KR100492922B1 - the Method for Fabricating the Functional Complexed Resin - Google Patents

Abstract

The present invention relates to a method for producing a functional synthetic resin containing a predetermined amount of tourmaline powder of tourmaline for far-infrared radiation. The method comprises mixing 5% colorant and 20% tourmaline powder in a synthetic resin, A first step of adding and mixing an additive including a foaming agent; A second step of melting the blended components in a stirrer to form a liquid state; It is characterized by consisting of a third step of forming according to the intended use.

Description

The method for fabricating the functional complexed resin

The present invention relates to a method for producing a functional synthetic resin, and more particularly, containing a predetermined amount of tourmaline (magnet, black tourmaline, white tourmaline, rutile tourmaline, soft tourmaline, etc.) powder to apply the function of natural tourmaline to synthetic resin The present invention relates to a method for producing a functional synthetic resin having a tourmaline property.

In general, synthetic resins are oil-derived materials, and their types are diverse, and their use is also indispensable in modern society.

However, conventional synthetic resins are convenient and inexpensive to manufacture, but because they are harmful to the human body, expensive products are not provided for clothes or tableware.

On the other hand, since clothing and tableware are closely related to the human body, there are few products that satisfy the needs of consumers considering health, and thus, development of products that satisfy the needs of consumers is required. .

Accordingly, the present invention is to solve the above-mentioned problems, to meet the needs of consumers, to promote the health of the human body by radiating far infrared rays, excellent functions in antibacterial and sterilization, activation of heavy metals and cells, anion generation and especially electromagnetic shielding The purpose is to provide a method for producing a functional synthetic resin having a.

A feature of the present invention for achieving the above object is a blend of 1 to 5% by weight of a colorant harmless to the human body, 0.1 to 20% by weight tourmaline powder, 60% by weight to 98.9% by weight of a synthetic resin, comprising a defoamer A first step of adding and mixing the additives; A second step of melting the blended components in a stirrer to form a liquid state; Characterized in that it comprises a third step of molding according to the intended use.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First, the synthetic resin constituting the functional synthetic resin of the present invention ABS, V-LPE, AS, MDPE, MF, PP, PC, U-LDPE, PE, HDPE, LDPE, L-LDPE, PET, Coprene, HIPS, SAN, The material selected from V-LPE, PS, and GPPS can be used.

1 is a flow chart illustrating a method for producing a functional synthetic resin according to the present invention, comprising a component constituting the functional synthetic resin of the present invention, that is, a colorant, a tourmaline powder, a synthetic resin, and adding and mixing an additive including a defoaming agent After proceeding to step 1, a melting step of melting the blended components in a stirrer to a liquid state is carried out.

At this time, the particle size of the tourmaline powder is fine, but the finer the particle, the more the grinding cost increases, so if the above 325MESH is acceptable, the temperature varies depending on the type of synthetic resin, but 200 ℃ ~ 300 ℃ is suitable. Subsequently, a third step of molding the functional synthetic resin is performed according to the intended use. Here, the mixing ratio of the components constituting the functional synthetic resin is as follows.

The colorant is 1 to 5% by weight, the tourmaline is 0.1 to 20% by weight, the remainder is composed of a synthetic resin, and the colorant is optionally used, may be added or subtracted depending on the characteristics of the product and suitable for the test result The content ratio of 3-5 wt% was found to be the most suitable. If it is less than this, the far-infrared radiation function is weak, and the higher the content of tourmaline powder, the lower the workability, impact strength, and tensile strength. . In particular, it is convenient to manufacture a master batch (MASTER BATCH) through the first to third steps, and to use a master batch to produce a material having a content of each component as described above.

For example, when the colorant is 2% by weight and the tourmaline is 5% by weight, the blending ratio of the synthetic resin is 93% by weight.

