KR101792913B1 - Mask pack and the process of manufacture - Google Patents

Abstract

The present invention relates to a mask pack and an apparatus for producing the mask pack, wherein a lower film facing the lower edge of one side of the first hydrogel is formed with a concave bottom film cut-out portion inside to grasp the lower film and the first hydrogel, The one side edge face of the first hydrogel being formed to be exposed to the outside; The upper film opposite to the lower edge of the other side of the second hydrogel is formed with an upper film cutout recessed inwardly so that the other side edge face of the second hydrogel is peeled off to the outside so as to grasp and peel the upper film and the second hydrogel. And is exposed.
Therefore, the lower film and the upper film can be easily peeled off from the first hydrogel and the second hydrogel since the lower film cutout and the upper film cutout are formed on the lower film and the upper film, respectively.

Description

[0001] MASK PACK AND THE PROCESS OF MANUFACTURING [0002]

The present invention relates to a mask pack and an apparatus for manufacturing the same, and more particularly, to a mask pack and an apparatus for manufacturing the mask pack, and more particularly to a mask pack and an apparatus for manufacturing the same. The present invention also relates to a mask pack and an apparatus for manufacturing the mask pack.

Generally, the mask pack is a non-woven fabric and a beauty film for easily facial massage, and is made by impregnating a functional cosmetic for skin cosmetic into a gel form to make it in a mask shape according to the shape of a face. In recent years, The mask pack is commercially available and widely used.

In the method of manufacturing the mask pack, basically, a nonwoven fabric is laminated on a PE film, a functional cosmetic is coated on the nonwoven fabric in the form of a gel, a PE film is covered and formed into a mask shape, .

In the conventional mask pack, a PE film is attached to a non-woven fabric to which a gel is applied, followed by cutting to produce a facial mask pack.

In the conventional mask pack thus manufactured, the contour lines of the nonwoven fabric and the contour lines of the PE film coincide with each other. In order to use the mask pack, the PE film must be separated from the nonwoven fabric. In the conventional mask pack, it is very difficult to remove the PE film from the nonwoven fabric, and the gel applied to the nonwoven fabric is hand-

Korea Patent No. 10-1325671

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above, and to provide a mask pack and an apparatus for manufacturing the same that can easily detach a lower film and an upper film from a first hydrogel and a second hydrogel.

It is another object of the present invention to provide a mask pack and an apparatus for manufacturing the mask pack, which are effective for skin detoxification, anti-aging, and inflammatory disease treatment.

The present invention provides a mask pack and a manufacturing apparatus thereof that can automate a mask pack manufacturing process that facilitates film separation.

In order to accomplish the above object, the present invention provides a mask pack comprising: a hydrogel comprising a first hydrogel attached to an upper portion of a face and a second hydrogel attached to a lower portion of a face; A bottom film attached to one side of the first hydrogel and the second hydrogel; A first hydrogel and a single upper film attached to the other side of the second hydrogel; The lower film opposite to one lower edge of the first hydrogel is recessed inwardly to form a lower film incision so that one side edge face of the first hydrogel is separated from the outer edge Is formed to be exposed; The upper film opposite to the lower edge of the other side of the second hydrogel is formed with an upper film cutout recessed inwardly so that the other side edge face of the second hydrogel is peeled off to the outside so as to grasp and peel the upper film and the second hydrogel. And is formed so as to be exposed.

According to an aspect of the present invention, there is provided a mask pack comprising: a hydrogel attached to a face; A bottom film attached to one side of the hydrogel; And a single upper film attached to the other side of the hydrogel; A lower film cut-out portion is formed inwardly concave on the lower film so that one side surface of the hydrogel is exposed to the outside so that the lower film and the hydrogel can be gripped and separated; The upper film is formed with an upper film cut-out portion concaved inwardly so that a part of the other side of the hydrogel is exposed to the outside so that the upper film and the hydrogel can be gripped and peeled off.

Another feature of the mask pack of the present invention is that the hydrogel contains a snail concentrate and the concentrate comprises 40 to 45 wt% of purified water, 25 to 35 wt% of a moisturizer, 20 to 30 wt% of a snail secretion, 0.5 to 1.5% by weight of a preservative, 2 to 5% by weight of a whitening agent, and 0.04 to 0.05% by weight of a wrinkle removing agent.

To achieve the above and / or other aspects and advantages, embodiments of the present invention may provide a mask pack manufacturing apparatus comprising: a pack fabric supply section in which a pack fabric of a mask pack is wound and supplied; A first gel coating unit applying a hydrogel to one side of the pack fabric drawn from the pack fabric supply unit; A lower film supply unit for winding the lower film material and supplying the lower film material to be drawn out in parallel with the pulling direction of the pack material; A lower film cutting unit installed along the lower film fabric drawn from the lower film supply unit and cutting the lower film to be attached to the first gel coating unit; A lower core film winding unit installed on one side of the lower film cutting unit to wind up a lower core film cut with a lower film; Wherein the first hydrogel is coated and the upper and lower sides of the pack fabric attached with the lower film are inverted by 180 °; A second gel coating portion provided on one side of the farthest reverse section and applying hydrogel on the other side of the pack fabric inverted by 180 degrees by the entire short axis; An upper film supply unit for winding up the upper film material and supplying the upper film material to be drawn out in parallel with the drawing direction of the pack material through the far-end reversing unit; An upper film cutting unit installed along the upper film pulled out from the upper film supplying unit and cutting the upper film to be attached to the second gel coating unit; A waste upper film winding unit installed at one side of the upper film cutting unit to take up a waste upper film having the upper film cut thereon; A pressing part installed on one side of the upper film cutting part to press the upper and lower portions of the pack fabric attached with the lower film and the upper film; A cooling unit installed at one side of the pressing unit to cool the pack fabric; A cutting unit installed at one side of the cooling unit and cutting the pack fabric to fit the size of the mask pack; A transfer unit installed at one side of the cutting unit to transfer the cut mask pack; And a closed-end single-winding attaching portion for winding up the waste fabric drawn out from the cutting portion after the mask pack is cut.

