KR20150055538A - Production technology of printing coating on quantum energy and far-infrared functional nonwoven house fused with inorganic agent - Google Patents

Abstract

The present invention relates to a printing coating manufacturing technique comprising a mixture having 40 to 60 weight% of binder, which is made of a ceramic fluorescent body mixture such as nano inorganic elvan, tourmalin, sericite, zeolite, rare-earth source, germanium, somatid, crystal, queendom energy, soil mica, silicate, mineral, five colored-soil, etc. radiating protonation energy and far-infrared radiation, 10 to 30 weight% of inorganic agent solution, 3 to 5 weight% of UV, and 3 to 5 weight% of ceramic fluorescent substances, and a manufacturing technology for fusion laminating PP, PE, EVA solutions and films on front and rear sides of a cotton material and a felt which are printing-coated with T-dies and lamination drying technologies. The protonation energy penetrates a wavelength range of near-infrared radiation of 300 nm to 750 nm necessary for a plant growth as an far-infrared radiation emission function, and increases of a plant growth faciliating production amount as well as carrying out fungistasis of various anthracnose molds by a radiation function. Therefore, the present invention enables to be helpful in improving a harvest amount, sugar content, size, and quality of a fruit and vegetable, and to protect a plant growth by blocking a strong far-infrared radiation in summer with a low heating cost as a warmth material of 2°C in winter. Since durability is light and tough, the present invention enables to minimize damage of an agricultural product by corresponding to a weather change due to typhoon, hail, and heavy snow.

Description

Printed Coating Technology for Quantum Energy and Far Infrared Functional Nonwoven House Fused with Inorganic Material {omitted}

TECHNICAL FIELD The present invention relates to a technique for printing and coating a cotton fabric or a polyethylene nonwoven fabric using nano-mineral inorganic agents that generate quantum energy and far-infrared rays, and cotton and polyethylene PP. PE It is the manufacturing technology of making the tie die and the laminate dry by melting the PE, PP, EVA film and solution on the front and back side of the nonwoven fabric.

Nanoinorganic agents that generate far infrared rays and nanoinorganic minerals that generate quantum energy include natural minerals such as elvanite, tourmaline, sericite, zeolite, rare earth, germanium, sarmatide, quadratic energy, earth mica, silicate, Wherein the printing liquid comprises a mixture of 40 to 60% by weight of a binder, 10 to 30% by weight of an inorganic agent, 3 to 5% by weight of UV, a ceramic PP, PU, EVA solution and film 10 microns on the front and back sides of the nonwoven fabric product, 20 to 120 gwt. Of polyethylene / polypropylene PP and PE nonwoven fabric, and 3 to 5 weight% It is a manufacturing technology of tie dies and laminated drys within ~ 80 microns. The manufactured fabrics not only retain heat by generating far infrared ray and magnetic field, The bacteriostatic the fungus in a growth-promoting antimicrobial deodorizing plant for improving the productivity is a great help.

Generally, it has been used as vinyl house wrapping paper for long time to produce plant cultivation, fruit trees, and many other crops. However, it is weak in cold weather and warmth, and weak in durability. However, in the present invention, the non-woven fabric is coated with a ceramic that generates a far-infrared ray and a magnetic field, and PE, PP, and EVA tie dies and laminated dry are performed on the entire back surface In winter, it enhances heat insulation. It protects the plants by protecting the plants by protecting against the strong ultraviolet rays in the summer due to its light-emitting ability. It has light and durable durability. Mineral Ceramic contains magnetic field and far infrared ray emissivity 300nm ~ 750nm Plant has blue light, red light, It transmits the wavelength band of red light, It is a nano material fusion technology that helps to increase fruit and vegetable production and reduce heating cost by bacterium bacterium of anthracnose plant of plant with the facilitation, antibacterial and deodorizing function.

