a low-melting polymer unit 100, a spinning solution unit 100 ', a main storage tank 210, a second transfer pipe 216, And an overflow system 200 composed of an overflow system.

The low melting point polymer unit 100 is electrospun with a low melting point polymer solution for forming an adhesive layer for adhesion between the substrate and the nano fiber layer.

The low melting point polymer is selected from a low melting point polyester, a low melting point polyurethane, and a low melting point polyvinylidene fluoride.

The spinning solution unit 100 'electrospun a polymer solution for forming a nanofiber layer. The electrospun polymer may be any polymer capable of forming a nanofiber layer. Examples of the polymer include polypropylene (PP), polyethylene terephthalate (PET), polyvinylidene fluoride, nylon, polyvinyl acetate, (PAN), polyurethane (PUR), polybutylene terephthalate (PBT), polyvinyl butyral, polyvinyl chloride, polyethyleneimine, polyolefin, polylactic acid (PLA), polyvinyl acetate (PVAc), polyacrylonitrile ), Polyethylene naphthalate (PEN), polyamide (PA), polyvinyl alcohol (PVA), polyethyleneimide (PEI), polycaprolactone (PCL), polylactic acid glyceric acid (PLGA), silk, cellulose, Among them, polypropylene (PP) materials and heat resistant polymer materials such as polyamide, polyimide, polyamideimide, poly (meta-phenylene isophthalamide), polysulfone, polyether Tone, a polyether imide, polyethylene, aromatic polyester, such as ethylene with polytetrafluoroethylene such as terephthalate, polytrimethylene terephthalate, polyethylene naphthalate can be used.

The nozzle 42 of the nozzle block 110 may be a bottom-up type, a top-down type, and a bottom-up type. In particular, in the case of the electrospinning device to which the overflow system 200 is applied, bottom-up electrospinning is preferable. A plurality of nozzles 42 are arranged in a bottom-up, top-down, or horizontal manner and are supplied with the spinning solution from the main storage tank 210 or the regeneration tank 230.

The distal end of the electrospinning nozzle 42 preferably has a shape cut along the plane intersecting the axis of the cylinder with the axis of the corresponding cylinder. However, when the tip of the nozzle 42 of a part of the nozzle block 110 is formed into a trumpet shape It is also possible to have. The nanofibers produced through the nozzles 42 for discharging the spinning solution of the nozzle block 110 from the discharge port toward the collector 150 in the upward direction are accumulated on the long sheet and move while maintaining a uniform thickness.

The power supply unit 160 applies a high voltage between the nozzle 42 and the collector 150, which are vertically arranged in the nozzle block 110. The positive electrode of the power source device 160 is connected to the collector 150 and the negative electrode of the power source device 160 is connected to the nozzle block 110 through the case 102.

Generally, in the case of electrospinning, existing inventions have a diluting agent and a concentration adjusting device to keep the concentration of the polymer solution constant. However, instead of maintaining the concentration constant, the present invention uses a polymer solution having a high concentration to be reused after overflow, and adjusts the viscosity of the polymer solution to be constant by using the temperature regulating device 60, thereby improving the efficiency of electrospinning . To this end, a thermostat is attached to the electrospinning apparatus of the present invention. Hereinafter, a temperature control device and a method of controlling the viscosity of the polymer solution through the temperature control device will be described.

Fig. 2 is a front sectional view showing a tubular body equipped with a coil-shaped heating wire in an electrospinning apparatus having a temperature regulating device according to the present invention, and Fig. 3 is a sectional view taken on line A-A 'of Fig. 4 is a front cross-sectional view showing a tubular body equipped with a linear heating wire in an electrospinning device having a temperature control device according to the present invention, and Fig. 5 is a sectional view taken along line B-B ' to be.

The temperature regulating device of the present invention may include a heating device and a cooling device, and the heating device may include an electric heater, a hot water circulating device, a hot air circulating device, or the like. In addition, Devices can be borrowed.

As an example of the heating device, the electro-thermal heater may be used in the form of a hot wire, and coil-shaped hot wires 62a and 62b may be mounted inside the tube 43 of the nozzle block 110, .

The heating device includes a nozzle block 110 through which the polymer solution is radiated, a tank (main storage tank, intermediate tank or regeneration tank) and an overflow system 200 (in particular, a tank And a transfer pipe).

