KR20000054643A - Building material to put together a wooden floor boards that to use the infrared rays radiation adhesion include jade and charcoal powder and the method - Google Patents

Abstract

PURPOSE: A floor board using cohesive which radiates far-infrared rays and contains jade powder and charcoal powder provides dampproofing, deodorize, and anti-bacteria effects in indoor, and promotes metabolism, and helps to put out waste matter in body by building as a floor board. CONSTITUTION: A floor board using cohesive which radiates far-infrared rays and contains jade powder and charcoal powder is prepared by smashing charcoal and jade into particles of 400-600mesh; mixing the powder of smashed charcoal and jade with an aqueous cohesive; spreading the prepared cohesive between several thin wood boards, putting together, and finally spreading a wood board having patterns on the prepared layers with the cohesive.

Description

Building material to put together a wooden floor boards that to use the infrared rays radiation adhesion include jade and charcoal powder and the method }

The present invention relates to a building prefabricated floorboard material and a method of manufacturing the same, in particular, when manufacturing a floorboard with a laminated wood bonded to a plurality of boards, jade powder or charcoal which is a weight part of a predetermined ratio to an adhesive for bonding each board member After mixing the powder and the like between each plate to apply and adhere to the far-infrared radiation adhesive containing jade powder and charcoal powder to obtain the benefits of far-infrared radiation efficiency, deodorization, antibacterial, moisture removal, etc. beneficial to the human body. It relates to a building prefabricated floorboard material manufactured by using the same and a method of manufacturing the same.

In general, prefabricated floor boards for building are manufactured using wood that can form various natural patterns and are easy to process, and it is well known that interior floors are constructed by assembly processing at the assembly site. The bottom plate is easily contracted or distorted due to climate and temperature changes, causing cracks in the bottom plate itself. In recent years, in manufacturing a floor plate, each plate is provided with a plurality of thin thin plates. It is a situation that the construction using a flooring material, such as plywood, MDF, HDF and the like applied by pressing a press or by applying a high-frequency heating in between adhesives.

On the other hand, modern man is living in a residential environment that is a concrete structure, and is gradually weakening due to isolation from nature due to concrete barriers, deterioration of human body's immunity due to inhabitants and easy infection by various modern diseases. Results of the study have been reported.

Accordingly, the present invention has been made to solve the above problems, far-infrared by mixing jade or charcoal powder, etc. in a building flooring material in a certain weight ratio, and mixing the mixed powder and the resin adhesive in such a weight ratio having an appropriate ratio. In the manufacture of floorboards, a radiation adhesive is applied between each thin plate, or the far-infrared radiation adhesive is applied to the upper surface of the wood board at the top several times to form a far-infrared radiation layer having a predetermined thickness, thereby providing a building prefabricated floorboard which is bonded. The present invention is to provide a beneficial living environment to the human body, to remove odors, deodorization, moisture, etc. in the room and to decompose toxic substances remaining in the human body by far-infrared radiation from charcoal or jade to prevent modern diseases in advance. Has a fundamental purpose.

The present invention for achieving the above object,

Charcoal powder and jade powder manufacturing process (S1) for pulverizing the charcoal powder or jade powder to the size of about 600 mesh (MESH),

Far-infrared radiation adhesive mixture manufacturing step of mixing the charcoal powder or jade powder prepared from the charcoal powder and jade powder manufacturing step (S1) to the water-soluble adhesive solution to have a weight ratio of an appropriate ratio (S2),

A water-soluble adhesive 11 'is applied and adhered between the plurality of wood boards 12, and the far-infrared radiation adhesive 11' containing the charcoal powder or jade powder is applied to the top wood board top surface several times to obtain a predetermined thickness. After the far-infrared radiation layer 11 is formed, the floorboard material manufacturing process (S3) is performed by adhering the pattern wood board material 13, which will be described in more detail with reference to the accompanying drawings.

1 is a process chart showing the working process of the present invention,

2 is a partial, partial cutaway perspective view of the present invention;

Figure 3a, b is an enlarged cross-sectional view of the prefabricated floorboard to which the present invention is adopted,

Figure 4 is an enlarged cross-sectional view of the prefabricated floorboard material having a far-infrared radiation coating layer on the top veneer surface layer,

5 is a bottom perspective view showing an embodiment in which a jade body is inserted into the bottom of the present invention;

6 is a cross-sectional view of FIG. 5.

7 is a bottom perspective view showing a state in which a recess is formed in a bottom portion of a floorboard in a horizontal, vertical, or radial shape, and a far-infrared radiation layer is recessed in the recess.

