KR101132354B1 - Method of coating fabric comprising ultra fine fiber or leather with natural stone and ultra fine fiber or leather with natural stone which produced by this method - Google Patents

Abstract

The present invention The present invention relates to a method of coating a natural ore material on microfiber or leather and to a fabric obtained therefrom, wherein the first dilution step is performed by diluting a mixture of urethane resin, natural ore and methyl alcohol to coat the surface of the microfiber or leather. , The first coating drying step of coating the diluent formed through the first dilution step using a spray or automatic roller coating machine on the surface of the ultra-fine yarn or leather, and then dried, and the ultra-fine yarn or leather undergoing the first coating drying step The second dilution step of mixing and diluting urethane resin, natural ore material and methyl alcohol, and diluent formed through the second dilution step to spray or auto roller coater on the surface of ultrafine fabric or leather Secondary coating drying step of drying after coating by using, and the secondary coating drying step A pressurization step of pressurizing the coarse microfiber fabric or leather at a pressure of 1000 to 1200 tons for 10 to 12 seconds using a hydraulic press heated to a temperature of 120 to 130 ° C, and the surface of the microfiber fabric or leather subjected to the pressing step It characterized in that it comprises a third drying step of drying after applying the treatment agent in order to reduce the damage.
According to the present invention, by coating and drying a diluent formed by mixing a urethane resin, natural minerals and methyl alcohol on the surface of the ultra-fine yarn or leather several times, increasing the far-infrared emission, and prevents the growth of mites and fungi, Water veins have the effect of obtaining ultra-fine fibers or leather coated with natural ore materials that can block.

Description

METHOD OF COATING FABRIC COMPRISING ULTRA FINE FIBER OR LEATHER WITH NATURAL STONE AND ULTRA FINE FIBER OR LEATHER WITH NATURAL STONE WHICH PRODUCED BY THIS METHOD}

The present invention The present invention relates to a method of coating a natural ore material on a microfiber fabric or leather, and to a fabric obtained by the method. More specifically, a method of coating a natural ore material on a dry microfiber fabric or leather And it relates to a fabric obtained through this.

In general, clothing, which plays an important role as a second skin, protects the body through contact with the body and has a great effect on the human health.

As part of such efforts, efforts have been made in the textile industry to attach far-infrared or negative ion generating materials to clothing or mats in contact with the human body.

For example, by processing germanium, ganban stone, etc., which generate far-infrared rays, and mixing them with pigments and resins to use them as building materials and paints. It is mainly used as a health clothing material by odor removal and far infrared radiation.

However, in the case of underwear and socks made of a fiber fabric using the ceramic powder (germanium, ganbanite, etc.), not only the far infrared radiation efficiency is lowered, but also the ceramic component is remarkably reduced as the washing and drying is repeated, thereby reducing the far infrared ray effect. There was a problem.

In addition, even when the infrared and anion emitters are coated with the raw materials of the second processed product, even when used alone, there is a problem in that the water absorption rate and the deodorization efficiency are lowered because the deodorization or the far infrared radiation efficiency and the amount of anion generation are weak.

The present invention has been made to solve the above problems, coating and drying a diluent formed by mixing a urethane resin, natural minerals, methyl alcohol on the surface of the ultra-fine yarn or leather multiple times to increase the far-infrared emission Its purpose is to prevent the growth of mites and fungi, and to obtain microfibers or leather coated with natural ore materials that can block marrow waves.

In addition, it is an object to be used in bed mats, car seats, shoes, wallets, handbags, etc. using the ultra-fine yarn or leather coated with the natural ore material obtained as described above.

In order to achieve the above object, the first dilution step of mixing and diluting urethane resin, natural ore, methyl alcohol in order to coat the surface of the ultra-fine yarn or leather, and the diluent formed through the first dilution step The first coating drying step of coating the surface of the fabric or leather using a spray or automatic roller coating machine, followed by drying, and the urethane resin or natural ore in order to re-coat the surface of the ultrafine fabric or the leather that has undergone the first coating drying step. Second dilution step of diluting and diluting the substance and methyl alcohol, and the second coating drying step of coating the diluent formed through the second dilution step with a spray or automatic roller coater on the surface of the ultrafine fabric or leather And, the hydraulic press is heated to 120 ~ 130 ℃ temperature of the ultra-fine yarn or leather that went through the second coating drying step Pressurization step of pressing for 10 to 12 seconds at a pressure of 1000 to 1200 tons, and tertiary drying after applying the treatment agent to reduce the smoothness and surface damage to the surface of the ultra-fine yarn or the leather that passed through the pressing step Characterized in that it comprises a drying step.

