KR20200069984A - Heat adhesive membrane structure having a moist permeable and water proof properties and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a waterproof breathable membrane structure (100) capable of being heat-bonded to a fabric by using a hot melt adhesive dot-coated on the surface thereof, and a manufacturing method therefor. Particularly, the present invention relates to a waterproof breathable membrane structure (100) capable of being heat-bonded, and a manufacturing method therefor, the membrane structure being applied to the manufacture of outdoor clothing so as to provide an excellent waterproof breathable property, and enabling a manufacturing process of the outdoor clothing to be simplified.

Description

Heat adhesive membrane structure having a moist permeable and water proof properties and manufacturing method thereof}

The present invention is a moisture-permeable and waterproof membrane structure capable of heat-sealing used for the production of a functional fabric for manufacturing outdoor clothing, and a method of manufacturing the moisture-permeable for manufacturing outdoor clothing by attaching heat and pressure to one side of a fabric base material such as a fabric. The present invention relates to a moisture-permeable and waterproof membrane structure capable of heat-sealing and having a method for manufacturing the same.

In general, the moisture-permeable waterproof fabric passes through and discharges water vapor, such as sweat inside the garment, and prevents moisture such as rain from seeping into the inside of the garment, so it does not get wet with rain or snow (waterproof) and discharges sweat ( breathable) It refers to the fabric material that helps the wearer to regulate body temperature and maintains comfort.

The moisture-permeable waterproof fabric has a compact structure and has flexible pores, which act as a medium between the human body and the environment even when sweating due to the increased amount of activity in cold environments, so that sweat is not condensed or the body temperature is not lost. do.

Recently, as interest in health and leisure activities has increased, the moisture-permeable waterproof fabric has been applied to various fields, and this functionality has been further emphasized through the boom of luxury and well-being. In addition, such moisture-permeable and waterproof fabrics are increasingly being used in outdoor clothing, mountaineering clothes, outdoor outings, and sleeping bags.

Meanwhile, with the introduction of a 52-hour work week, leisure time increases, and lifestyles that focus on comfortable and relaxed life are trending, and outdoor clothing is recording high sales growth every year.

Techniques for manufacturing the moisture-permeable waterproof fabric include wet method, dry method, and laminating method, and the laminating method is made by separately preparing a membrane having moisture-permeable and waterproof properties, and then using the adhesive to permeate the fabric as a fabric. It is a method of manufacturing waterproof fabrics.

Looking at the prior art of the membrane for producing a moisture-permeable waterproof fabric by such a laminating method, Korean Patent Publication No. 10-2017-0127760 (2017. 11. 22.) includes a first nanofiber formed from a hydrophobic polymer A first porous layer; Non-porous layer; And a second porous layer containing a second nanofiber containing an absorbent material or coated with an absorbent material, and a unidirectional moisture-permeable waterproof multilayer membrane and a method for manufacturing the same are provided, and Korean Patent Publication No. 10-2010 -0126940 (2010. 12. 03.) is laminated on the surface of the release paper with fine polyurethane beads cross-linked (cross link), and by forming a number of fine pores between the polyurethane beads, breathability and moisture permeability An excellent moisture-permeable waterproof membrane and a method of manufacturing the same are presented. And the Republic of Korea Patent Publication No. 10-2017-0068984 (2017. 06. 20.) in the fabric base; A surface modification layer formed on the adhesive surface of the fabric substrate; A dot adhesive member transferred to the surface modification layer; And it is proposed a moisture-permeable waterproof fabric comprising a membrane adhered to the fabric base by the dot adhesive member and a method of manufacturing the same.

However, the membrane for manufacturing the moisture-permeable waterproof fabric according to the prior art has a problem in that the liquid adhesive has a non-uniform coating distribution when adhered to the fabric, so that the moisture permeation efficiency is not uniform, and the liquid adhesive permeates the fabric to degrade moisture permeability. have. In particular, there is a problem in that the durability of washing of the manufactured outdoor clothing is poor due to poor peeling durability or wear resistance of the membrane adhered to the fabric substrate.