On the other hand, in the case of patent registration or patent application related to tourmaline, if there is any overlap or similarity to the contents of this patent claim , the molding product which consists of molding resin and molding resin that emit far infrared rays of special 2001-0079289 In the resin material, melamine (Melamine-Formadehyde) overlaps, but the weight ratio of resin and tourmaline powder is more than 20% and the particle size of powder is less than 200 mesh. the more good or weak, and the particle size of the impact drawback to 200 mesh or less, when 20% or more, based on the weight of the resin extrusion and poor operability of the machine, especially an injection-binding reduction in wear and synthetic resins, for emitting far infrared rays of a specific 2000-0031317 nonwoven fabric and its production method of far infrared ceramic (tourmaline, mica stone, quartz porphyry) of 0.5 to 20 parts by weight with claim 4 mounds Although this entry is redundancy so that patent relating to the nonwoven fabric is different from the information, and applied to a general food containers suggests the claims.

For reference, the types and characteristics of tourmaline are as follows.

1) Tourmaline

Tourmaline usually has a black hexagonal pillar shape and is known as an unusual mineral that generates electricity. However, tourmaline has a variety of colors, and is divided into various types depending on the difference or color of the components. In other words, tourmaline does not refer to any one kind of mineral but is a general term for tourmaline group, and tourmaline is one of the most kinds of minerals among all minerals. In particular, beautiful colors and good transparency are used as jewelry. Tourmaline is known as the birthstone for October with the opal.

2.Type and name of tourmaline

The scientific name of tourmaline is classified according to chemical composition as shown in <Table 1>. But among gemstone markets and collectors, they are usually distinguished by their color names. For example, the pink line is called Rubellite even for the same Elite. Elite in the gemstone market is usually referred to as green line, and black tourmaline and drabyte are separate tourmaline, but black line is called black tourmaline and brown line is called drabyte. Green tourmaline, also called Brazilian emerald, is called Berdelite.

The types of tourmaline commonly used in the ore market are as follows.

Rubellite / Tourmaline-Pink to Red Watermelon

Indicolite / South Tourmaline-Blue

Schorl (Shawl) / Tourmaline-Black

Dravite-Brown Line

Achroite-Colorless System

Tourmaline (watermelon tourmaline)-pink inside and green outside

3) Tourmaline as environmental improvement material

Tourmaline ore was first extracted from Ceylon Island in 1703 and introduced to Europe. Later, it was used as a gemstone (October birthstone), and Nobel Prize-winning physicist Pierre Curie discovered that electricity is generated when pressure is applied to a tourmaline crystal. So I got the name Tourmaline. The characteristics of tourmaline as an environmental improvement material have been mainly studied in Japan, and are currently applied to various fields in Japan.

3. Various characteristics of tourmaline

A. Generation of permanent weak static electricity

a) Anode and cathode naturally occur at both ends of the crystal.

b) has a permanent electrode. -Cause of permanent weak current

Ⓐ Characteristic of weak static electricity: It affects water, air and soil.

Ⓑ Adsorption and repulsion: It has the effect of adsorbing or pushing out heavy metals.

Ⓒ Electric field formation: various effects including cell activation

Ⓓ Shielding electromagnetic waves: Shielding harmful electromagnetic waves by forming an electric field of its own

B. Effect of Electrolysis on Moisture

a) Surfactant effect: hydroxyl ions (anion generated)

b) elution action: minerals

c) water quality adjustment: weak alkalizing action

C. Electrical Energy Generation

a) When the crystal is subjected to pressure such as impact or friction, electricity is generated on the surface-Piezoelectricity (piezoelectric effect)

b) If you change the temperature of the crystal, electricity is generated even at a very small temperature difference.-Pyro electricity (Pyroelectric effect) It is said that electromotive force of 5.3V is produced with black tourmaline gemstone of 2cm square and 3.3V with gemstone gemstone. Since electromotive force generated from tourmaline ore is inversely proportional to the square of the distance between the two electrodes of the tourmaline crystal, the electromotive force reaches 1 millionV in the fine powder of 0.3 micron, which is effective for sterilization. Therefore, depending on the method of making the powder can increase the antimicrobial effect.

