KR101649963B1 - Manufacture method of hardwood charcoal mesh latex foam - Google Patents

Abstract

The method for producing a charcoal mesh latex foam according to the present invention comprises a diluting and mixing step (S100) of finely processing a natural charcoal mesh having a carbon content of 93% by weight and a charcoal particle size of 300 mesh, and mixing the mixture with water or a liquid mixture; An adsorption mixing step (S200) of adsorbing and liquefying the charcoal mesh on the surface of the vulcanizing agent and the promoter by mixing the charcoal mesh mixed with the water or the liquid mixture, with a vulcanizing agent and an accelerator; A vulcanizing agent for enhancing and curing elasticity and extensibility in a stock solution of latex, an additive including an antioxidant, an antioxidant, and a filler for preventing oxidation of latex foam, a surfactant for controlling the particle number and particle size distribution of the latex foam (S300) in which the liquefied natural latex solution is mixed with the liquefied natural charcoal mesh additive by stirring and mixing; A foam molding step (S400) of foaming and molding the mixed charcoal mesh latex mixture with a latex molding die; (S500) of producing an end product of a charcoal mesh latex which is capable of drying the foamed and molded charcoal mesh latex and controlling the humidity of the air, odor removal, antimicrobial action, and far-infrared radiation (S500) And a manufacturing method thereof.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for manufacturing a charcoal mesh latex foam,

The present invention relates to a method for producing a charcoal mesh latex foam, and more particularly, to a method for producing a charcoal mesh latex foam by uniformly impregnating and mixing nano-particles of natural charcoal with a latex raw material to improve the cushioning function of the latex and the far infrared radiation, deodorization, The present invention relates to a method for producing a charcoal mesh latex foam having improved functionality and durability and safety of latex foam.

In general, it is a tendency to prefer western style sleeping in the home in recent years, and this can be expressed in the transition from Korean ondol culture to Western bed culture. These bed cultures include a mattress that can support the user's body and provide a comfortable bed, and a pillow that can support the head.

Such mattresses and pillows have conventionally used cotton pillows, spring mattresses, and the like, but they prefer latex foam made of rubber as a raw material due to the recent trend of improving living culture. Conventional spring mattresses and cotton pillows have a problem in that the elasticity of the cotton or spring is not released and the pressed area is not recovered. However, in the case of a mattress or a pillow formed of latex foam, And the latex mattress supports the human body in a balanced manner along the curve of the human body, so that it is possible to maintain the posture optimizing the weight burden on the specific parts of the human body such as the vertebrae and the buttocks, Prevention of neck and snoring prevention and helps to sleep.

In addition, since air cells are formed in the latex foam in the manufacturing process, they are excellent in air permeability, excellent in elasticity and stretchability, and excellent in circular restoration function.

Therefore, the use of such latexes has recently been spreading, particularly in high-grade pillows and beds. Such conventional latexes can be classified into natural latex and synthetic latex. Natural latex is manufactured by using natural rubber latex. Synthetic latex is prepared by using synthetic rubber. Usually synthetic rubber is mixed with natural rubber in a certain amount .

Among these natural latexes and synthetic latexes, natural latexes have better tensile strength, gel strength and elasticity than synthetic latexes. However, raw materials are expensive, mass production is difficult, and purchasing is not easy. Synthetic latex, on the other hand, is generally used because it is similar in properties to natural latex but is cheap and easy to obtain.

In recent years, there has been a growing interest in health, and mattresses and pillows in which latex has been coated with charcoal, silver, jade, various functional materials and far-infrared radiation materials on bedding have been disclosed. However, The effect is insignificant, and there is a problem that the material applied on the outside is stained on use, or the pillow cover or the mattress cover is covered on the latex surface and is contaminated.

Further, when the user applies a mattress or a pillow, the applied material is deformed with the latex due to the elastic deformation of the latex, so that the function of the latex can not be properly performed. In order to solve this problem, if the applied layer is thickened, the advantages of the latex due to the deterioration of the elasticity of the latex can not be attained by the balanced elastic deformation itself due to the bending of the human body, .

Korean Registration Practice No. 20-0443658, February 26, 2009. Korean Registration Practice No. 20-0270728, Mar. 22, 2002.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a cosmetic composition which is useful for the human body through the midnight effect of air, moisture control, odor removal, antibacterial action, By forming the charcoal with excellent effect on the improvement of the nano particle size, it is possible to perform homogeneous foam molding according to the latex foam, and the excellent charcoal mesh having added the function of the air, the humidity control, the odor removal and the antibacterial action, It is an object of the present invention to provide a method for producing a latex foam.

Also, according to the present invention, when the latex foam is foamed and formed, the charcoal particles do not come out to the outside due to the fact that the charcoal mesh particles are evenly distributed in the foaming and molding of the latex foam, so that a clean and clean latex foam can be realized, durability is increased, The present invention also provides a method for producing a charcoal mesh latex foam which can maintain the elasticity of the foam.