The present invention relates to a moisture-permeable and waterproof membrane structure 100 capable of thermally bonding to a fabric substrate using a hot-melt adhesive coated with a dot on a surface, and a method for manufacturing the same. Particularly, the present invention relates to a moisture-permeable and waterproof membrane structure 100 capable of heat-sealing which can be applied to the manufacture of outdoor clothing and has excellent moisture-permeable and water-proof properties and can simplify the manufacturing process of the outdoor clothing, and a method of manufacturing the same. However, the problems to be solved of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The moisture-permeable and waterproof membrane structure 100 capable of thermal bonding of the present invention for solving the above problems includes a membrane layer 50; A release layer 70 provided under the membrane layer 50; And a hot melt adhesive layer 30 transferred in a dot shape on the top of the membrane layer 50, wherein the moisture permeability and moisture permeability of the heat-permeable waterproof membrane structure 100 is 3,000 to 50,000 g/m ² /24h It is preferable that the print layer 10 is provided on the membrane layer 50.

In addition, the hot melt adhesive layer 30 is composed of any one of polyamide-based resin, polyurethane-based resin, EVA resin, polyester-based resin, the membrane layer 50 is polyurethane, polyester, polyamide, polytetra It consists of any one of fluoroethylene, the dot of the hot-melt adhesive layer 30 formed on the membrane layer 50 is formed of 1 ~ 300 pieces / cm ² , the thickness of the membrane layer 50 is 0.07 It is preferably 0.5 mm.

And the manufacturing method of the moisture-permeable and waterproof membrane structure 100 capable of heat-sealing for manufacturing the moisture-permeable waterproof fabric of the present invention comprises: a first step of preparing a membrane layer 50 having a release layer 70 formed thereon; A second step of transferring the hot-melt adhesive layer on the membrane layer 50 in a dot shape; A third step of opening and adhering the hot melt adhesive layer 30; And a fourth step of cooling the hot melt adhesive layer 30. In particular, it is preferable to include the step of adding a print layer 10 on top of the membrane layer 50.

The heat-permeable moisture-permeable membrane structure 100 manufactured as described above is preferably heat-sealed with the fabric substrate afterwards, so that it is preferable to manufacture a moisture-permeable waterproof fabric for outdoor clothing.

The moisture-permeable and waterproof membrane structure 100 capable of thermal bonding according to the present invention facilitates the production of a functional fabric having moisture-permeable and waterproof properties by thermally bonding to a fabric base material for manufacturing clothes using a flat plate press or a roller press. In addition, during the sewing process, it is possible to manufacture a moisture-permeable and waterproof functional fabric by a laminating process, thereby reducing the manufacturing steps of outdoor clothing, thereby improving the price competitiveness of the final product. And the heat-permeable and moisture-permeable membrane structure 100 of the present invention is eco-friendly compared to the method of applying an adhesive to an existing fabric and then bonding and bonding the membrane and the fabric by using no solvent, and also designing outdoor clothing. It has the effect of increasing the completeness.

1 is a cross-sectional view of a moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to a first embodiment of the present invention,
2 is a cross-sectional view of a moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to a second embodiment of the present invention,
3 is a top plan view of a moisture-permeable and waterproof membrane structure 100 capable of thermal bonding of the present invention,
4 is a manufacturing process diagram of the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention,
5 is a schematic diagram of the upper screen roll 100 used in the coating process of a hot'Q adhesive resin according to an embodiment of the present invention.

