KR20040090758A - Far-infra radiation material composited by ceramic powder of profitable microbe - Google Patents

Abstract

PURPOSE: Provided are viscous far infrared emitting liquids by using ceramic powder and liquid culture of effective microbes as far infrared sources. CONSTITUTION: The far infrared emitting liquids are produced by the following steps of: preparing a culture solution having the number of microbes more than 1.0x10¬9CFu/ml, far infrared emission and medical properties by culturing microbes such as lactic acid, bacteria, yeast, photosynthetic microbes and antinomies, in a molasses medium; mixing far infrared rays-emitting ceramic powder(clay, yellow earth, etc.) with culture solution and fermenting mixture for 3days; drying and sintering it at 900-1300deg.C; grinding sintered mixture to fine powder; and adding 10-20wt.% of far infrared rays-emitting powder to viscous liquid such as paraffin. The resultant far infrared emitting liquids are put into a bag and the bags are applied to cushion, mattress, pillow, etc.

Description

FIR-INFRA RADIATION MATERIAL COMPOSITED BY CERAMIC POWDER OF PROFITABLE MICROBE}

The present invention is an effective microorganism in which micropowders of a calcined body calcined at 900 to 1300 ° C. are heated in a viscous fluid material after kneading and drying fermented with ceramic substrates with an effective microbial culture medium such as lactic acid bacteria, yeast, photosynthetic bacteria and actinomycetes. A far infrared emitter made of ceramic powder.

Recently, in order to obtain the physiological and biologically beneficial effect of the human body by far-infrared radiation, it is expected to have far-infrared radiation effect along with the poultice effect in ocher sauna or ocher jjimbang, but it is known that ocher is not known to have high far-infrared emissivity and far-infrared radiation energy. It is difficult to expect excellent far-infrared radiation effect.

And another far-infrared radiator is using elvan which was burned by high heat in sauna. However, at high temperature, the center of radiation moves to visible light of near-infrared instead of far-infrared. It's hard to expect and, on the contrary, frequent respiratory illnesses and skin damage due to high fever occur frequently and are not immediately available when needed.

In addition, a needle-shaped hot plate having far-infrared radiation function using a thermoplastic or thermosetting resin as a support for natural mineral powders such as mica, tourmaline, elvan, volcanic stone (S Korea) containing a metal oxide having excellent far-infrared radiation or double salt thereof. It is developed for various purposes such as synthetic flooring, flooring, wall, ceiling, etc., but it is used as a solid-state and the far-infrared radiator of the fluid phase in the present invention. I could not.

The far-infrared radiant which is widely known and currently used industrially is a double salt of metal oxides, especially transition element metal oxides or dimetal oxides, and far-infrared radiant materials containing components that are loaded on biotite, elvan, s Korea (volcanic stone) and other minerals. It can be said that all of them can be used as it is, or a combination of minerals is used to form a fired body, which is then added to a support such as synthetic resin and rubber to be used as a product for various uses.

It is an object of the present invention to provide a viscous fluid far-infrared emitter in which ceramic powder made of effective microorganisms is used as a far-infrared radiant source and added to a viscous fluid material having high viscosity.

The present invention confirms that strong far-infrared radiation is emitted from a culture (metabolism) obtained by inoculating effective microorganisms (lactic acid bacteria, yeast, photosynthetic bacteria, actinomycetes) inoculated into a medium made of molasses in the process of preparing a fermented beverage containing an antioxidant. When the fermentation broth (culture medium) is used as a far-infrared radiation substance, the method is described in detail. First, the culture broth (metabolizer) obtained by sufficiently cultivating effective microorganisms is kneaded in a ceramic substrate, fermented for 3 days, dried, and the temperature is 900 to 1300. It can be said to be a viscous fluid far-infrared emitter in which 10-20 wt% of the finely divided particles are added and mixed to a viscous fluid material by calcination in the range of calcination to obtain a fired body.

Here, the effective microorganisms may include lactic acid bacteria, yeast, photosynthetic bacteria and actinomycetes. The culture medium used in the present invention is a culture medium in which enough effective microorganisms are inoculated in a medium made of molasses or other microbial food for 3 days. According to the analysis of gas chromatogulf / mass spectrometer analyzer, it is an excellent culture medium of × 10 ⁹ CFu / mL and according to the analysis table below, the components such as anticonvulsion, anti-inflammatory, anti-heat, analgesic effect, anti-inflammatory substance and migraine effect are beneficial to human It has a far-infrared radiation function of far-infrared emissivity e = 0.926 and excellent effective microorganism of 3.75 × 10 ² w / ㎡.

Ceramic material may be a ceramic material that can be kneaded because of other plasticity such as clay or clay. In addition, the viscous fluid substance is used harmless (edible) liquid paraffin (LP500, LP70).

The far-infrared emissivity of microbial ceramics produced by fermentation with microorganisms ranges from e = 0.926 to 0.93 with a firing temperature of 900 to 1300 ° C, and the emissivity of calcined bodies such as clay, clay and loess kneaded with water with low far infrared emissivity is e = The range of 0.8 ~ 0.86% and high far-infrared emissivity, the calcined bodies, tourmaline, elvan, etc., have the emissivity in the range of 0.915 ~ 0.92%, and compared with these, the far-infrared emissivity of the fired body obtained by kneading with the culture medium is much higher. Able to know.

In the past, the source of far-infrared radiation is metal oxides, double salts and minerals containing these components, and the products using them are automobile driving covers with synthetic resins, rubber, mineral hardeners, etc. In the present invention, the far-infrared radiation source is a microorganism ceramic of effective microorganism and the state of the product used is viscous far-infrared radiator, whereas ash, wall, ceiling material, thermal needle plate, and thermal radiation plate are solid products. Can be characterized at the column point.

The present invention reaches a high level of far-infrared radiators which are different from conventional far-infrared radiators, which are currently used as ceramics of effective microorganisms with far-infrared emissivity e = 0.93, and the far-infrared radiators according to the present invention are viscous. Since it is a fluid emitter with a flow rate, it can be used for product development in new fields such as cushions, bedding mattresses, pillows, bags, etc., and it can be used for the development of many new products in accordance with demand. It can be called a far infrared emitter.

Claims (1)

Effective microorganisms are cultured sufficiently in a medium made of molasses or other microbial food to obtain a culture solution of at least 1.0 × 10 ⁹ CFu / mL of the microorganisms, which are kneaded in ceramic substrates, fermented for 3 days, dried and dried in a temperature range of 900 to 1300 ° C. A far-infrared radiator made of a flowable effective microbial ceramic powder obtained by mixing calcined calcined powder with 10-20 wt% of a mixed viscous fluid.