5.Mechanism of anion generation and its effect

Tourmaline ore has positive and negative electrodes and generates electricity because of its potential.

It is by small particles flying from space that the tourmaline gemstones do not break and continue to generate direct current static electricity. These small particles are either positively or negatively charged, with the negative ions sticking to the positive electrode of the tourmaline gemstone and transported to the negative electrode in turn, whereby an electron, which is an anion, pops up from the negative electrode side, Along the lines of electricity, it flies to the positive electrode, causing electricity to flow permanently. This current is a weak current of 0.06 mA. Whether gemstone or powder, each tourmaline crystal has a pair of electrodes (positive and negative electrodes), and the smaller the crystal powder, the higher the constant voltage. This is because the crystal constant voltage is inversely proportional to the square of the crystal size. It is said that the constant voltage of a black tourmaline crystal of 0.3 microns reaches 1 millionV, and when a tourmaline crystal comes into contact with water (including moisture in the air), discharge occurs in water instantaneously. Therefore, the surrounding water causes simple electrolysis, so that the water molecules (H2O) are separated into hydrogen ions (H +) and hydroxyl ions (OH-). At that time, the cation (H +) is neutralized by being attracted to the negative electrode of the tourmaline and bonding with the electrons emitted therefrom to become a hydrogen atom. This hydrogen atom is released to the air as hydrogen gas. In particular, in consideration of the tourmaline effect in the synthetic resin prepared in comparison with the cost of producing a fine powder, it is preferable to use a tourmaline powder having a size of 4000 mesh or more, up to 8000 mesh, wherein the content of the tourmaline powder is 3 to 5 The weight percent is appropriate in terms of cost and strength of the manufactured article, and the type and content of the tourmaline are advantageous in terms of Scholl or Dravite in natural tourmaline.

This means that the water is alkaline, and the electricity generated by the tourmaline is a weak current, so the water is weakly alkaline and reaches an endless pH of 7.5. On the other hand, the anion (OH-) combines with the surrounding water molecules to form a hydroxyl group (hydroxyl). ) Ions (H3O2-) are converted into a surface active material, and hydroxyl ions form a monomolecular film, resulting in a surface active effect.

6.The Four Major Physiological Effects of Anions

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1 is a flow chart showing a method of manufacturing a functional synthetic resin according to the present invention.

Claims (5)

delete delete delete delete 1 to 5% by weight of colorant, [Rubellite (rubellite) / tourmaline-pink to red system Watermelon Indicolite (indicollite) / south tourmaline: Blue system, Schorl (shoulder) / black tourmaline: Black system Dravite: Roit): Colorless system Tourmaline (watermelon): tourmaline powder of 0.1 to 20% by weight of natural tourmaline or artificial tourmaline selected from pink and green. Acrylonitrile-Butadiene-Styrene (ABS), Very LDPE (V-LPE), Acrylonitrile Styrene (AS), Medium Density PE (MDPE), PolyPropylene (PP), Melamine-Formadehyde (MF), Poly Carbonate (Polycarbonate) ), Coprene, U-LDPE: Ultra LDPE), PE (PolyEthylene (HDPE, LDPE, L-LDPE), PET (PolyEthylene Terephthalate), PS (PolyStyrene (GPPS, HIPS)), SAN (Styrene-AcryloNitrile), Blending a synthetic resin selected from the group consisting of V-LPE (Very LDPE), and adding and mixing an additive including a defoamer; A second step of melting the blended component in a stirrer into a liquid state; And In the manufacturing method of the functional synthetic resin comprising a third step of extruding, injection molding according to the intended use while curing in a liquid state, Through the first to third steps to produce a master batch (MASTER BATCH), using the master batch to produce a material having the content of each component as described above, The type and content of the tourmaline is a method of producing a functional synthetic resin, characterized in that 3 to 5% by weight of the shred (Schorl) or drabit (Dravite) in the natural tourmaline crushed to the size of 4000 to 8000 mesh added.