According to the present invention, by coating and drying a diluent formed by mixing a urethane resin, natural minerals and methyl alcohol on the surface of the ultra-fine yarn or leather several times, increasing the far-infrared emission, and prevents the growth of mites and fungi, Water veins have the effect of obtaining ultra-fine fibers or leather coated with natural ore materials that can block.

In addition, there is an effect that can be used in bed mats, car seats, shoes, wallets, handbags, etc. using the ultra-fine yarn or leather coated with the natural ore material obtained as described above.

1 is a flow chart showing a method of coating a natural ore material on the ultra-fine fabric or leather according to the present invention.
Figure 2 is a graph showing the relationship between the emissivity and the wavelength of the natural ore according to the method for coating the natural ore material on the ultra-fine yarn or leather according to the present invention.
Figure 3 is a test report showing the far-infrared emission amount of the fabric obtained through the method of coating a natural ore material on the ultra-fine yarn or leather according to the present invention.
Figure 4 is a test report showing the antimicrobial test by Pseudomonas aeruginosa of the fabric obtained through the method of coating a natural ore material on the ultrafine fabric or leather according to the present invention.

Hereinafter, the method of coating a natural ore material on the ultra-fine yarn or leather of the present invention and the fabric obtained through the same will be described.

The method of coating a natural ore material on the ultra-fine yarn or leather of the present invention is a first dilution step (S100) and the first dilution step of mixing and diluting urethane resin, natural ore, methyl alcohol on the surface of the ultra-fine yarn or leather The first coating drying step (S200) and the first coating drying step (S200) for coating the thinner formed through the (S100) using a spray or automatic roller coating machine on the surface of the ultrafine fabric or leather, and then the ultrafine yarn having undergone the first coating drying step (S200). Spray the diluent formed through the second dilution step (S300) and the second dilution step (S300) to mix and dilute urethane resin, natural minerals and methyl alcohol on the surface of the fabric or leather to the surface of the ultrafine fabric or leather Or after the coating using an automatic roller coating machine to dry the secondary drying step (S400) and the second coating drying step (S400) to press the ultra-fine fabric or leather Pressing step (S500), the third drying step (S600) for drying the ultra-fine yarn or leather through the pressing step (S500), and the processing step for processing the ultra-fine yarn or leather through the third drying step (S600) (S700) is made.

Here, the natural ore material is formed by selecting any one of amethyst powder, jade powder, ceramic powder, elvan powder or mixed with various selected materials, the natural ore material in the present invention is an example in which amethyst powder is used It will be described with an example.

And in the method of coating a natural ore material on the ultra-fine yarn or leather reveals that the dilution step and the coating drying step may be included several times in addition to the number 2 specified.

Next, look at the method of coating a natural ore material on the ultra-fine fabric or leather one by one as follows.

First, looking at the step (S100) of forming a diluent for the first dilution on the surface of the ultrafine fabric or leather, the diluent is first formed by mixing a urethane resin, natural minerals, methyl alcohol. (S100)

Here, the weight percent of the urethane resin, natural ore, methyl alcohol constituting the diluent is composed of 15 to 20% by weight of the urethane resin, 15 to 20% by weight of natural ore, 65 to 70% by weight of methyl alcohol.

To further explain this, if the content of the urethane resin is less than 15% by weight, the function of the urethane resin is lowered, if the content of the urethane resin is more than 20% by weight, the solid content is high, the diluent on the surface of the ultra-fine fabric or leather during work There was a problem that cannot be applied.

And when the content of the natural mineral mineral is less than 15% by weight, the function of the natural mineral mineral applied to the surface of the ultra-fine fiber or leather is inferior, and when the content of the natural mineral mineral is more than 20% by weight, the diluent and the natural mineral mineral is well fused. There was a difficulty in working.