Another aspect of the apparatus for manufacturing a mask pack according to the present invention is that the far-end reversing portion includes a first horizontal supporting portion for horizontally supporting a pack fabric drawn from a pack raw supply portion and entering a far-end reversing portion, A vertical support part for supporting the pack fabric having passed through the first horizontal support part in a state of being erected at 90 ° and a pack fabric provided at one side of the vertical support part and passed through the vertical support part, And a second horizontal support portion for reversing the pack fabric 180 ° based on the state of being supported by the support portion.

In the present invention as described above, the lower film facing the lower edge of one side of the first hydrogel is formed with the lower film cut-out portion concaved inward, so that the lower film and the first hydrogel can be grasped and peeled, One side edge face of the gel is formed to be exposed to the outside; The upper film opposite to the lower edge of the other side of the second hydrogel is formed with an upper film cutout recessed inwardly so that the other side edge face of the second hydrogel is peeled off to the outside so as to grasp and peel the upper film and the second hydrogel. And is exposed. Therefore, the lower film and the upper film can be easily peeled off from the first hydrogel and the second hydrogel since the lower film cutout and the upper film cutout are formed on the lower film and the upper film, respectively.

The hydrogel of the mask pack of the present invention contains a snail concentrate, wherein the snail concentrate contains 40 to 45 wt% of purified water, 25 to 35 wt% of a moisturizer, 20 to 30 wt% of a snail secretion, 1.5 to 1.5% by weight, 2 to 5% by weight of a whitening agent and 0.04 to 0.05% by weight of a wrinkle removing agent. Therefore, since the snail concentrate is contained in the hydrogel of the mask pack, it can be effective for skin detoxification, prevention of aging, and treatment of inflammatory diseases.

In addition, in the mask pack manufacturing apparatus of the present invention, the hydrogel is applied to one side of the pack fabric, the lower film is cut and attached, the pack fabric is inverted by 180 °, the hydrogel is applied to the other side of the pack fabric, Respectively. Finally, the pack fabric is cut to manufacture a mask pack. Therefore, since the upper film, the lower film, and the pack fabric are respectively cut and then combined, the upper film cutout and the lower film cutout can be formed only on the upper film and the lower film, .

1 is a schematic exploded perspective view showing a mask pack of the present invention.
Fig. 2 is a front view
3 is a schematic exploded perspective view showing another embodiment of the present invention.
4 is a schematic exploded perspective view showing still another embodiment of the present invention.
5 is a schematic exploded perspective view showing still another embodiment of the present invention.
6 is a schematic view showing an apparatus for producing a mask pack of the present invention

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

FIG. 1 is a perspective view illustrating a mask pack according to an embodiment of the present invention, FIG. 2 is an assembled front view of FIG. 1, FIGS. 3 to 5 are exploded perspective views showing another embodiment of the present invention, Fig.

2 comprises a hydrogel 10, a lower film 14, and an upper film 17. The mask pack of FIG.

The hydrogel 10 consists of a first hydrogel 11 attached to the upper part of the face and a second hydrogel 12 attached to the lower part of the face. The mask using the hydrogel 10 has a strength higher than that of a conventional mask impregnated with a cosmetic material into a pulp-made nonwoven fabric, has a high water absorption capacity, and has good skin adhesion.

On the other hand, the PE film is attached to both sides of the hydrogel to protect the cosmetic product. It is difficult for the user to separate it and the shape is damaged, and it is troublesome to attach the pack to the face with a large amount of cosmetic material on the hand Lt; / RTI >

The hydrogel (10) mask pack is provided by applying the hydrogel (10) on both sides of the pack fabric (13).

The lower film 14 is attached to one surface of the first hydrogel 11 and the second hydrogel 12 and is made of a single film. The upper film 17 is attached to the other surface of the first hydrogel 11 and the second hydrogel 12 and is made of a single film.

A lower film cutout portion 14 'is formed concavely inwardly in the lower film 14 facing the lower edge of one side of the first hydrogel 11 so that the lower film 14 and the first hydrogel 11 The first hydrogel 11 is formed such that one side edge face of the first hydrogel 11 is exposed to the outside so that the first hydrogel 11 can be gripped and peeled.

An upper film cutout 17 'is recessed inwardly in the upper film 17 opposite to the other lower edge of the second hydrogel 12 so that the upper film 17 and the second hydrogel 12 And the other side edge face of the second hydrogel 12 is exposed to the outside so that the second hydrogel 12 can be gripped and peeled off.

