KR20190043206A - Energy saving Korean-paper yarn fabric uing thermal reflection and manufacturing method thereby - Google Patents

Abstract

The present invention relates to an energy-saving Korean paper yarn fabric using body heat reflection which is excellent in physical properties such as tensile strength, burst strength, and abrasion strength, and is excellent in body heat reflectance and is suitable for used as a fabric of winter energy-saving clothes, and a method for manufacturing the same. The method comprises the steps of: a) manufacturing a Korean paper yarn fabric using a Korean paper composite yarn; b) forming a polyurethane-based adhesive layer on one side of the Korean paper yarn fabric; and c) coating the polyurethane-based adhesive layer with silver powder.

Description

TECHNICAL FIELD [0001] The present invention relates to an energy saving type hanji fabric using thermal reflection and a manufacturing method thereof,

The present invention relates to an energy saving type hanji yarn fabric using body heat reflection and a manufacturing method thereof.

The existing worm biz market is made up of functional synthetic fiber products, and the market size is continuously increasing. It is being developed in developed countries such as Japan, but there are few examples developed in Korea as real products. Especially, It is hard to find a product that combines heat reflection technology with fiber.

Paper yarn is cellulosic bast fiber such as hemp, linen, etc. It maintains the advantages of filament yarn which is biodegradable, refreshing, antimicrobial, dehumidifying and deodorizing function, It is a high value-added natural material. It has high moisture absorbing and dissipating performance compared to cotton, and has deodorizing ability to absorb living odor such as ammonia quickly. It has far infrared ray emissivity level of loess, have.

The fabrics using the functionality of Hanji Co. have been proposed in Patent Documents 0001 to 000.

Patent Literature 0001 discloses a blend of mulberry fibers and natural fibers having various functionalities such as light weight, absorption and drying, antibacterial and ultraviolet barrier properties, including a white paper preparing step, a beating step, a dissociating step, a spinning step and a winding step And a method of manufacturing the same.

Patent Literature 0002 relates to a taekwondo cloth suiting fabric which is improved in fabric fricatives and is excellent in sweat absorbency and deodorizing property, and is characterized by comprising a polyester / cotton blend yarn and a fabric made of Hanji yarn.

Patent Document 0003 relates to a method of manufacturing a Korean paper fiber fabric in which a yarn made of staple fiber and a Korean paper yarn made of Hanji yarn are woven using rayon yarn.

Fabrics such as fabrics of Patent Documents 0001 to 0003 have advantages such as light weight, antibacterial and deodorant properties, which are function of Hanji yarn, because they are manufactured using Hanji yarn, but they are used as fabric for working clothes for energy saving in winter due to low reflectance There is a problem that there is a limit in the following.

KR 10-2017-0003831 A (2017.01.10) KR 10-1682075 B1 (2016.11.28) KR 10-2011-0005590 A (2011.01.18)

In order to solve such conventional problems, the present invention provides an energy saving type heat insulation material which is excellent in physical properties such as tensile strength, burst strength and abrasion strength, and has excellent heat reflectance, And a method of manufacturing the same.

According to an aspect of the present invention,

a) fabricating a hanji yarn fabric using a Korean paper composite yarn;

b) forming a polyurethane based adhesive layer on one side of the above-mentioned plain weave fabric;

and c) coating the polyurethane-based adhesive layer with silver powder. The present invention also provides a method of manufacturing an energy saving hanji yarn fabric using thermal reflection.

The Hanji Composite Co., Ltd. may be blended with Hanji yarn and cotton yarn at a weight ratio of 75 to 80: 25 to 20.

In the step b), it is preferable that a polyurethane adhesive layer is formed on one surface of the raw paper of the paper using a gravure printing method in a predetermined pattern.

Also, in the step c), it is preferable that the polyurethane based adhesive layer is coated with silver powder in a state in which heat is applied to the polyurethane based adhesive layer formed on one side of the raw fabric of the paper yarn. In particular, it is preferable that silver foil is coated on the polyurethane based adhesive layer by supplying the above-mentioned plain paper cloth and the stamping film so that the heated polyurethane based adhesive layer and the silver powder layer formed on the stamping film are in contact with each other. At this time, the polyurethane adhesive layer can be heated by a heating roller.

In addition, the present invention provides an energy saving type hanji yarn fabric using body heat reflection, which is manufactured by such a manufacturing method.

The present invention provides an energy saving type hanji yarn fabric using heat reflectance suitable for use as a fabric for energy saving clothes for winter because of excellent physical properties such as tensile strength, burst strength and abrasion strength and excellent heat reflectance have.