The cooling device of the present invention may be a cooling device including a chilling device, and the means for maintaining a constant viscosity of the polymer solution is usually applicable. The cooling device may be provided in at least one of the nozzle block 110, the tank, and the overflow system 200 in the same manner as the heating device, and is used to maintain a certain viscosity of the polymer solution.

In addition, the temperature controller 60 of the present invention includes a sensor for measuring the concentration and a temperature control unit (not shown) for controlling the temperature accordingly.

The sensor is installed on the main storage tank 210, the intermediate tank 220, the regeneration tank 230, the nozzle block 110 or the overflow system 200 to measure the concentration of the flushing liquid in real time, The heating device and / or the cooling device is operated so that the viscosity is kept constant in the heating device 60.

The concentration of the polymer solution re-supplied through the overflow system 200 of the present invention is 20 to 40%, which is a high concentration solution compared to the concentration of the polymer solution used in conventional electrospinning of 10 to 18%.

In addition, the temperature of the polymer solution according to the concentration of the polymer solution is adjusted to 45 to 120 캜, rather than the room temperature, in order to maintain the viscosity of the polymer solution to be supplied again.

Meanwhile, the viscosity of the polymer solution of the present invention is preferably 1,000 to 5,000 cps, more preferably 1,000 to 3,000 cps. If the viscosity is 1,000 cps or less, the quality of the nanofibers to be electrospun is poor, and if the viscosity is 3,000 cps or more, the polymer solution can not be easily discharged from the nozzle 42 during the electrospinning, resulting in a slow production rate.

Example: Preparation of mask pack

Melting polymeric solution 100 having a softening temperature of 80-100 DEG C was dissolved in a solvent of DMAc (N, N-dimethylaceticamide) in an amount of 15% by weight to prepare a low melting point polymer solution. Lt; / RTI > Polyvinylidene fluoride having a weight average molecular weight of 50,000 and a melting point of 160 占 폚 was dissolved in dimethylacetamide (N, N-dimethylacetamide, DMAc) to prepare a spinning solution having a concentration of 20 wt% and a viscosity of 1000 cps. Into the main tank connected to the unit 100 '.

In the low melting point polymer unit 100, a distance between the electrodes and the collector was electrospun at 40 cm, an applied voltage of 20 kV, and 70 ° C to form an adhesive layer having a basis weight of 0.1 g / m ² on the substrate. And a collector was electrospun at a distance of 40 cm and an applied voltage of 25 kV and 70 ° C to form a nanofiber layer having a basis weight of 0.5 g / m ² .

In the spinning solution unit, the concentration of the remaining solution was changed to 25 wt% and the viscosity was changed to 2000 cps. After raising the temperature to 65 ° C through a temperature control system, electrospinning was carried out while keeping the viscosity at 1000 cps, Was prepared.

1: electrospinning device 42: nozzle
43: tube 60: thermostat
62a, 62b: heat line 63: pipe
100, 100 ': Unit 102: Case
110: nozzle block 150: collector
152: Insulation member 160: Power supply unit
170: auxiliary belt device 172: auxiliary belt
174: roller for auxiliary belt 200: overflow system
210: main storage tank 211: stirring device
212: valve 213: valve
214: valve 216: second transfer pipe
218: second transfer control device 220: intermediate tank
222: second sensor 230: regeneration tank
231: stirring device 232: first sensor
233: valve 240: supply piping
242: supply control valve 250: circulating fluid recovery path

Claims (4)

A method of manufacturing a mask pack, comprising: a substrate; and at least one or more nanofiber layers,
Supplying the spinning solution having a polymer content of 20 to 40% by weight to a nozzle block connected to the spinning solution unit;
Electrospinning the spinning solution supplied to the nozzle block to a collector at a temperature of 50 to 100 캜; , ≪ / RTI >
The bonding between the substrate, the nanofiber layer and the nanofiber layers is performed through the adhesive layer laminated on the substrate and the nanofiber layer by electrospinning the low melting point polymer solution
Characterized in that the spinning liquid does not contain a diluent in the tank
delete The method according to claim 1,
Wherein the low melting point polymer forming the adhesive layer is at least one selected from low melting point polyester, low melting point polyurethane, and low melting point polyvinylidene fluoride The method according to claim 1,
Characterized in that the viscosity of the electrospun polymer solution is controlled to be constantly from 1,000 cps to 3,000 cps

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