Since the lower film cutout portion 14 'and the upper film cutout portion 17' are formed on the lower film 14 and the upper film 17, respectively, the lower film cutout portion 14 ' A step is formed between the first hydrogel 11 and the second hydrogel 12 and the upper film 17 and the lower film 14 by the portion 17 '. That is, when the fingertips are placed on the lower film cutout portion 14 'and the upper film cutout portion 17' to touch the stepped portion, the lower hydrogel 11 and the lower hydrogel 12 adhered to the plane of the second hydrogel 12 The lower film 14 and the upper film 17 are gripped by pulling the ends of the lower film 14 and the upper film 17 with the fingers in this state, Is separated from the hydrogel (11) and the second hydrogel (12).

Therefore, the lower film 14 and the upper film 17 can be easily peeled off from the first hydrogel 11 and the second hydrogel 12.

3 is an exploded perspective view showing another embodiment of the mask pack of FIGS. 1 and 2. The mask pack of FIG. 3 comprises a hydrogel 10, a lower film 14, and an upper film 17. FIG. The hydrogel 10 consists of a first hydrogel 11 attached to the upper part of the face and a second hydrogel 12 attached to the lower part of the face.

The lower film 14 is attached to one surface of the first hydrogel 11 and the second hydrogel 12 and is made of a single film. The upper film 17 is attached to the other surface of the first hydrogel 11 and the second hydrogel 12 and is made of a single film.

The lower film 14 facing the bottom edge of one side of the first hydrogel 11 is formed with a lower film cutout 14 'inwardly concave and is opposed to the lower edge of the other side of the second hydrogel 12 The upper film 17 is formed with an upper film cutout 17 'recessed inward. Therefore, the lower film 14 and the upper film 17 can be easily detached from the first hydrogel 11 and the second hydrogel 12.

Here, the lower film cutout portion 14 'and the upper film cutout portion 17' are formed by not cutting the corner portions of the lower film 14 and the upper film 17 in a linear shape, do.

Therefore, since the edges of the incision portion are curved, sharp portions are not generated in the lower film cutout portion 14 'and the upper film cutout portion 17', so that the lower film cutout portion 14 'and the upper film cutout portion 17' The pointed portion is prevented from being stuck in the hand when the user grips the handle 17 '.

4 is an exploded perspective view showing another embodiment of the mask pack of FIGS. 1 and 2. The mask pack of FIG. 4 includes a hydrogel 10, a lower film 14, and an upper film 17. FIG. The hydrogel 10 consists of a first hydrogel 11 attached to the upper part of the face and a second hydrogel 12 attached to the lower part of the face.

The lower film 14 is attached to one surface of the first hydrogel 11 and the second hydrogel 12 and is made of a single film. The upper film 17 is attached to the other surface of the first hydrogel 11 and the second hydrogel 12 and is made of a single film.

The lower film 14 is provided with a first grip portion 14 "protruding outwardly convexly, and a second grip portion 17" protruding outwardly convexly is formed on the upper film 17, The film 14 and the upper film 17 can be easily detached from the first hydrogel 11 and the second hydrogel 12. [

The lower film 14 is separated from the first hydrogel 11 and the second film 17 is gripped by the second grip portion 17 " Gel 12. Therefore, the lower film 14 and the upper film 17 can be separated from the first hydrogel 11 and the second hydrogel 12 without much being handled.

5 is an exploded perspective view showing another embodiment of the mask pack of FIGS. 1 and 2. The mask pack of FIG. 5 includes a hydrogel 10, a lower film 14, and an upper film 17. FIG. The hydrogel 10 is integrally formed so as to be attached to the entire face at one time.

The lower film (14) is attached to one surface of the hydrogel (10) and is made of a single film. The upper film (17) is attached to the other surface of the hydrogel (10) and is made of a single film.

The lower film 14 is recessed inwardly to form a lower film cutout portion 14 'and an upper film cutout portion 17' is formed in the upper film 17 so as to be recessed inward. And the upper film 17 can be easily detached from the hydrogel 10.

Since the hydrogel 10 is integrally formed, the present invention can be easily and quickly attached to the face.

Here, the hydrogel 10 of the present invention contains a snail concentrate, and the snail concentrate contains 40 to 45 wt% of purified water, 25 to 35 wt% of a moisturizer, 20 to 30 wt% of a snail secretion, 0.5 to 1.5% by weight, 2 to 5% by weight of a whitening agent, and 0.04 to 0.05% by weight of a wrinkle removing agent.

The snails are known to around 20,000 people around the world, and they are called snails because they are round and round like a moon. There is also an edible snail among the group of snails. Escargot is famous in France, and it is used as a herbal medicine in one room.

It is said that it is effective for detoxification, inflammatory diseases,

In Chile, snail farmers in France have a bright, soft spot on the hands of snail farmers, and snails have started to pay attention to the fact that their skin is damaged or their skin is recovered soon, snail cosmetics have become national cosmetics.

According to a study published by the Paris School of Medicine, the mucus component of an edible snail is similar to that of a human sex hormone, and when it is ingested, it binds skin cell tissue, eliminates aging, freckles, and stains, have.

