KR20020072690A - Far infrared radiating paint and method for manufacturing the same - Google Patents

Abstract

PURPOSE: Provided are far infrared ray radiating paint which is characterized by promoting the circulation of blood, having remedial value of neuralgia, arthralgia and lumbago, preventing allergy, interrupting electromagnetic waves and a water vein and being possible to remove toxin of human body because of having detergency and separative power, and a manufacturing method thereof. CONSTITUTION: The far infrared ray radiating paint is comprised of 0.9-1.1kg of a silicone solution, 350-450g of ceramic powder, 25-35g of pigment, 5-15g of stiffening agent and 25-35g of curing agent. The far infrared ray radiating paint is obtained by a process containing the steps of: diluting and mixing 350-450g of the ceramic powder and 25-35g of the pigment with 0.9-1.1kg of the silicone solution; putting the diluted solution into a refrigerator for about 20-30minutes to cool and to mix equally; pulling out the diluted solution from the refrigerator, followed by diluting and mixing 5-15g of the stiffening agent and 25-35g of the curing agent; and then keeping the mixed paint in a dark cold space for about 15-25minutes to cool.

Description

Far infrared radiating paint and method for manufacturing the same

The present invention relates to a far-infrared radiation coating material and a method for manufacturing the same, and more particularly, to manufacture a far-infrared radiation coating material by diluting a silicone solution, a ceramic powder, a pigment, an adhesion enhancer, and a curing agent in a predetermined weight ratio, and the garment lining It is invented to be able to apply the far-infrared radiation coating material on one surface of the fiber fabric to be used as.

In other words, the coating material itself is formed of a material that emits far-infrared radiation, which can be applied to the clothing lining, so that the blood circulation of the human body is promoted by the far-infrared radiation generated from the far-infrared radiation coating material when the clothing coated with the coating material is worn. It is possible to obtain treatment effects such as neuralgia, joint pain and low back pain, and to prevent the occurrence of allergic skin diseases, block electromagnetic waves and water vein, and to remove poison from human body It may be removed, and the invention is invented to prevent the sliding between the clothing and the garment and between the garment and the human body to strengthen the friction.

In general, various textile papers used as textile fabrics are fabric processed using yarn, spinning, twisted yarn, etc., and most of the textile papers used in the manufacture of various garments are mechanical, durable, hygienic, and decorative. And sensory performance.

However, such a fabric is not only to maintain the beauty through coloring and various designs, there is a problem such as allergic skin diseases caused by static electricity, and also can not block the electromagnetic waves and water veins, and thus prevent damage There are problems such as not being able to.

On the other hand, in the case of the lining used in the tops or pants, the situation is mostly using a relatively soft fabric itself, in recent years, some clothing manufacturers to prevent the slipping between the clothing and clothing and between the clothing and the human body. It was applied using a silicone as a coating material to the lining of the waist, but this also has the disadvantage that can not solve the above-described problem itself.

The present invention has been made in order to solve the above problems, by manufacturing the coating material itself to be applied to the fabric fabric to be used as the lining of clothing in the form of the far infrared radiation, the fabric fabric coated with this coating material is used as the lining Wearing clothing promotes the blood circulation of the human body, thereby providing therapeutic effects such as neuralgia, arthralgia and back pain, preventing the occurrence of allergic skin diseases, and also blocking electromagnetic waves and veins, and purifying and degrading power. The purpose of the present invention is to provide a far-infrared radiation coating material and a manufacturing method that can remove the poison present in the human body through generation, and can also prevent slippage between clothing and clothing and between clothing and the human body.

An object of the present invention described above, in the coating material is applied to one surface of the fiber fabric to be used as the lining of various clothes, the coating material is diluted and mixed with a silicon solution, ceramic powder and pigment in a predetermined ratio and put in a refrigerator for a predetermined time Cool the heat generated during mixing and mix the pigment evenly at the same time, and then further dilute and mix the adhesion enhancer and the curing agent in this dilution at a predetermined ratio, and store it in a cool dark place for a predetermined time to be generated by the collision of particles during mixing. This can be achieved by using a far-infrared radiation coating material cooled by cooling the heat.