Next, the first coating drying step (S200) to dry after coating the surface of the ultra-fine fiberglass or leather passed through the first dilution step (S100) to the surface of the ultra-fine fiberglass or leather using a spray or an automatic roller coating machine The diluent will be coated.

At this time, the ultra-fine yarn or leather is dried for about 1 to 2 hours at a temperature of 60 ~ 80 ℃.

And looking at the step (S300) of forming a diluent for the second dilution on the surface of the ultra-fine yarn or leather after the first coating drying step (S200), the diluent by mixing a urethane resin, natural minerals, methyl alcohol Form. (S300)

Here, the weight percent of the urethane resin, amethyst powder and methyl alcohol constituting the diluent is composed of 15 to 20% by weight of the urethane resin, 15 to 20% by weight of the amethyst powder, 65 to 70% by weight of methyl alcohol.

To further explain this, if the content of the urethane resin is less than 15% by weight, the function of the urethane resin is lowered, if the content of the urethane resin is more than 20% by weight, the solid content is high, the diluent on the surface of the ultra-fine fabric or leather during work There was a problem that cannot be applied.

And when the content of the natural mineral mineral is less than 15% by weight, the function of the natural mineral mineral applied to the surface of the ultra-fine fiber or leather is inferior, and when the content of the natural mineral mineral is more than 20% by weight, the diluent and the natural mineral mineral is well fused. There was a difficulty in working.

Next, the second coating drying step (S400) to dry after coating the surface of the ultra-fine fiber or leather passed through the second dilution step (S300) (S400) using a spray or an automatic roller coating machine of the ultra-fine fabric or leather The diluent is coated on the surface.

At this time, the ultra-fine yarn or leather is dried for about 1 to 2 hours at a temperature of 60 ~ 80 ℃.

Next, the pressing step (S500) for pressurizing the ultra-fine yarn or leather passed through the secondary coating drying step (S400) is a surface of the ultra-fine yarn or leather using a hydraulic press heated to 120 ~ 130 ℃ temperature 1000 ~ 1200 It is pressurized for about 10 to 12 seconds with the pressure of tons.

That is, the pressing step (S500) is to place the natural ore and amethyst powder evenly on the surface of the ultrafine fabric or leather, eliminating the properties of the residual material, and to form a desired pattern on the ultrafine fabric or leather surface.

The tertiary drying step (S600) of drying the ultrafine yarn or leather passed through the pressing step (S500) is to apply a treatment agent to the surface of the ultrafine yarn or leather and then to dry it.

That is, the third drying step (S600) is to dry the ultra-fine yarn or leather for about 1 hour at a temperature of 60 ~ 80 ℃ after the treatment agent is applied to reduce the smoothness and surface damage to the surface of the ultra-fine yarn or leather.

The processing step (S700) for processing the ultra-fine yarn or leather that passed through the third drying step (S600) is to remove the residual material of the ultra-fine yarn or leather by processing about 2 to 3 hours using the milling prime of the ultra-fine yarn or leather. It is to make the material smooth and even.

Hereinafter, an embodiment of the ultrafine fabric or leather obtained by coating a natural ore material on the ultrafine fabric or leather will be described.

First, to form a primary diluent by mixing 15 to 20% by weight of urethane resin, 15 to 20% by weight of natural minerals, 65 to 70% by weight of methyl alcohol, and then using a spray on the surface of the ultrafine fabric or leather After coating, the ultra-fine yarn or leather is firstly dried for about 1 to 2 hours at a temperature of 60 ~ 80 ℃.

And after mixing 15 to 20% by weight of the urethane resin, 15 to 20% by weight of natural minerals, 65 to 70% by weight of methyl alcohol to form a secondary diluent, the surface of the ultra-fine yarn or leather after the first coating drying After coating the second diluent using a spray, the ultrafine fabric or leather is secondarily dried for about 1 to 2 hours at a temperature of 60 ~ 80 ℃.

Next, press the surface of the ultra-fine fiberglass or leather after finishing the second coating using a hydraulic press heated to 120-130 ° C. for 10 to 12 seconds at a pressure of 1000-1200 tons, and then press After the treatment agent is applied to the surface, the ultra-fine fiber or leather is thirdly dried for about 1 hour at a temperature of 60 ~ 80 ℃.