The snail secretes Helix Aspersa Muller from the mucus of the sole, and its main component is Mucin. Mucin is called mucin or mucin. In medical terms, it refers to a "sticky sticky substance synthesized in the animal's body." The chemical body is composed of Mannan, a sugar component, and Immunoglobulin (Immunoglobulin) is a mucin produced by the combination of moisture-retaining function and immunity-enhancing action.

As a constituent of mucin, there is a separate chondroitin sulfate which was studied by Dr. Fisher in 1861. Chondroitin is a Greek word for cartilage, and it is involved in all connective tissues such as skin, bones, and blood vessels. Because it exists in the matrix state filling the cells, it plays a role of elasticity and softness of the skin.

However, as the age increases, the rate of metabolism in the skin decreases. Especially, in the skin damaged by the various inflammatory factors in the ultraviolet region or the inside and the outside of the skin, chondroitin easily decomposes to become deficient, And many types of symptoms - skin dryness, stinginess, dullness, exfoliation and aging phenomenon will appear.

Chondroitin has five physiological functions.

First, it gives proper moisture to the cells and smoothes various physiological phenomena on the cell surface. Second, it has therapeutic effect as a wound regeneration, that is, as an activator of cell tissue. Third, it plays a part of skin function and has an effect of preventing infection against viruses and germs. Fourth, it plays an important role in bone formation by calcium deposition. Fifth, it neutralizes harmful amines that cause pain, so it is also effective for migraine.

Chondroitin compounds are also included in eel, loach, snakes, frogs, and horses, but the snail is the only one developed as a raw material for cosmetics. In addition to chondroitin, mucus contains allantoin, which is highly sedated on stimulated skin.

The stratum corneum of a human skin generally has a 28-day Turn Over Cycle. If this cycle is delayed, the skin may become clumsy and also contains Glicouc Acid, which helps control this cycle. In addition, Collagen and Elastin, which are components of skin connective tissue, play a decisive role in maintaining skin elasticity.

A snail concentrate is prepared by mixing purified water, a moisturizer, a preservative, a whitening agent, and a wrinkle remover into a snail secretion fluid having such a performance. The snail concentrate thus prepared is administered at a minimum of 1 g and a maximum of 3 g per mask pack.

Aloe extract and ginseng extract may be further mixed in the mask pack to which the snail concentrate is administered. The addition of these natural extracts gives synergy that gives skin elasticity and vitality to sensitive or polluted skin. Aloe extracts have a high calming effect on skin and give moisturizing care to sensitive skin and infants. Ginseng extracts provide nutrients to the skin.

On the other hand, purified water (Water) is mixed in an amount of about 40 to 45% by weight. When the purified water is mixed at less than 40% by weight, the efficacy thereof is not greatly improved, but the concentration of the snail concentrate becomes unnecessarily high and the manufacturing cost is greatly increased. When the mixing ratio of the purified water exceeds 45% by weight, the concentration of the snail concentrate becomes too low, and its efficacy is greatly reduced. Therefore, the purified water is preferably mixed in an amount of 40 to 45% by weight.

The moisturizing agent (Butylene Glycol) is mixed in an amount of about 25 to 35% by weight. When the mixing ratio of the moisturizing agent is less than 25% by weight, the moisturizing effect is significantly lowered. When the mixing ratio of the moisturizing agent exceeds 35% by weight, the moisturizing effect is not greatly improved, but the manufacturing cost is increased. Therefore, the moisturizing agent is preferably mixed in an amount of about 25 to 35% by weight.

Snail Secretion Filtrate is mixed in an amount of about 20 to 30% by weight. When the mixing ratio of the snail secretion solution is less than 20% by weight, the effectiveness of the mask pack made of snail mucus is greatly reduced. If the mixing ratio of the snail secretion solution exceeds 30% by weight, the effectiveness of the mask pack made of snail mucus is not greatly improved, but the manufacturing cost is greatly increased. Therefore, it is preferable that the snail secretion is mixed in an amount of about 20 to 30% by weight.

The preservative (Hexanediol) is mixed in about 0.5 to 1.5% by weight. These preservatives are mixed to increase stability and phenoxyethanol may be added. When the preservative is mixed in an amount of less than 0.5% by weight, the stability of the concentrate of snails is not ensured. If the mixing ratio of the preservative exceeds 1.5% by weight, the stability of the snail concentrate is not greatly improved, Is preferably mixed with 0.5 to 1.5% by weight.

The whitening agent is preferably mixed with 2 to 5% by weight, and may be composed of Niacinamide (C ₆ H ₆ N ₂ O: 122.13).

The wrinkle removing agent is mixed with 0.04 to 0.05% by weight and may be made of adenosine (C ₁₀ H ₁₃ N ₅ O ₄ : 267.24).

FIG. 6 is a schematic view showing an apparatus for manufacturing a mask pack according to the present invention. The present invention includes a pack fabric supply unit 20, a first gel coating unit 30, a lower film supply unit 40, a lower film cutting unit 50, The upper film feeder 90, the upper film cutter 100, the upper waste film winding unit 110, and the upper and lower film feed rollers 60, 60, 70, 70, A cooling unit 130, a cutting unit 140, a transfer unit 150, and a closed-end single-chamber mounting unit 160.