In this application, the terms “include”, “have” or “have” are intended to indicate the presence of features, numbers, steps, components, parts or combinations thereof described in the specification, but one or more other. It should be understood that features or numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

In addition, unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person skilled in the art to which the present invention pertains. Terms, such as those defined in a dictionary used in general, should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

Hereinafter, a moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the present invention and a method of manufacturing the same will be described in detail with reference to the accompanying drawings. 1 is a cross-sectional view of a moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the first embodiment of the present invention, and FIG. 2 is a moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the second embodiment of the present invention 3 is a top plan view of a heat-permeable waterproof membrane structure 100 capable of thermal bonding of the present invention, and FIG. 4 is a manufacturing process diagram of a heat-permeable waterproof membrane structure 100 capable of thermal bonding of the present invention. Is a schematic diagram of an upper screen roll 100 used in the process of applying a hot'Q adhesive resin according to an embodiment of the present invention.

The moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention is for imparting moisture-permeable and waterproof properties to the fabric substrate by adhering to the fabric substrate during manufacture of outdoor clothing and the like. The moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention includes a membrane layer 50 as shown in FIG. 1; A release layer 70 provided under the membrane layer 50; It characterized in that it comprises a; hot-melt adhesive layer 30 is transferred in a dot shape on top of the membrane layer (50).

That is, according to the first embodiment of the present invention, in order to manufacture the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention, the membrane layer 50 forming the base layer is first required. The membrane layer 50 is configured to impart moisture-permeable and waterproof properties to the fabric substrate by being adhered to the fabric substrate to manufacture outdoor clothing.

That is, the membrane layer 50 can be manufactured using polytetrafluoroethylene, polyurethane, polyester, polyamide, and the like.

That is, polytetrafluoroethylene exhibits excellent moisture permeability by enabling uniform formation of fine pores on the membrane, and polyurethane is easy to control the size of pores formed on the membrane, and polyester is excellent in moisture permeability and water resistance, and It has excellent feel and durability, and has excellent appearance. In addition, polyamide is widely used as a moisture-permeable and waterproof membrane due to its excellent corrosion resistance, abrasion resistance, chemical resistance and insulation.

In addition, the thickness of the membrane layer 50 used in the present invention is preferably 0.07 ~ 0.5 mm, particularly preferably 0.1 ~ 0.3 mm. That is, in the case of having the thickness as described above, when applied to clothing, it is possible to manufacture outdoor clothing excellent in moisture permeability and water resistance, as well as in windproofness and light weight, and excellent in touch.

In addition, the flexibility of the outdoor clothing is not deteriorated, so the activity is comfortable, and accordingly, various functional clothing products can be manufactured.

In addition, the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention includes a release layer 70 under the membrane layer 50.

In general, the release layer 70 is composed of an adhesive component or a film having so-called releasability that does not adhere well to the adhesive component, and is attached to the membrane layer 50 to protect the membrane layer 50 and protects it from dust or foreign substances. It is used to prevent contamination of the membrane layer 50 by. In addition, when the manufacture of the garment is completed, it is removed using the easily peeling property.

In addition, in the moisture-permeable and waterproof membrane structure 100 capable of thermal bonding of the present invention, a hot melt adhesive layer 30 is formed in a dot shape on the membrane layer 50. The hot-melt adhesive layer 30 is a configuration for bonding the membrane layer 50 to the fabric substrate for manufacturing clothes, by applying heat and pressure after the production of the moisture-permeable and waterproof membrane structure 100 capable of thermal bonding of the present invention, the hot melt The adhesive layer 30 is melted to thermally adhere to the base material of the fabric.

In the present invention, the hot melt adhesive is applied to the adherend in a liquid state by melting by applying heat using a non-volatile, non-flammable, thermoplastic resin (Thermoplastic-resin) that is solid at room temperature without using water or a solvent. It refers to a heat-melting adhesive that exhibits adhesion while being cooled and solidified.

In the present invention, the dot forming density of the hot melt adhesive layer 30 formed on the membrane layer 50 may be appropriately selected and carried out.