Then, the microfiber fabric or leather is processed in a milling state for 2 to 3 hours to complete the ultrafine fabric or leather coated with natural ore material and amethyst powder.

Next, the ultrafine fabric or leather coated with the natural ore material was able to obtain the test results as shown in FIGS.

In other words, by releasing the far-infrared rays generated from the natural ore and amethyst powder to eliminate bacteria that cause various diseases, and to expand the capillaries to help blood circulation and cell tissues, as well as to prevent the growth of ticks and fungi, Could get the effect of blocking.

In addition, the ultrafine fabric or leather coated with the natural ore material is activated by stimulating the cellular tissues by shaking the cells 2,000 times a minute when it touches the moisture and protein molecules constituting the cells through the emission of far infrared rays to prevent aging and metabolism. Not only can it be effective in preventing various diseases such as palpation and chronic fatigue, but it can also disrupt the human brain wave and electromagnetic system, lower immune hormone function, and block water wave causing disharmony of biological rhythm.

Next, ultrafine fabrics or leather coated with natural ore materials that play the same role are used in various fields such as bed mats, car seats, shoes, purses, and handbags.

In the above description with reference to the accompanying drawings, a method of coating a natural ore material on the ultra-fine yarn or leather of the present invention and the ultra-fine yarn and leather obtained by the present invention was described with a particular shape and direction, but the present invention has been made by those skilled in the art Modifications and variations are possible and should be construed as being included in the scope of the present invention.

S100: first dilution step,
S200: first coating drying step,
S300: second dilution step,
S400: 2nd coating drying step
S500: pressurization step,
S600: 3rd drying step.

Claims (7)

First dilution step (S100) of mixing and diluting urethane resin, natural ore and methyl alcohol to coat the surface of ultra-fine yarn or leather,
A first coating drying step (S200) of coating a diluent formed through the first dilution step (S100) using a spray or an automatic roller coater on the surface of the ultrafine fabric or leather, and then drying it;
A second dilution step (S300) of mixing and diluting a urethane resin, a natural ore substance, and a methyl alcohol in order to re-coat the surface of the ultra-fine yarn or the leather which has undergone the first coating drying step (S200),
A second coating drying step (S400) of coating a diluent formed through the second dilution step (S300) using a spray or an automatic roller coater on the surface of the ultrafine fabric or leather, and then drying it;
Pressurizing step (S500) of pressurizing the ultra-microfiber fabric or leather passed through the secondary coating drying step (S400) at a pressure of 1000 to 1200 tons using a hydraulic press heated to a temperature of 120 to 130 ° C.,
The ultra-fine yarn or leather characterized in that it comprises a tertiary drying step (S600) after applying the treatment agent to reduce the smoothness and surface damage to the surface of the ultra-fine yarn or leather through the pressing step (S500) How to coat natural ore on the surface.
The method according to claim 1,
Method of coating a natural ore material on the ultra-fine yarn or leather, characterized in that it further comprises a processing step (S700) of processing the ultra-fine yarn or leather through the third drying step (S600) at a milling position for 2 to 3 hours. .
The method according to claim 1,
In the first or second dilution step, the weight percent of the urethane resin, natural ore, and methyl alcohol constituting the diluent for diluting the ultrafine fabric or leather is 15 to 20% by weight of the urethane resin, 15 to 20% by weight of the natural ore %, Methyl alcohol 65 to 70% by weight of the method of coating a natural ore material on the ultrafine fabric or leather characterized in that made of.
The method according to claim 1,
In the first coating drying step (S200), the second coating drying step (S400), and the third drying step (S600), the ultrafine fabric or leather is characterized in that it is dried for 1 to 2 hours at a temperature of 60 ~ 80 ℃. How to coat natural ore materials on the ultra-fine yarn or leather.
The method according to claim 1,
The natural ore material is formed by selecting one of amethyst powder, jade powder, ceramic powder, elvan powder or by mixing various selected materials to coat the natural ore material on the ultrafine fabric or leather. Way.
Fabric coated with natural ore material, characterized in that prepared according to any one of claims 1 to 5.
The method of claim 6,
The ultrafine yarn or leather coated with the natural ore material is a natural ore coated fabric, characterized in that formed by any one of a bed mat, car seat, shoes, purse, handbag.

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