Hereinafter, an energy saving type of paper-making yarn using the heat reflection of the present invention and a manufacturing method thereof will be described in detail as follows.

The manufacturing method of the energy saving type paper making yarn using the heat reflection of the present invention includes a step of fabricating a hanger yarn fabric, a polyurethane adhesive layer forming step and a silver coating step.

First, in the step of fabricating the paper yarn fabric, the step of fabricating the paper yarn fabric is performed using a Korean paper composite yarn.

When the above-mentioned paper yarn fabric is manufactured by using only a single paper yarn, the functionality of Hanji Co., that is, biodegradability, cooling feel, antibacterial property and dehumidifying / deodorizing function are excellent, but tensile strength, burst strength and abrasion strength are not good, In order to improve physical properties such as strength, rupture strength and abrasion strength, it is good to fabricate a hanji yarn fabric by using a hanji composite yarn manufactured by folding and combining hanji yarn and cotton yarn.

The Hanji composite yarn can be a Hanji composite yarn manufactured by folding and combining a certain width of Hanji tape and cotton yarn with a twin yarn twist yarn machine.

It is recommended to weave or knit a Hanji composite with a 1.5 mm width of Hanji tape and 23 cotton yarns in a twin yarn twisted yarn in order to produce a Hanji yarn with excellent physical properties such as tensile strength.

Next, the polyurethane adhesive layer forming step is a step of forming a polyurethane adhesive layer on one surface of the above-described paper making tape.

A polyurethane adhesive based on polyol and isocyanate is applied to one surface of the above-mentioned plain paper to form the polyurethane based adhesive layer.

At this time, in order to obtain antimicrobial activity, dehumidification and deodorization of the paper-making yarn used in the paper making step, it is preferable that the polyurethane-based adhesive layer is formed partially on the entire surface of the raw paper.

The polyurethane based adhesive layer is formed by a gravure printing method on the polyurethane based adhesive in a predetermined pattern on one side of the raw fabric of the paper. The polyurethane based adhesive layer formed on one side of the raw fabric of the above-mentioned paper making yarn is dried by hot air.

The silver coating step is a step of coating silver on the polyurethane based adhesive layer to improve the heat reflectance of the cloth paper.

In order to improve the adhesion of the silver to the polyurethane-based adhesive layer, it is preferable to coat silver with the polyurethane-based adhesive layer in a state of applying heat at 145 to 155 ° C. It is preferable that heat is applied to the polyurethane based adhesive layer using a heating roller.

It is preferable that the silver powder is adhered to the polyurethane based adhesive layer using a stamping film to which silver powder is attached. In detail, the polyurethane based adhesive layer is coated with silver powder by supplying the above-mentioned plain paper yarn and the stamping film so that the heated polyurethane based adhesive layer and the silver powder layer formed on the stamping film are in contact with each other.

Hereinafter, a method of manufacturing an energy saving type hanji yarn fabric using thermal reflection of the present invention will be described with reference to the following examples, and the scope of the present invention is not limited to the following examples.

[Manufacture of Hanji Co., Ltd.]

The Hanji width of 13 g / m < 2 > was slit at 1 mm, 1.25 mm, 1.0 mm and 2 mm, respectively, to obtain four kinds of Hanji tapes. 4 kinds of Hanji tape and cotton yarn 23 's, and cotton yarn 19'

Also, Hanji yarn or Hanji composite yarn was produced by folding and squeezing together a Hanji tape alone or with a cotton yarn twisted yarn twist yarn.

No Hanji tape
Slitting width (mm) Cotton yarn Weight (g) Denier (d) One 1.0 - 1.310 131 2 1.25 - 1.525 152 3 1.50 - 1.831 183 4 1.50 Cotton yarn 23's 2.205 220 5 2.0 - 2.423 242 6 2.0 Cotton yarn 19's 2.922 292

Tensile strengths of the Hanji or Hanji composite yarns of Table 1 and manufactured Nos. 1 to 6 were measured using a tensile strength test machine. At this time, the measurement atmosphere was 20 ° C and 65% at a temperature of 100 ° C / min and a gripping distance of 250 mm. The measurement results are shown in Table 2.

No Maximum Load
(N) Extension at
Maximum Load
(mm) Tensile extension at Break
(mm) Tenacity at
Maximum Load
(gf / d) One 1.68 5.40002 5.41665 1.31081 2 1.73 5.80001 5.81663 1.15795 3 2.27 5.98334 5.99968 1.26591 4 32.94 6.61665 7.92167 1.52667 5 32.54 3.59999 4.93162 1.37111 6 31.86 6.45368 9.54097 1.11273

As a result of the tensile strength measurement for Hanji or Hanji composite yarn No. 1 to 6, the No. 4 composite yarn of Hanji was the highest at 1.52667 gf / den.