Therefore, by manufacturing the coating material itself to be applied to the fabric fabric to be used as the lining of clothing in the form of the far infrared rays are radiated, the far-infrared radiation generated from the far-infrared radiation coating material when the coating material is applied to the fabric fabric and used as lining It promotes the blood circulation of the body, can obtain the therapeutic effect of neuralgia, arthralgia and back pain, can prevent the occurrence of allergic skin diseases, and also block the electromagnetic waves and veins, the human body through the generation of purification and decomposition Toxins present in the can be removed, and the imposing effect of preventing slipping between clothing and clothing and between clothing and the human body can be obtained.

1 is a process chart for explaining the method of the present invention.

2 is a process chart for applying a coating material produced by the method of the present invention to a fiber fabric.

Hereinafter, a preferred embodiment of the present invention will be described in detail.

Figure 1 shows a process diagram for explaining the method of the present invention.

According to this, the manufacturing method of the present invention, in manufacturing a coating material that is applied to one side of the fiber fabric to be used as the lining of various garments,

Diluting the mixture with 0.9-1.1 Kg of silicon solution at 350-450 g of ceramic powder and 25-35 g of pigment;

Thereafter, adding the diluent to the refrigerator for a predetermined time (about 20-30 minutes) to cool the heat generated during mixing and to mix the pigment evenly;

Removing the diluent from the refrigerator and diluting the adhesion enhancer and the curing agent at a ratio of 5-15 g and 25-35 g, respectively;

The mixed coating material is stored in a cool dark place for a predetermined time (about 15-25 minutes) to cool the heat generated by the collision of particles during mixing.

The coating material applied to one side of the textile fabric to be used as the lining of various garments is diluted with 0.9-1.1Kg of silicone solution, 350-450g of ceramic powder, 25-35g of pigment, 5-15g of reinforcing agent and 25-35g of hardening agent. Mixing is characterized in that far infrared rays are radiated.

Referring to the effect of the far-infrared radiation coating material prepared in such a step as follows.

First, the main technical gist of the present invention is to prepare a coating material to be applied to one surface of the fiber fabric to be used for lining of various garments as a coating material in which far infrared rays are radiated.

In other words, about 0.9-1.1Kg of silicone solution to prevent elasticity and slipping, put 350-450g of ceramic powder with far-infrared radiation, and put about 25-35g of pigment to determine the color of fiber fabric. Evenly dilute the ceramic powder and pigment in the dilute silicon solution in the mixing process, and then put it in the refrigerator for about 20-30 minutes.

The reason why the diluent is put in the refrigerator for a predetermined time is because the silicone has a characteristic of solidifying at room temperature, and at the same time, it cools the heat generated by the collision of particles in the dilution process, and in particular, a pigment that acts as a dispersion catalyst. Is to be evenly distributed and diluted throughout.

After the predetermined time has elapsed in the refrigerator as described above, remove it, add 5-15 g of an adhesion enhancer and 25-35 g of a curing agent to the diluent, mix again, and store in a cool dark place for about 15-25 minutes. What is necessary is just to put into the coating material input container of a silk printer.

At this time, the reason why the adhesion enhancer and the curing agent are not added at the same time when diluting the silicone solution, the ceramic powder and the pigment is that the ceramic powder and the pigment are not evenly mixed due to the high viscosity of the adhesion enhancer and the curing agent.

In other words, a predetermined amount of adhesion enhancing agent and curing agent are added to the diluent itself, in which the ceramic powder and the pigment are evenly evenly deposited in the silicone solution, and then diluted again.

In addition, the silicon solution, the ceramic powder and the pigment in the coating solution properly diluted with a predetermined amount of the adhesion enhancer and the curing agent is diluted and then stored for about 15-25 minutes in a cool dark place is the reason of the particles during mixing This is to ensure that the heat generated by the collision is properly cooled to have an optimum viscosity in silk printing plates.

On the other hand, using the far-infrared radiation coating material described above with reference to Figure 1 the process of coating and fixing the clothing lining, that is, in a predetermined shape to the fiber fabric as follows.

