KR0142117B1 - Method for manufacturing infrared ray emissive artificial leather - Google Patents

Abstract

The present invention by adding a ceramic powder to the conventional artificial leather, the touch is soft and soft, and the method of manufacturing artificial leather that emits far infrared rays for promoting the metabolism of the human body by the far infrared rays emitted from the ceramic It aims to provide.

The present invention

PVC SOL COMPOUND MANUFACTURING PROCESS; PVC base manufacturing process in foaming machine; Acrylic ink (ACRYL INK) composition manufacturing process; Pretreatment in a gravure printing machine; And in the method of manufacturing artificial leather which is a post-treatment step in a gravure printing press, wherein the PVC sol compound contains a ceramic powder, and the weight ratio of the PVC high polymerization resin and the PVC low polymerization resin is 30:10. The composition of the acrylic ink is characterized by providing a method for producing artificial leather that emits far infrared rays containing a ceramic powder.

The artificial leather according to the present invention causes physiological phenomena such as promoting metabolism and removing waste products by promoting blood circulation and activation of biological tissues by the expansion of capillaries by far-infrared rays radiated from ceramics, which are components thereof. In addition, manifestation can help cure the source of illness.

In addition, the rigidity of the artificial leather is reduced by the chemical deformation of the physical properties of the high temperature process is softer than the conventional artificial leather.

Description

Manufacturing method of artificial leather emitting far infrared rays

1 is a graph showing the far-infrared spectral distribution of artificial leather according to the present invention

The present invention relates to a method of manufacturing artificial leather that emits far infrared rays. Specifically, ceramic powder (manufactured by Hwaseong Industrial Mining Co., Ltd., composition ratio: 63.5% by weight of SiO ₂ , 15.6% by weight of Al ₂ O ₃ , 4.03% by weight of Fe ₂ O ₃ , MgO 4.75% by weight, etc.) to the conventional artificial leather. The present invention relates to a method of manufacturing artificial leather that emits far-infrared rays to promote metabolism of the human body by the far-infrared rays emitted from the ceramic as added.

Conventional artificial leathers include PYLOXYN LEATHER using nitrocellulose, vinyl leather using polyvinyl chloride straight resin and polyvinyl chloride paste resin, LYLON COATED LEATHER using nylon resin, and polyurethane resin. Used polyurethane synthetic leather and polyurethane artificial leather. Moreover, the manufacturing method includes a direct coating manufacturing apparatus, a melt coating manufacturing apparatus, a casting coating manufacturing apparatus using a transfer paper, an impregnation coating manufacturing apparatus, and the like. However, the conventional artificial leather has generated static electricity, the touch also gave a dry feeling that is less than natural leather. Moreover, in the manufacturing method, the heat loss by high temperature processing was large, and energy consumption also increased.

Accordingly, the present invention is to solve the problems described above, and to add a ceramic powder to the conventional artificial leather to moisturize and soften the touch, and further promote the metabolism of the human body by the far-infrared rays emitted from the ceramic The purpose is to make it possible.

In order to achieve the above object, the present invention.

PVC SOL COMPOUND MANUFACTURING PROCESS;

PVC base manufacturing process in foaming machine;

Acrylic ink (ACRYL INK) composition manufacturing process;

Pretreatment in a gravure printing machine; And

In the manufacturing method of artificial leather which is a post-treatment step in a gravure printing press,

Said PVC sol compound is 25-35% by weight of PVC high polymerization resin, 5-15% by weight of PVC low polymerization resin, 35% by weight of plasticizer (DOP), stabilizer (Ba-based stearate) 1.5% by weight, filler (calcium carbonate) 10% by weight, foaming agent (azo compound) 1.5% by weight, pigment 2% by weight and ceramic powder 5-20% by weight, the weight ratio of the above PVC high polymerization resin and the above PVC low polymerization resin is 30:10. It is characterized by providing a method of manufacturing artificial leather that emits infrared radiation.

Hereinafter, the present invention will be described in detail.

25-30% by weight of high-polymerization PVC resin and 5-15% by weight of low-polymerization PVC resin are mixed in a ratio of 30:10, and plasticizers such as DOP, DOA, DBP, DINP, DIDP, Ba, Zn Stabilizers, such as K-based stearate, fillers such as calcium carbonate and cellulose powder, blowing agents such as azo compounds, pigments and ceramic powders (manufactured by Hwaseong Industrial Co., Ltd.) that emit far-infrared rays of 400-600 mesh (MESH) PVC sol compound is prepared by adding about 30-50% by weight relative to the total weight. Among them, the ceramic powder may vary in content depending on the use of artificial leather, and usually about 5-20% of the total weight, preferably 10% by weight is added. That is, the content can be increased when used in high-end sofas, car seats, etc., and the content can be lowered when used in general chairs or bags. However, the effect of far infrared rays is great at 20% by weight or more, but the value of the product is reduced due to the hardening of artificial leather, and the effect of far infrared rays cannot be expected at 5% by weight or less.

Thereafter, on the foaming machine, the obtained PVC sol compound is applied to the release paper with a constant thickness and pregelled at about 150-160 ° C. to produce a soft film. Thereafter, foaming at 210-220 ° C., while conventional foaming was possible at about 250-260 ° C., is possible at about 210-220 ° C. in the method of manufacturing artificial leather emitting far-infrared rays in the present invention. This is due to the self-heating phenomenon inside the material by far infrared rays, the foaming temperature is reduced by that much. Subsequently, a two-component polyurethane adhesive is applied thereon, the solvent is volatilized in a drying oven at 80-100 ° C, and then bubble paper is laminated. Thereafter, the release paper is peeled off to produce a PVC base.