No. 4 composite yarns and 30 yarns were knitted with a double-faced jacquard knitting machine under the same knitting conditions as Table 3.

group Inch Gauge Feeder Flooding single 30 16.5 1,500 2,080

On one side of the knitted single circular knitted fabric, a polyurethane adhesive was coated in a certain pattern by a gravure printing method and the polyurethane adhesive layer was dried by hot air at 30 ° C.

The polyurethane adhesive layer of the single circular-knitted fabric was heated using a heating roller at 150 캜. At this time, silver paste of stamping film with silver powder attached to the heating roller and polyurethane adhesive layer of single circularly-formed fabric are supplied in contact with each other to bond the silver powder to the polyurethane adhesive layer, thereby manufacturing an energy saving type paper- Respectively.

[Test for physical properties such as washing fastness and abrasion strength]

Washing fastness, washing dimensional change, abrasion strength, tensile strength, tear strength and drying speed of the prepared hanji fabric were tested and the results are shown in Table 4. Wash fastness was tested by the method of KS K ISO 105-C06: 2012, the change of wash dimension was tested by the method of KS K ISO 5077: 2014 and the abrasion strength by the Martin Dale method of KS K ISO 12947-2: 2008 The tensile strength was tested by grappling method of KS K 0520: 2009, the breaking strength was tested by the method of KS K ISO 13938-1: 2011, and the drying speed was tested by method A of KS K 0815.

Wash fastness
(class) Change in washing dimension (%)
Abrasion strength
(time)
The tensile strength
(N)
Burst strength
(kPa)
Drying rate
(min)
Disqualification pollution Oblique direction Weft direction
3 to 4

4 to 5
-4.0
-5.0
20,000
More than 520 906 125

As shown in Table 5, the Hanji fiber fabric was evaluated to have excellent wash fastness, washing dimensional change, abrasion strength, tensile strength, burst strength and drying speed.

[Deodorization rate test]

The deodorization ratio was measured by the gas detection method on the fabricated hanji yarn. The results are shown in Table 5.

30 minutes 60 minutes 90 minutes 120 minutes Deodorization rate
(%) 93 94 96 97

The deodorization ratio of ammonia gas was found to be 93% or more, which is very high, in the Hanzi yarn fabric manufactured as shown in Table 5.

[Reflectance test]

The reflectance was measured on the fabricated hanji yarn fabric, and the reflectance was measured using a UV-vis-NIR spectrophotometer in a wavelength range of 380 to 2,000 nm (10 nm interval) for the three samples of the fabricated hanji yarn fabric . The results are shown in Table 6.

Sample 1 Sample 2 Sample 3
reflectivity(%)
60.2
63.4
66.1

As shown in Table 6, the reflectance of the Hanji fiber fabric was measured as high as 60.2% or more.

As described above, the hanger fabric of the present invention is excellent in physical properties such as washing fastness, washing dimensional change rate, abrasion strength, tensile strength and tear strength, and has a reflectance of 60.2% while maintaining a high deodorization rate, And thus it is suitable to use as a fabric for energy saving clothes for winter.

Claims (7)

a) fabricating a hanji yarn fabric using a hanji composite yarn;
b) forming a polyurethane based adhesive layer on one side of the above-mentioned plain weave fabric;
and c) coating the polyurethane-based adhesive layer with silver powder.
The method according to claim 1,
Wherein the Hanji composite yarns are composed of Hanji yarn and cotton yarn at a weight ratio of 75 to 80: 25 to 20, and a method of manufacturing an energy saving type Hanji yarn using thermal reflection.
The method according to claim 1,
Wherein the step (b) comprises forming a polyurethane adhesive layer on a surface of the raw fabric of the paper using a gravure printing method in a predetermined pattern.
The method of claim 3,
Wherein the step c) is a step of coating the polyurethane-based adhesive layer with silver powder in a state in which heat is applied to the polyurethane-based adhesive layer formed on one side of the raw fabric of the paper yarn, .
5. The method of claim 4,
Wherein the polyurethane based adhesive layer is coated with silver powder by feeding the above-mentioned plain paper cloth and the stamping film so that the heated polyurethane based adhesive layer and the silver powder layer formed on the stamping film are in contact with each other, ≪ / RTI >
6. The method of claim 5,
Wherein the polyurethane adhesive layer is heated by a heating roller, wherein the polyurethane adhesive layer is heated by a heating roller.
6. An energy saving type hanji yarn fabric using heat reflection produced by the manufacturing method according to any one of claims 1 to 6.