In order to accomplish the above object, the present invention provides a method for manufacturing a charcoal mesh latex foam, which comprises the steps of finely treating a charcoal mesh having a carbon content of 93% by weight and a charcoal particle size of 40 to 50 nm, A dilution mixing step (S100); An adsorption mixing step (S200) of adsorbing and liquefying the charcoal mesh on the surface of the vulcanizing agent and the promoter by mixing the charcoal mesh mixed with the water or the liquid mixture, with a vulcanizing agent and an accelerator; A vulcanizing agent for enhancing and curing elasticity and extensibility in a stock solution of latex, an additive including an antioxidant, an antioxidant, and a filler for preventing oxidation of latex foam, a surfactant for controlling the particle number and particle size distribution of the latex foam (S300) in which the liquefied natural latex solution is mixed with the liquefied natural charcoal mesh additive by stirring and mixing; A foam molding step (S400) of foaming and molding the mixed charcoal mesh latex mixture with a latex molding die; (S500) of producing the final product of the charcoal mesh latex which is capable of drying the foamed and molded charcoal mesh latex to control the air, the humidity control, the odor removal and the antibacterial action, and the far-infrared radiation.

Here, the charcoal mesh latex mixture contains 0.5-20% by weight of charcoal mesh based on 100% by weight of the stock solution mixed with 80.0% by weight of latex, 9.0% by weight of vulcanizing agent, 10.0% by weight of surfactant and 1.0% .

Further, the charcoal mesh of the liquid phase mixed with water or a liquid mixture is characterized by having a charcoal mesh solid content of 93% by weight, 30% by weight of PH, 8 to 9 of PH, and a particle size of 40 to 50 nm.

The present invention relates to a method for producing a natural charcoal which is beneficial to the human body through the midnight effect of air and the humidity control, odor removal and antibacterial action, far-infrared radiation, and has excellent effects on skin diseases such as various atopic and environmental conditions, It is capable of homogeneous foam molding due to latex foaming, and it has the function to add air purifying effect, humidity control, odor removal and antimicrobial action, far infrared ray radiation function, and to distribute evenly the charcoal mesh particles during foaming and molding of latex foam The charcoal particles do not adhere to the outside, so that a clean and clean latex foam can be realized, durability is increased, and the elasticity of the latex can be maintained.

1 is a block diagram of a method for manufacturing a charcoal mesh latex foam according to the present invention.
2 is a block diagram of another embodiment of a method for manufacturing a charcoal mesh latex foam according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention and to fully disclose the scope of the invention to a person having ordinary skill in the art to which the present invention belongs. And the present invention is only defined by the scope of the claims. Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. And, the terms used (hereafter) used herein are intended to illustrate the embodiments and are not intended to limit the invention in any way. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

Hereinafter, technical features of the method for manufacturing a charcoal mesh latex foam of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a method for producing a charcoal mesh latex foam according to the present invention, and FIG. 2 is a block diagram according to another embodiment of a method for producing a charcoal mesh latex foam according to the present invention.

As shown in FIG. 1, the method for producing a charcoal mesh latex foam according to the present invention includes a dilution mixing step S100, an adsorption mixing step S200, a stirring impregnation step S300, a foam molding step S400, S500), it is possible to control the humidity of air, odor removal and antibacterial action, and far-infrared radiation through the effect of air, and it is excellent in elastic restoring force inherent in latex, so that it can take a good sleep in response to the curve of human body, It is possible to prevent the contamination of bedding and the like, and it is possible to produce a charcoal mesh latex foam having a clean environment and excellent durability.

Here, the method for producing the charcoal mesh latex foam is produced through the above-described procedure. In the diluting and mixing step (S100), charcoal mesh having a carbon content of 93 wt% and charcoal particle size of 300 mesh And the mixture is mixed with water or a liquid mixture. As described above, the charcoal mesh has 30% by weight of charcoal mesh solids having a carbon content of 93% by weight, PH 8 to 9, a particle size of 300 mesh And the size of the powder passing through a sieve having 300 holes in a length of 2.54 cm).

In the adsorption mixing step (S200), a charcoal mesh solution of nanoparticles diluted together with water or a solution is mixed with a vulcanizing agent and an accelerator through a dilution mixing step to adsorb charcoal mesh particles on the surface of the vulcanizing agent and the accelerator, . Here, a vulcanizing agent for imparting the elasticity and durability of the latex raw solution and a promoting agent for lowering the temperature generated during vulcanization and shortening the vulcanization time are conventional ones. Polymer-based polymer bounds are used as a vulcanizing agent, MBT (Mercapto benzo thiazole), and DT (Di-toly guanidine).

In the stirring and impregnating step (S300), the latex stock solution and the charcoal mesh particles are stirred and mixed so that the function of the charcoal and the function of the latex do not occur to the outside, and the latex raw solution and the charcoal mesh particle are mixed with each other to improve elasticity and extensibility An additive including an antioxidant, an antioxidant, and a filler for preventing the oxidation of a latex foam, a surfactant for controlling the distribution of the particle size and particle size of the latex foam, The mesh additive is mixed with stirring to uniformly impregnate the charcoal mesh particles into the latex stock solution.