The pack material supply portion 20 is wound and supplied with the pack material 13 of the mask pack M. A drive means is connected to the pack supply unit 20 to control the supply of the pack to the pack supply unit 20. The pack supply unit 20 is installed to idle so that the pack 13 is rotated only as long as the pack 13 is pulled. You may.

The first gel coating portion 30 applies the hydrogel 10 to one side of the pack fabric 13 drawn out from the pack fabric supplying portion 20. The hydrogel 10 is sprayed from the first coating nozzle 31 of the first gel coating unit 30 and the hydrogel 10 is coated on the pack fabric 13. Only one first coating nozzle 31 may be installed, but a plurality of first coating nozzles 31 may be installed.

The lower film supply unit 40 is configured such that the lower film fabric 15 is wound and fed and the lower film fabric 15 is pulled out in parallel with the pulling direction of the pack fabric 13. The supply speed of the pack raw material 13 of the pack raw material supply portion 20 and the supply speed of the lower film 14 of the lower film supply portion 40 are kept the same.

The lower film cutting portion 50 cuts the lower film 14 to be attached to the first gel coating portion 30 along the lower film web 15 drawn from the lower film supply portion 40. When the lower film 14 passes the lower film die 52, the lower film cutter 51 punches the lower film 14 and the punched lower film 14 passes through the lower film die hole 53, (10) is seated on the upper surface of the packed fabric (13).

The lower core film winding unit 60 winds the lower core film 16 provided on one side of the lower film cutting unit 50 and cuts the lower film 14. [

The single station front part 70 reverses the upper and lower sides of the pack fabric 13 coated with the first hydrogel 11 and the lower film 14 by 180 °.

The single short front portion 70 includes a first horizontal support portion 71 for supporting the pack raw material 13 drawn from the pack raw material supply portion 20 and entering the single short front portion 70 in a horizontal state, A vertical support portion 72 provided at one side of the support portion 71 and supporting the pack fabric 13 passed through the first horizontal support portion 71 in a state of standing at 90 degrees, The pack fabric 13 having passed through the vertical support portion 72 is supported in a horizontal state twisted by 90 占 and the pack fabric 13 is rotated 180 占 on the basis of the state of being supported by the first horizontal support portion 71, And a horizontal support portion 73.

The second gel coating portion 80 is formed by coating the second hydrogel 12 on the other side of the pack fabric 13 inverted 180 ° by the single short front portion 70 on one side of the short- do.

The upper film supply unit 90 is configured such that the upper film material 18 is wound and fed and the upper film material 18 is pulled out in parallel with the pulling direction of the pack raw material 13 that has passed through the single short-

The upper film cutting portion 100 cuts the upper film 17 to be attached to the second gel coating portion 80 along the upper film web 18 drawn from the upper film supplying portion 90.

When the upper film 17 passes the upper film die 102, the upper film cutter 101 punches the upper film 17, and the punched upper film 17 passes through the upper film die hole 103, (10) is seated on the upper surface of the packed fabric (13).

The waste upper film winding unit 110 winds the waste upper film 19 provided on one side of the upper film cutting unit 100 to cut the upper film 17.

The crimping portion 120 is installed on one side of the upper film cutting portion 100 to press the upper and lower portions of the pack fabric 13 to which the lower film 14 and the upper film 17 are attached.

The cooling unit 130 is installed on one side of the compression bonding unit 120 to cool the pack fabric 13.

The cutting unit 140 is installed on one side of the cooling unit 130 and cuts the pack fabric 13 in accordance with the size of the mask pack M. [

The transfer unit 150 is installed on one side of the cutting unit 140 to transfer the cut mask pack M.

The closed-end single-winding attaching unit 160 winds the waste fabric 13 'drawn out from the cutting unit 140 after the mask pack M is cut.

The apparatus for manufacturing a mask pack of the present invention having such a configuration is driven as follows.

First, the pack fabric 13 is continuously supplied from the pack fabric supply portion 20 to the small-diameter front portion 70 side. The hydrogel 10 is sprayed from the first gel coating portion 30 onto the upper surface of the pack fabric 13 while the pack fabric 13 is drawn out from the pack raw material supplying portion 20. [

While the pack fabric 13 is being drawn out, the lower film 14 is drawn from the lower film supply part 40 and passes through the lower film die 52. When the lower film 14 passes the lower film die 52, the lower film cutter 51 is lowered to cut the lower film 14. At this time, the lower film 14 is cut along the outer shape of the mask pack M and cut to form the lower film cutout portion 14 'on one side of the lower film 14. The cut lower film 14 falls down through the lower film die hole 53 and is seated on the upper surface of the pack fabric 13 to which the hydrogel 10 is applied. The lower part film 14 is cut and the lower part lower film 16 is wound on the lower part lower film winding part 60.

On the other hand, the pack fabric 13 to which the hydrogel 10 is applied and on which the lower film 14 is placed is first pressed while being horizontally engaged with the first horizontal support portion 71 of the single short- Then, the pack fabric 13 is vertically erected while being twisted at 90 degrees passing through the vertical support portion 72 and is inverted by 180 degrees in a horizontal state while being further twisted by 90 degrees through the second horizontal support portion 73.