The present invention relates to a natural mineral such as quartz, tourmaline, sericite, zeolite, rare earth, germanium, zeolite, quartz, quartz, energy, earth mica, silicate, A printing fluid made of a mixture of phosphors is printed and coated on a nonwoven PP or PE cotton fabric or the like, and a manufacturing technique in which a PP, a PE, and an EVA solution and a film are fused and adhered to the front and back surfaces of a printed coated nonwoven fabric.

In order to carry out the present invention, it is preferable that 40 to 60% by weight of a binder, 10 to 30% by weight of an inorganic material, 3 to 5% by weight of UV and 3 to 5% by weight of a ceramic fluorescent substance are contained in a knitted fabric such as a cotton fabric synthetic fiber polyethylene PP or PE non- A manufacturing technique for preparing a mixture printing liquid and a printing coating manufacturing technique.

In addition, it is also possible to produce a printing coated fabric with 20 to 120 g of nonwoven fabric and 20 to 80 microns of EVA, PE, PP, PU, PET film and 20 to 80 microns of PE, EVA, PP, A tie die and a laminate die.

Far infrared and quantum energy functional nonwovens house is produced by printing and coating mineral inorganic nanoceramic material which generates far infrared ray and magnetic field on the material composed of cotton, synthetic fiber PP, PE long fiber, PE, PP and EVA on the front and rear sides, It is light and durable because it does not need extra shielding film and it is suitable for protecting the plant. It is strong in durability. It is damaged by crop damage caused by typhoon, hail and heavy snow. Can be minimized and it can transmit the wavelength range of 300nm ~ 750nm required for plant photosynthesis due to magnetic field energy and far-infrared radiation flux containing mineral inorganic nano ceramics, thereby enhancing plant growth and production, increasing antimicrobial function and deodorizing function, Bacteria are bacteriostatically killed in fruit and vegetable house farms A manufacturing technology that is of great help in increasing the productivity.

The present invention will now be described in detail with reference to the accompanying drawings. In the printing coating and the PE, PP, EVA, LLD film and solution coating adhesion method on the nonwoven fabric synthetic fiber according to the present invention

1. (1) In the following, the present invention is described in (1-1). (Front and back) before printing coated on PE nonwoven fabric.

2. The drawing (1-2) shows the front side of the used nonwoven fabric.

3. Drawings (1-3) show the back side of commercial nonwoven fabric.

4. Figures (1-4) show PE, PE, EVA film and solution on the front side of the nonwoven fabric.

5. In the figure (1-5), 10 to 30% by weight of the non-woven fabric backside nano-inorganic agent, 40 to 60% by weight of the binder, 3 to 5% by weight of UV and 3 to 5% by weight of the ceramic phosphor are printing coated surfaces

6. Figures (1-6) show PE, PP, EVA, PU film and solution on the back side of the nonwoven fabric.

Milestone

(2) Inorganic printing coatings

Milestone

(3) PE, PP, EVA film and solution Tie die and Lamy dry

Milestone

(4) PE, PP, EVA film and solution Tie Dye and Lamy Dry

Claims (2)

The name is a quantum energy fused with inorganic materials and a printing coating on a far-infrared functional non-woven house. It is a manufacturing technology. Inventive material Cotton fabrics Synthetic fibers Selected nonwoven fabric made of two or more fibers of five kinds of PP and PE long- Including PE, PP, EVA, PET, and PU films on the front and back sides of selected materials of weight g and above materials. Includes manufacturing and processing technology of Tidewalam Dry within 20 microns to 80 microns of solution thickness. The raw material application method according to claim 1 is manufactured by a printing coating method and the production of a printing coating liquid is used as a nano inorganic mineral such as elvan, tourmaline, sericite, zeolite, rare earth, germanium, somatide, quartz energy, earth mica, silicate , Minerals, and bleached hemp, and includes a technique of transmitting ultraviolet light through ceramics phosphor to transmit red light, blue light, and red light of wavelength band. Other agricultural and livestock packing materials include do.

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