As a result of stirring, the charcoal mesh latex mixture was mixed with 0.5-20% by weight of charcoal mesh based on 100% by weight of the stock solution mixed with 80% by weight of latex, 9.0% by weight of vulcanizing agent, 10.0% by weight of surfactant and 1.0% When the amount of the charcoal mesh used is more than 20% by weight, the content of the charcoal mesh is high, so that the far infrared ray radiation ability is excellent, and the generation of air cells of latex is lowered. As a result, ventilation and elastic restoring force are deteriorated, When the charcoal mesh is less than 0.5% by weight, the function of the latex is excellent, but the far infrared ray emissivity of the charcoal mesh is considerably decreased.

The foam molding step (S400) is performed in the same manner as in the conventional latex foam molding. After the foaming of the mixed charcoal mesh latex mixture by using a foaming machine for producing an appropriate amount of foam, Injection molding.

In the final product production step (S500), the charcoal mesh latex formed through the molding die is dried to produce a far-infrared ray charcoal mesh latex finished product.

The charcoal mesh latex foam produced through the above process is characterized in that the charcoal having a proposome content of 93% by weight and a charcoal particle size of 300 mesh is finely processed into a nanoparticle size, mixed with a liquid mixture, and mixed with the liquid mixture The method for producing a liquefied natural charcoal according to claim 1, wherein the charcoal mesh is mixed with a vulcanizing agent and a promoter to adsorb and liquefy the charcoal mesh on the surface of the vulcanizing agent and the promoter, and adding a vulcanizing agent, a surfactant, The mesh additive is stirred and mixed for impregnation, and then the mixed charcoal mesh latex mixture is foamed, molded and dried with a latex molding die to be capable of far-infrared ray irradiation. In addition, mass production of charcoal mesh latex foam can be achieved, The radiation ability is advantageous to the human body, blood circulation and cell activation are possible, as well as breathability, To correspond to the human body curve by sex resiliency may take a good night's sleep, it is by mixing the latex with charcoal impregnated with charcoal is not possible to bury born will be clear, clean charcoal provide latex foam of the mesh to the outside is evident.

Meanwhile, as shown in FIG. 2, between the adsorption mixing step and the stirring impregnation step, a charcoal block having a carbon content of 93 wt% and a particle size of 1 to 10 mm or less is added to the liquefied charcoal mesh additive, It is also preferable to further configure step S600. As mentioned above, it is obvious that charcoal has excellent functions for antibacterial, moisture, odor removal, air self-cleansing and far-infrared radiation, so that it is possible to produce more functional latex by combining with latex in powder form. Therefore, the charcoal block as described above is injected into the charcoal mesh micro-machined with 300 mesh to mix the charcoal block and the charcoal block is exposed to the outside of the latex, so that the function can be expressed more effectively and visually expressed by the user, It is also preferable to form it so as to double the decorative property by a pattern or a pattern.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. As such, the present invention can be implemented by combining these. Accordingly, the invention is only defined by the scope of the claims set forth in the claims.

S100: Dilution mixing step S200: Adsorption mixing step
S300: stirring impregnation step S400: foaming molding step
S500: Finished product production step S600: Input mixing step

Claims (4)

delete delete delete A diluting and mixing step (S100) of finely processing a charcoal mesh having a carbon content of 93% by weight and a particle size of 300 mesh and mixing the mixture with water or a liquid mixture; An adsorption mixing step (S200) of adsorbing and liquefying the charcoal mesh on the surface of the vulcanizing agent and the promoter by mixing the charcoal mesh mixed with the water or the liquid mixture, with a vulcanizing agent and an accelerator; A vulcanizing agent for enhancing and curing elasticity and extensibility in a stock solution of latex, an additive including an antioxidant, an antioxidant, and a filler for preventing oxidation of latex foam, a surfactant for controlling the particle number and particle size distribution of the latex foam (S300) in which the natural charcoal mesh additive is mixed and impregnated into the latex stock solution mixed and injected; A foam molding step (S400) of foaming and molding the mixed charcoal mesh latex mixture with a latex molding die; (S500) of producing an end product of charcoal mesh latex, which is capable of drying the foamed and molded charcoal mesh latex and controlling the humidity of the air, odor removal and antibacterial action, and far-infrared radiation,
The charcoal mesh latex mixture contains 0.5-20% by weight of charcoal mesh additive based on 100% by weight of a stock solution mixed with 80.0% by weight of latex, 9.0% by weight of a vulcanizing agent, 10.0% by weight of a surfactant and 1.0% The charcoal mesh in the liquid phase mixed with water or a liquid mixture is 30 wt% of charcoal mesh solid having a carbon content of 93 wt%, PH 8 to 9, and particle size of 300 mesh, and between the adsorption mixing step and the stirring impregnation step (S600) in which a charcoal block having a carbon content of 93% by weight and a particle size of 1 mm or more and 10 mm or less is charged into the liquefied charcoal mesh additive (S600), thereby further comprising antibacterial, Wherein the natural charcoal block is exposed to the outside of the latex so as to increase the atmospheric air and far-infrared radiation.

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