First, the far-infrared radiation coating material prepared by the above method is put into the coating material input container of the silk printer, and when the coating system is operated, the fiber fabric is sent from the fiber fabric supply part to the moss pressurizing part so that the wool on the fiber fabric is thermally pressurized. It is laid down by the method.

As described above, when the fiber fabric in which the cow is laid down by the cow lying down process passes through the silk screen printing device by a predetermined width, a coating layer having a predetermined shape is automatically printed on one side of the yarn.

That is, the far-infrared radiation coating material produced by the present invention is automatically applied to one surface of the fiber fabric by a silk screen printing machine.

In this way, the fiber fabric coated with the far-infrared radiation coating material passes through a drying furnace having an exothermic temperature of approximately 250-300 ° C. with a time of about 5-7 seconds per 30 cm, and the far-infrared radiation coating material applied to one surface of the fiber fabric is automatically dried and solidified. After finishing the drying process, the fabric is wound into a roll by a winding machine and then shipped to a garment manufacturing company.

Therefore, the clothing manufacturing company can be used as a lining for clothing by appropriately cutting the fiber fabric coated with the far-infrared radiation coating material on one surface in this way.

In this case, the far infrared rays are a kind of electromagnetic waves, and all materials emit infrared rays while generating heat above the absolute temperature (-273 ° C. 0 ° C. K).

Far-infrared rays, on the other hand, are less likely to reflect or scatter particles in the atmosphere than ultraviolet rays or visible rays, so they penetrate the air well and are absorbed by the target object. It is also raised.

In addition, far infrared rays emitted from ceramic powders are known to have an effect of activating energy generating molecules due to resonance absorption phenomena caused by vibration of radiation penetrating molecules. When far infrared rays are absorbed into the human body, the physiology of cells is activated and heat energy is absorbed. There is a photoelectric effect that emits harmful substances by generating a, as well as excellent purifying and degrading ability to neutralize the toxicity, enhance the sleep effect.

Therefore, in the case of wearing clothing using the fiber fabric coated with the far-infrared radiation coating material printed in a predetermined shape, the far-infrared radiation generated from the far-infrared radiation coating material can be irradiated to the human body to promote blood circulation, such as neuralgia, arthralgia and low back pain. It can get the treatment effect, prevent the occurrence of allergic skin disease, can also block the electromagnetic waves and veins, remove the poison in the human body through the generation of purification and degrading power, clothing and clothing It is also possible to prevent the slip between the clothing and the human body.

As described above, according to the present invention, a far-infrared radiation coating material is prepared by diluting a silicone solution, a ceramic powder, a pigment, an adhesion strengthening agent, and a curing agent in a predetermined weight ratio, respectively, and applying it to one surface of a fiber fabric to be used as a garment lining. By making it possible, when the fabric fabric coated with the far-infrared radiation coating material is put on the clothing used as the lining, the blood circulation of the human body is promoted by the far-infrared radiation generated from the far-infrared radiation coating material, and the therapeutic effect such as neuralgia, arthralgia and back pain At the same time, it is possible to prevent the occurrence of allergic skin diseases, block electromagnetic waves and veins, and to remove poisons present in the human body through the generation of purification and degrading power, and between clothing and clothing. Friction between clothing and the human body to prevent slipping It can be very useful in such inventions.

Claims (2)

The coating material applied to one side of the textile fabric to be used as the lining of various garments is diluted in 0.9-1.1Kg of silicone solution, 350-450g of ceramic powder, 25-35g of pigment, 5-15g of reinforcing agent and 25-35g of hardening agent. Far-infrared radiation coating material mixed. In the manufacture of a coating material that is applied to one side of the fiber fabric to be used as the lining of various garments, Diluting the mixture with 0.9-1.1 Kg of silicon solution at 350-450 g of ceramic powder and 25-35 g of pigment; Thereafter, adding the diluent to the refrigerator for a predetermined time (about 20-30 minutes) to cool the heat generated during mixing and to mix the pigment evenly; Removing the diluent from the refrigerator and diluting the adhesion enhancer and the curing agent at a ratio of 5-15 g and 25-35 g, respectively; The mixed coating material is stored in a cool dark for a predetermined time (about 15-25 minutes) to cool the heat generated by the impact of the particles during mixing, the method of producing a far-infrared radiation coating material.