The pack fabric 13 reversed by the single short front portion 70 is coated with the hydrogel 10 by the second gel coating portion 80.

While the second hydrogel 12 is applied to the pack fabric 13, the top film 17 is drawn from the top film supply 90 and passes through the top film die 102. When the upper film 17 passes the upper film die 102, the upper film cutter 101 is lowered to cut the upper film 17. At this time, the upper film 17 is cut along the outer shape of the mask pack M, and the upper film 17 is cut so that the upper film cutout 17 'is formed on one side of the upper film 17. The cut upper film 17 falls down through the upper film die hole 103 and is seated on the upper surface of the pack fabric 13 to which the hydrogel 10 is applied. The waste upper film 19, on which the upper film 17 is cut, is wound on the waste upper film winding portion 110.

The hydrogel 10 is applied to both sides of the pack fabric 13 and the lower film 14 and the upper film 17 are attached and then passed through the crimping portion 120. Therefore, the lower film 14 and the upper film 17 are reliably attached to the pack fabric 13.

The pack fabric 13 having passed through the crimping portion 120 is cooled while passing through the cooling portion 130 and is cut into a mask pack M while passing through the cutting portion 140. The cut mask pack M is supplied to the transfer unit 150 and the waste fabric is wound around the closed-end single-winding attaching unit 160.

The present invention has the following advantages.

First, the present invention is characterized in that a lower film cutout portion 14 'is formed concavely inwardly in a lower film 14 opposite to a lower edge of one side of the first hydrogel 11 so that the lower film 14 and the first hydro- The first hydrogel 11 is formed such that one side edge face of the first hydrogel 11 is exposed to the outside so as to grasp and peel the gel 11 and an upper film 17 opposite to the other lower edge of the second hydrogel 12, An upper film cut-out portion 17 'is formed inwardly concave so that the other side edge face of the second hydrogel 12 can be peeled off from the outer side of the outer film 17 and the second hydrogel 12, As shown in FIG.

Accordingly, since the lower film cutout portion 14 'and the upper film cutout portion 17' are formed on the lower film 14 and the upper film 17, respectively, the first hydrogel 11 and the second hydrogel 12 The lower film 14 and the upper film 17 can be easily peeled off.

Second, the hydrogel 10 of the mask pack (M) of the present invention contains a snail concentrate, and the snail concentrate contains 40 to 45 wt% of purified water, 25 to 35 wt% of a moisturizer, , 0.5 to 1.5% by weight of a preservative, 2 to 5% by weight of a whitening agent, and 0.04 to 0.05% by weight of a wrinkle removing agent.

Therefore, since the hydrogel 10 of the mask pack M contains the snail concentrate, it can be effectively used for skin detoxification, prevention of aging, and treatment of inflammatory diseases.

Third, the mask pack manufacturing apparatus of the present invention is characterized in that the hydrogel 10 is applied to one side of the pack fabric 13, the lower film 14 is cut and attached, the pack fabric 13 is turned 180 °, The hydrogel 10 is applied to the other surface of the upper film 13 and the upper film 17 is cut and attached. Finally, the pack fabric 13 is cut to manufacture the mask pack M.

Thus, the upper film 17, the lower film 14 and the pack fabric 13 are respectively manufactured so as to be cut and then combined so that only the upper film 17 and the lower film 14 have the upper film cutout 17 ' It is possible to form the film cut-out portion 14 'and automate the manufacturing process of the mask pack M which facilitates film separation.

Meanwhile, the lower film die 52 and the upper film die 102 may be made of FCD cast iron. This FCD cast iron is heated to 1600 to 1650 ° C to be molten, then subjected to a desulfurization treatment, to a spheroidizing treatment agent containing about 0.3 to 0.7% by weight of magnesium, to a spheroidizing treatment at 1500 to 1550 ° C, and then to heat treatment.

Since FCD cast iron is a cast iron in which graphite is spherically crystallized during the solidification process by adding magnesium or the like to the molten metal of general gray cast iron, the shape of graphite is spherical compared to gray cast iron. Since the FCD cast iron has less notch effect, stress concentration phenomenon is reduced, and strength and toughness are greatly improved.

The lower film die 52 and the upper film die 102 of the present invention are manufactured by heating the FCD cast iron at a temperature of 1600 to 1650 占 폚 to make a molten metal and then performing a desulfurizing treatment and adding a spheroidizing agent containing about 0.3 to 0.7% Followed by spheroidizing treatment at 1500 to 1550 ° C, followed by heat treatment.

Here, if the FCD cast iron is heated to less than 1600 DEG C, the entire structure can not be sufficiently melted, and if it is heated above 1650 DEG C, unnecessary energy is wasted. Therefore, it is preferable to heat the FCD cast iron to 1600 to 1650 캜.

If the amount of magnesium is less than 0.3% by weight, the effect of injecting the spheroidizing agent is negligible. If the amount of magnesium is more than 0.7% by weight, the effect of injecting spheroidizing agent There is a problem that an expensive material cost is increased while not greatly improving. Therefore, the mixing ratio of magnesium in the spheroidizing agent is preferably about 0.3 to 0.7% by weight.