That is, FIG. 3 is a top plan view of the moisture-permeable and waterproof membrane structure 100 capable of thermally bonding the present invention in which the hot-melt adhesive layer 30 is formed, as shown in FIG. 3, forming dots of the hot-melt adhesive layer 30 The density may be represented by the number of dots of the hot-melt adhesive layer 30 formed inside 1 cm ² of the surface of the moisture-permeable and waterproof membrane structure 100 capable of thermal bonding, that is, unit density. That is, in the present invention, the unit density of the hot-melt adhesive layer 30 is preferably 1 to 300 pieces/cm ² , particularly preferably 30 to 220 pieces/cm ² .

In addition, the dot forming density of the hot melt adhesive layer 30 is as shown in FIG. 3. It can be represented by the number of hot melt adhesive layers 30 formed in a line on a line of 1 inch (inch) length, that is, linear density. In the present invention, the linear density of the hot melt adhesive layer 30 is preferably 7 to 40 pieces/inch.

When the dots of the hot melt adhesive layer 30 are formed in the range of the unit density and the linear density as described above, the moisture permeability of the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention is 3,000 to 50,000 g/m ² /24h. Since it is possible to maintain, the drop in moisture permeability does not occur significantly, resulting in excellent water vapor transmission. In addition, since the adhesive strength of the hot melt adhesive layer 30 is most excellently formed, when manufacturing outdoor clothing,

The moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion may be formed to have excellent peeling durability and wear resistance.

In addition, according to the second embodiment of the present invention, it is also possible to add the print layer 10 under the membrane layer 50. That is, as shown in FIG. 2, the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the second embodiment of the present invention is provided below the membrane layer 50 and is patterned on the membrane layer 50. It is also possible to have a print layer 10 to give. 2, the print layer 10 is provided below the membrane layer 50 to impart a pattern to the membrane layer 50, thereby making lining unnecessary when manufacturing outdoor clothing, and also out It becomes possible to reduce the weight of door clothing. In particular, the manufacturing process of outdoor clothing is simplified, thereby improving price competitiveness.

The moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion of the present invention formed as described above is then heat-sealed to the fabric substrate, thereby making it possible to manufacture a moisture-permeable waterproof fabric for outdoor clothing production.

Hereinafter, a method of manufacturing the moisture-permeable and waterproof membrane structure 100 capable of thermal bonding of the present invention will be described with reference to FIG. 4.

4 is a process diagram showing a manufacturing process of the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the present invention. In the manufacturing process of the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the present invention, the first step is to prepare the membrane layer 50 on which the release layer 70 is formed. As shown in FIG. 4, the membrane layer 50 having the release layer 70 formed thereon is introduced between the upper screen roll 120 and the lower roll 200 as shown in FIG.

Then, as a second step, a hot melt adhesive layer 30 is formed on the membrane layer 50. In the second step, the hot melt adhesive layer 30 is formed on the top of the membrane layer 50 by melting the hot melt adhesive resin using a rotating upper screen roll 120 and transferring it in a dot shape.

That is, after the second step melts the hot melt adhesive resin in the upper screen roll 120, the hot melt adhesive is applied to the upper portion of the membrane 50 through the doctor blade 150 provided on one side of the upper screen roll 120. The melt of the resin is transferred in a dot shape to form the hot melt adhesive layer 30.

Preferably, the second step is performed using the upper screen roll 120. Particularly, when the hot melt adhesive resin is transferred in the shape of a dot by using the upper screen roll 120, the tactile and drape properties of the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion are excellent.

In addition, the upper screen roll 120, it is preferable that the hot-melt adhesive resin is melted and eluted as shown in Figure 5, the outlet hole 15 is preferably 30 to 180 per 1 cm2 is formed, the diameter of the outlet hole 15 It is preferable that it is 350-750 micrometers.