Meanwhile, an acrylic ink composition is prepared by adding 5-20 wt%, preferably 10 wt%, of ceramic powder to 80-95 wt% of the acrylic ink, and performing gravure printing on a PVC base in a gravure printing machine. Here too, the content of the ceramic powder can be adjusted according to the use of artificial leather as described above. Thereafter, the gloss is preliminarily treated with an acrylic treatment agent to emboss the pattern with an embossing machine.

Finally, the embossed product is made of an acrylic treatment agent and a polyurethane treatment agent to control the gloss and feel to make the final product artificial leather.

Hereinafter, the purpose of the present invention in Examples and Comparative Examples will be described in detail.

EXAMPLE

[PVC sol compound manufacturing process]

Raw material weight%

PVC high polymerization resin 30

PVC Low Polymer Resin (BREND RESIN) 10

Plasticizer (DOP) 35

Stabilizer (Ba-Based Stearate) 1.5

Fillers (Calcium Carbonate) 10

Foaming Agent (Azo Compound) 1.5

Pigment 2

Ceramic Powder [Manufactured by Hwaseong Industrial Mining Co., Ltd.] 10

[PVC base manufacturing process]

PVC sol compound was applied to the release paper with a thickness of 0.4 mm, and heated to a temperature of 155 ℃ to prepare a soft film. Thereafter, the resultant was foamed in an oven at a temperature of 215 ° C, a two-component polyurethane adhesive was applied thereon, and then dried in an oven at a temperature of 90 ° C to volatilize the solvent. Thereafter, the bubble paper was laminated and the release paper at the bottom was peeled off to prepare a PVC base.

[Acryl Ink Composition Manufacturing Method]

An acrylic ink composition was prepared by adding 10% by weight of ceramic powder to 90% by weight of acrylic ink.

[Pretreatment Process]

Gravure printing was performed on the PVC base by adjusting the color with an acrylic ink in a gravure printing machine. Thereafter, it was pretreated with an acrylic treatment agent and the pattern was embossed with an embossing machine.

[Post-processing process]

The embossed product was adjusted to gloss with an acrylic treatment agent and a polyurethane treatment agent to obtain artificial leather emitting far-infrared rays according to the present invention as a final product.

Figure 1 shows the results of the far infrared spectroscopy test of the artificial leather according to the present invention, it can be seen whether the far infrared radiation.

Comparative Example (Prior Process)

Sol compound was prepared by blending with a plasticizer, stabilizer, filler, foaming agent, pigment and the like based on a high degree of polymerization of PVC paste resin (PASTE RESIN). This was applied to a release paper with a certain thickness, pregelled in an oven at 190 ℃ to make a film of 0.3-0.6mm. Foaming was carried out in a foaming oven having a high temperature of 260 ° C, and a two-component polyurethane adhesive was applied onto the foaming film to volatilize the solvent component. Thereafter, bubble paper (nylon, polyester fiber, nonwoven fabric, etc.) was laminated, crosslinked in a drying oven, and release paper was peeled to make a PVC base. The prepared PVC base was color-coated and pretreated with an acrylic ink in a gravure printing machine, and the pattern was embossed in an embossing machine. Thereafter, the embossed product was adjusted again with an acryl-based and polyurethane-based treatment agent in a gravure printing machine to prepare a final artificial leather.

[Comparison of Artificial Leather by the Present Invention and Conventional Method]

As described above, the action and effect of the present invention are as follows.

The present invention is to produce artificial leather by adding a ceramic powder to a conventional paste sol compound and acrylic ink, to promote metabolism by promoting capillary expansion by the far-infrared rays radiated from the ceramic and activation of biological tissue, removal of waste, etc. Physiological phenomena of the disease occurs, the manifestation of the disease can be cured. The artificial leather according to the present invention can be used for sofas, chairs, bags, car seats, and the like, and can also be applied to electric plates and monolium.

In addition, in the method of manufacturing artificial leather, what was previously pregelled at 190 ° C. can be performed at about 150 ° C. in the present invention, and foamed at about 260 ° C. can be foamed at about 210 ° C. in the present invention. Therefore, the stiffness of the artificial leather due to the chemical deformation of the physical properties of the existing high temperature process is reduced to obtain a soft touch than the conventional artificial leather, it is also a great effect on heat loss and energy saving.

Claims (4)

PVC sol compound manufacturing process; PVC base manufacturing process in foaming machine; Acrylic ink composition manufacturing process; Pretreatment step in gravure printing machine; And a method for producing artificial leather which is a post-treatment step in a gravure printing machine, wherein the PVC sol compound is 25-30% by weight of a PVC high polymerization resin, 5-15% by weight of a PVC low polymerization resin, and a plasticizer (DOP) 35 Weight%, stabilizer (Ba-based stearate) 1.5% by weight, filler (calcium carbonate) 10% by weight, foaming agent (azo compound) 1.5% by weight, pigment 2% by weight and 5-20% by weight ceramic powder, The method of manufacturing artificial leather for emitting far-infrared rays, characterized in that the weight ratio of the PVC high polymerization resin and the PVC low polymerization resin is 30:10. The method of claim 1, wherein the manufacturing process of the PVC base in the foaming machine comprises pre-gelling at a temperature of 150-160 ° C. The method of claim 1, wherein the manufacturing process of the PVC base in the foaming machine comprises foaming at a temperature of 210-220 ° C. The method of producing artificial leather for emitting far-infrared rays according to claim 1, wherein the manufacturing process of the acrylic ink composition adds 5-20% by weight of ceramic powder to 80-95% by weight of acrylic ink.