When the spheroidizing treatment agent is injected into the molten FCD cast iron, it is subjected to spheroidizing treatment at 1500~1550 ° C. If the spheroidizing treatment temperature is lower than 1500 ° C., the spheroidizing treatment is not properly performed. If the spheroidizing treatment temperature is higher than 1550 ° C., the spheroidizing treatment effect is not greatly improved, but unnecessary energy is wasted. Therefore, the spheroidization treatment temperature is preferably 1500 to 1550 ° C.

Since the lower film die 52 and the upper film die 102 of the present invention are made of FCD cast iron, the stress concentration phenomenon is reduced because the notch effect is small, and the strength and toughness are greatly improved.

The first coating nozzle 31 and the second coating nozzle 81 may be made of cyclone nozzles. The cyclone nozzle is a means for rotating the injected gel with a strong jetting force of the gel. The cyclone nozzle has a threaded portion 31a (81a) having a thread to be fastened to the hose at its upper end, A body portion 31b and 81b having a hollow shape and a conical shape are integrally extended from the upper and lower portions 81a and 81a of the body portion 31b and 81b. And a plurality of gel holes 31c (81c) are formed.

Spiral gel movement guide grooves 31d and 81d coinciding with the gel holes 31c and 81c arranged in the spiral direction are formed on the outer surfaces of the body portions 31b and 81b, (31d) and (81d) serve to guide the spraying direction of the air injected from the gel holes (31c) and (81c) in the helical direction to form a vortex.

The gel injected through the gel holes 31c and 81c of the cyclone nozzle and the helical gel movement guide grooves 31d and 81d is rotated and sprayed onto the pack fabric 13 while forming a swirl, (13), as well as being uniformly sprayed onto the pack fabric (13).

A sound-absorbing layer may be applied to the inside of the case 141 of the cutting portion 140.

The nonwoven fabric constituting the sound-absorbing layer may be a needle punch nonwoven fabric. The types of the fibers constituting the sound-absorbing layer made of the needle punch nonwoven fabric include polyester fibers, nylon fibers, polypropylene fibers, acrylic fibers, and natural fibers.

The thickness of the sound-absorbing layer is preferably 0.3 to 15 mm. If the thickness of the sound-absorbing layer is less than 0.3 mm, a sufficient sound-absorbing effect can not be obtained. If the thickness of the sound-absorbing layer is more than 15 mm, the internal space of the case 141 is reduced.

The unit weight of the sound-absorbing layer is preferably 10 to 1000 g / m ² . If it is less than 10 g / m ² , a sufficient sound absorption effect can not be obtained, and if it exceeds 1000 g / m ² , the light weight of the case 141 of the cutting portion 140 can not be secured.

The fineness of the fibers constituting the sound-absorbing layer is preferably in the range of 0.1 to 30 decitex. If it is less than 0.1 decitex, absorption of low-frequency noise is difficult and cushioning property is lowered, which is not preferable. Further, if it exceeds 30 decitex, it is not preferable to absorb high frequency noise. Among these, the fineness of the fibers constituting the sound-absorbing layer is more preferably in the range of 0.1 to 15 decitex.

Since the sound-absorbing layer is provided inside the case 141, noise during operation of the cutting portion 140 can be reduced.

The first coating nozzle 31 and the second coating nozzle 81 may be coated with a coating composition for preventing corrosion.

The coating composition was prepared by mixing 100 parts by weight of a water-soluble resin composition prepared by mixing 80% by weight of resorcinol diglycidyl ether and 20% by weight of propanol amine, 1 to 10 parts by weight of hexamethylated-hexamethylol melamine.

In the present invention, by using characteristics of the resorcinol diglycidyl ether such as excellent chemical resistance and dimensional stability, properties of corrosion resistance of propanolamine, and excellent lubrication characteristics of melamine derivatives, a more environmentally friendly first coating nozzle 31 And the second coating nozzle 81 can be formed.

The method for applying the coating composition for preventing corrosion is not particularly limited, but it is preferable to apply the coating composition on the surface of the first coating nozzle 31 and the second coating nozzle 81 so as to have a dry film thickness of 10 to 30 μm. If the dry film thickness is less than 10 탆, the service life can be shortened, and if it exceeds 30 탆, there is no problem in function but the economic advantage is reduced.

The first coating nozzle 31 and the second coating nozzle 81 coated with the coating composition for preventing corrosion are dried at a temperature of 100 to 200 DEG C, preferably 150 to 180 DEG C, for 10 to 30 minutes, Minute to obtain a coating film which is non-sticky and excellent in gloss.