The formation of the hot melt adhesive layer 30 will be described in more detail. As shown in FIG. 4, a hot melt adhesive resin is applied in a dot shape on the top of the membrane layer 50 through the upper screen roll 120. By doing so, the hot melt adhesive layer 30 is formed. At this time, the amount of the hot-melt adhesive resin transferred in the shape of a dot on the top of the membrane layer 50 is preferably 7 to 30 g/m 2, when the amount of the hot-melt adhesive resin applied exceeds 30 g/m ² If the texture is too hard, the touch is reduced, and if it is less than 7 g/m ² , the bonding strength is insufficient to obtain sufficient durability to endure washing. As a result, the adhesive force between the membrane layer 50 and the fabric substrate is It can get bad.

The hot melt adhesive layer 30 is any one of hot melt adhesive resins of acrylic resin, polyurethane, polyamide, polyester, polyolefin, polyvinyl chloride (PVC), ethylene-vinyl acetate copolymer ( EVA ) . Is formed by melting at an appropriate temperature.

At this time, the transfer speed of the hot melt adhesive layer 30 is most preferably 20 to 30 meters per minute. In addition, according to an embodiment of the present invention, the melt viscosity of the hot melt adhesive resin is 20,000 cps to 50,000 cps, which is most preferable when forming the hot melt adhesive layer 30.

That is, the hot melt adhesive resin having the above-described melt viscosity is excellent in initial adhesion, initial adhesion, initial tack and heat resistance when transferred to the membrane layer 50, and at the same time, has excellent workability, and has the effect of shortening the curing time. Is very excellent, and the adhesive strength is the best after the final curing.

Next, the membrane layer 50 on which the hot melt adhesive layer 30 is formed is contained in the hot melt adhesive layer 30 formed on the top of the membrane layer 50 by passing through the tenter 350 together with the release layer 70. The evaporated water is evaporated, and the third step of opening and fixing the hot melt adhesive layer 30 is performed.

At this time, the temperature condition of the tenter 350 may be appropriately set according to the melting temperature of the hot melt adhesive.

In the third step, the hot melt adhesive seated on the top of the membrane layer 50 forms a hot melt adhesive layer 30 in a dot shape.

At this time, the hot-melt adhesive layer 30 is formed of 7 to 30 g/m ² , after which the adhesive strength is best formed after thermally bonding to the fabric substrate, and the moisture-permeable and waterproof membrane structure capable of thermal bonding of the present invention (100 ) Can be formed excellent in peeling durability and wear resistance.

In addition, after completing the third step, a fourth step of cooling the hot melt adhesive layer 30 formed in a dot shape on the membrane layer 50 is performed. In the fourth step, the hot melt adhesive layer 30 is cooled by using a cooling roll 400, so that winding can be performed thereafter.

By cooling the hot-melt adhesive layer 30 in the fourth step as described above, the production of the moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion according to the first embodiment of the present invention is completed.

In addition, according to the second embodiment of the present invention, a step of adding a print layer 10 on top of the release layer 70 may be added. 2, the print layer 10 is provided on the lower portion of the membrane layer 50 to impart a pattern, thereby making lining unnecessary in the manufacture of outdoor clothing, and further reducing the weight of outdoor clothing. do. In particular, the manufacturing process of outdoor clothing is simplified, thereby improving price competitiveness.

The print layer 10 is formed under the membrane layer 50, it can be formed by a conventional printing method, that is, solvent printing, latex printing, toner printing, transfer printing, etc., the print layer 10 of the present invention The forming method is not limited to this.

The print layer 10 may exhibit various design effects by mixing various dyes that react to light, temperature, heat, water, etc., in addition to dyes representing color and design. To this end, the print layer 10 may be formed by mixing at least one of a printing dye, a thermal dye, a photosensitive dye, a photoluminescent powder, a sunscreen, a water and oil repellent agent, a brightening agent, an aqueous flame retardant paint, glass beads, and a brightening agent. . By using these, specific design patterns can be seen or hidden for external conditions such as light, heat, ultraviolet light, and water, thereby highlighting the design effect.