M: mask pack 10: hydrogel
11: first hydrogel 12: second hydrogel
13: Pack fabric 13 ': Waste fabric
14: Lower film 14 ': Lower film incision
14 ": first grip portion 15: lower film fabric
16: lower part film 17: upper film
17 ': upper film cutout portion 17'': second grip portion
18: upper film fabric 19: waste upper film
20: pack-fabric supply part 30: first gel coating part
31: First coating nozzle 40: Lower film supply part
50: lower film cutting portion 51: lower film cutter
52: lower film die 53: lower film die hole
60: a lower part film winding part 70:
71: first horizontal support part 72: vertical support part
73: second horizontal supporting part 80: second gel coating part
81: first coating nozzle 90: upper film supply part
100: upper film cutting portion 101: upper film cutter
102: upper film die 103: upper film die hole
110: wound upper part film winding part 120:
130: cooling part 140: cutting part
150: Feeding unit 160:

Claims (6)

delete delete A hydrogel (10) consisting of a first hydrogel (11) applied to the pack fabric and attached to the top of the face and a second hydrogel (12) applied to the pack fabric and attached to the bottom of the face;
A bottom film (14) attached to one surface of the first hydrogel (11) and the second hydrogel (12);
And a single upper film (17) attached to the other side of the first hydrogel (11) and the second hydrogel (12);
The lower film 14 is provided with a first grip portion 14 "protruding outwardly convexly, and a second grip portion 17" protruding outwardly convexly is formed on the upper film 17, The lower film 14 is separated from the first hydrogel 11 and the second film 17 is gripped and lifted so that the upper film 17 is separated from the second hydrogel 12 );
In the hydrogel 10,
Wherein the concentrate of snail concentrate comprises 40 to 45 wt% of purified water, 25 to 35 wt% of a moisturizer, 20 to 30 wt% of a snail secretion, 0.5 to 1.5 wt% of a preservative, 2 to 5 wt% of a whitening agent % Of a wrinkle removing agent, and 0.04 to 0.05% by weight of a wrinkle removing agent. delete A hydrogel (10) consisting of a first hydrogel (11) applied to the pack fabric and attached to the top of the face and a second hydrogel (12) applied to the pack fabric and attached to the bottom of the face; A bottom film (14) attached to one surface of the first hydrogel (11) and the second hydrogel (12); And a single upper film (17) attached to the other side of the first hydrogel (11) and the second hydrogel (12); The lower film 14 is provided with a first grip portion 14 "protruding outwardly convexly, and a second grip portion 17" protruding outwardly convexly is formed on the upper film 17, The lower film 14 is separated from the first hydrogel 11 and the second film 17 is gripped and lifted so that the upper film 17 is separated from the second hydrogel 12 ); The hydrogel (10) contains a snail concentrate, wherein the snail concentrate contains 40 to 45 wt% of purified water, 25 to 35 wt% of a moisturizer, 20 to 30 wt% of a snail secretion, 0.5 to 1.5 wt% , 2 to 5% by weight of a whitening agent, and 0.04 to 0.05% by weight of a wrinkle removing agent are mixed,
A pack fabric supply portion 20 in which a pack fabric 13 of the mask pack M is wound and supplied;
A first gel coating unit 30 for applying the hydrogel 10 to one side of the pack fabric 13 drawn from the pack fabric supply unit 20;
A lower film supply unit 40 for winding and feeding the lower film 15 and drawing the lower film 15 in parallel with the pulling direction of the pack 13;
A lower film cutting unit 50 installed along the lower film fabric 15 drawn from the lower film supply unit 40 and cutting the lower film 14 to be attached to the first gel coating unit 30;
A lower core film winding portion 60 installed at one side of the lower film cutting portion 50 for winding up a lower core film 16 cut with the lower film 14;
(70) which reverses the upper and lower sides of the pack fabric (13) coated with the hydrogel (10) and attached with the lower film (14) by 180 °;
A second gel coating portion 80 provided at one side of the small area front portion 70 and applying the hydrogel 10 to the other side of the pack fabric 13 turned 180 ° by the small region front portion 70;
An upper film supply unit 90 for winding up the upper film material 18 and supplying the upper film material 18 in a direction parallel to the drawing direction of the pack raw material 13 that has passed through the single short front electrode 70;
An upper film cutting unit 100 installed along the upper film 18 pulled out of the upper film supply unit 90 and cutting the upper film 17 to be attached to the second gel coating unit 80;
A waste upper film winding unit 110 installed at one side of the upper film cutting unit 100 to take up the waste upper film 19 cut with the upper film 17;
A pressing part 120 installed at one side of the upper film cutting part 100 to press the upper and lower portions of the pack fabric 13 with the lower film 14 and the upper film 17 attached thereto;
A cooling unit 130 installed at one side of the pressing unit 120 to cool the pack fabric 13;
A cutting unit 140 installed at one side of the cooling unit 130 and cutting the pack fabric 13 to fit the size of the mask pack M;
A transfer unit 150 installed at one side of the cutting unit 140 to transfer the cut mask pack M;
, And a closed-end single-winding attaching portion (160) for winding the waste fabric (13 ') drawn out from the cutting portion (140) after the mask pack (M) is cut. [7] The apparatus according to claim 5,
A first horizontal support portion 71 for supporting the pack raw material 13 taken out from the pack raw material supply portion 20 and entering the single short front portion 70 in a horizontal state,
A vertical supporting part 72 provided at one side of the first horizontal supporting part 71 and supporting the packed fabric 13 passing through the first horizontal supporting part 71 in a state of standing at 90 °,
The pack fabric 13 provided on one side of the vertical support portion 72 and passed through the vertical support portion 72 is supported in a horizontal state warped by 90 ° further and supported on the first horizontal support portion 71, And a second horizontal support part (73) for reversing the first horizontal support part (13) to 180 degrees.

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