The moisture-permeable and waterproof membrane structure 100 capable of heat-sealing of the present invention, which has been manufactured through the above steps, is capable of manufacturing a functional fabric having moisture-permeable and moisture-proof properties by heat-pressing and applying heat and pressure to the fabric base material for manufacturing clothes. In addition, by manufacturing a moisture-permeable waterproof functional fabric by a laminating process in the sewing process, it is possible to improve the price competitiveness of the final product by reducing the manufacturing steps of outdoor clothing. In addition, the moisture-permeable and waterproof membrane structure 100 capable of thermal bonding of the present invention is eco-friendly and has an effect of increasing the design completeness of outdoor clothing.

The present invention has been described with reference to the experimental examples shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other experimental examples are possible therefrom. In addition, one of ordinary skill in the art to which the present invention pertains will be able to understand that the present invention can be easily modified to other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

100: moisture-permeable and waterproof membrane structure capable of heat bonding
70: release layer
50: membrane layer
100: upper screen roll
200: lower roll
150: doctor blade
30: hot melt adhesive layer
350: tenter
400: cooling roll

Claims (10)

A moisture-permeable and waterproof membrane structure 100 that is attached to a fabric substrate and capable of heat-sealing to produce a moisture-permeable waterproof fabric,
Membrane layer 50;
A release layer 70 provided under the membrane layer 50; And
A hot-melt adhesive layer 30 that is transferred in a dot shape on top of the membrane layer 50; a moisture-permeable and waterproof membrane structure 100 capable of thermally bonding to produce a moisture-permeable waterproof fabric.
The method according to claim 1,
The moisture-permeable waterproof membrane structure 100 capable of heat-sealing for producing a moisture-permeable waterproof fabric is characterized in that the heat-permeable moisture-permeable membrane structure 100 has a moisture permeability of 3,000 to 50,000 g/m ² /24h.
The method according to claim 1,
A moisture-permeable and waterproof membrane structure 100 capable of thermal adhesion for manufacturing a moisture-permeable waterproof fabric, characterized in that a print layer 10 is provided on the membrane layer 50.
The method according to claim 1,
The hot melt adhesive layer 30 is made of any one of polyamide-based resin, polyurethane-based resin, EVA resin, and polyester-based resin. ).
The method according to claim 1,
The membrane layer 50 is a moisture-permeable and moisture-permeable membrane structure 100 capable of heat-sealing for producing a moisture-permeable waterproof fabric, which is made of any one of polyurethane, polyester, polyamide, and polytetrafluoroethylene.
The method according to claim 1,
Dot of the hot-melt adhesive layer 30 formed on the membrane layer 50 is formed from 1 to 300 pcs/cm ² , heat-permeable and waterproof membrane structure capable of heat-sealing for producing a moisture-permeable waterproof fabric ( 100).
The method according to claim 1,
The membrane layer 50 has a thickness of 0.07 to 0.5 mm, characterized in that the moisture-permeable waterproof membrane structure 100 capable of heat-sealing for manufacturing a moisture-permeable waterproof fabric.
Fabric substrate; And
A moisture-permeable and waterproof fabric comprising; a moisture-permeable and waterproof membrane structure (100) capable of thermally bonding to manufacture the moisture-permeable waterproof fabric of any one of claims 1 to 7 that is heat-sealed to one side of the fabric substrate.
A first step of preparing a membrane layer 50 on which a release layer 70 is formed on the lower portion;
A second step of transferring the hot-melt adhesive layer on the membrane layer 50 in a dot shape;
A third step of opening and adhering the hot melt adhesive layer 30; And
A fourth step of cooling the hot melt adhesive layer 30;
Method of manufacturing a moisture-permeable waterproof membrane structure 100 capable of thermal adhesion for manufacturing a moisture-permeable waterproof fabric comprising a.
The method according to claim 9,
Adding a print layer (10) on top of the membrane layer (50); A method of manufacturing a moisture-permeable and waterproof membrane structure (100) capable of heat bonding for manufacturing a moisture-permeable waterproof fabric.

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