※ Brief description of the main symbols in the drawings

S1: Charcoal powder and jade powder manufacturing process, S2: Far infrared ray radiation adhesive mixing process

S3: floorboard manufacturing process

10: floorboard material 11: far infrared radiation layer 11 ': adhesive layer

12: wood board material 13: pattern wood board material 14: far infrared radiation coating layer

15: insertion groove 16: protrusion 20: artificial jade body

21: receiving groove 30: concave groove

Prior to describing the embodiments of the present invention, it will be briefly described the components of jade (char) and charcoal applied to the present invention and its known efficacy.

In the rapidly evolving and changing society, many mental and physical stresses are overwhelming to the modern people due to the infinite competition for survival, and jade (玉) has been sought as a way to solve these stresses and fluid fatigues. Or ore (鑛石) useful to the human body (鑛石) is a lot of research and experiments are currently in progress. In addition, as one of the effects of the results obtained through various studies, it has been found that useful rays such as small to large amounts of far infrared rays are emitted depending on the ore.

Since ancient times, jade is one of the ores that have been brought to this day as a rare treasure with mysterious effects. The health and health effects of jade are described in detail in Dangboncho, Xintongboncho, and Xincho River, which are the representative Chinese intentions written with their useful effects. In addition, it can be seen that it can be used as an ingredient of herbal medicine in the intention letter such as Dongbogam (東 醫 寶 鑑) of Korea.

In addition, jade has a structure of finely linked rings with irregular structures, and is harder than other minerals. The jade is composed mainly of calcium and magnesium silicates (quartz and silicate), and its color varies depending on the amount of iron contained. It is known to have a variety of colors such as green, yellow, pearl red, and it contains a large amount of trace elements that are beneficial to the human body. When the brightness of jade is fine, it is warm in winter and emits a large amount of far-infrared rays in the summer. Known.

And as found in modern medicine, finely powdered jade (玉) to take advantage of the body's Gi (氣) and blood circulation to help stabilize nerves and blood pressure, muscle growth, swelling reduction, digestive diseases endocrine diseases It is known to be effective in preventing adult diseases, relieving stress, and helping to recover from fatigue, and promptly discharging wastes and harmful accumulations in the body to the outside of the body.

On the other hand, as described above, far-infrared rays, which are one of the rays useful for the human body among the rays naturally emitted from jade or ore, refer to light having a wavelength of about 5 to 1000 µm among the wavelengths of light, It is characterized by excellent heating performance. In all materials, small to large wavelengths of infrared rays are emitted, but in particular, alumina (Al₂O₃), silica (SiO₂), zirconia (ZrO₂), iron oxide (Fe₂O₃), silicon carbide (SiC), Inorganic materials such as mullite, titanium oxide, calcium oxide, magnesium oxide, sodium oxide and potassium oxide have been found to emit a large amount of light in the far infrared region.

Meanwhile, the far infrared rays are classified into visible rays and invisible invisible rays that are identifiable in sunlight, and infrared rays, which are a kind of invisible rays, are rays which are beneficial to the human body, which are classified into near infrared rays, mid infrared rays, and far infrared rays. This far-infrared ray is a very long light with a wavelength between 2.5 and 1000 µm, and a wavelength between 5.6 and 15 µm is the far-infrared wavelength band in the region which is most beneficial to our lives.

Therefore, far-infrared rays (aka, growth rays) are excellent in penetrating ability to living organisms, and when irradiated to human body, absorption of far-infrared rays facilitates blood vessel expansion, blood circulation and metabolism of subcutaneous fat layer, so that the body's mental and physical fatigue recovery is quick and various. It helps to prevent and cure diseases, and of course, it quickly discharges various wastes and heavy metals harmful to the human body, and has various effects such as drying, thawing, sterilization, warming and ripening, soft water, freshness, and purification. It also has the effect of removing bad smell.

Therefore, the material that emits a large amount of far infrared rays includes artificial materials artificially synthesized with jade, ore, etc. taken from nature, and a mixture of natural minerals and artificial substances, and such natural minerals. And various compositions to achieve the desired purpose and effect by using artificial and mixed materials. Industrial, food processing, cooking supplies, heating supplies, medical and health equipment or auxiliary products, bedding, furniture, clothing, household appliances, sports Actively applied to mechanisms and various personal goods, the efficacy of far-infrared rays is properly utilized in combination with real life.

In addition, charcoal can create an indoor environment that is beneficial to the human body, such as moisture and insect repellent, which is the effect of charcoal. It is called carbon charcoal, and it is obtained by carbonizing pine trees at 500 ℃ and refining at 800 ℃ for natural digestion. Carbonized at 300 ℃, refined at a temperature of 1000 ℃ or more and rapidly extinguished, the specific gravity is 1.1 ~ 1.4, it is composed of 80% carbon component, 5-10% volatile content.

Since charcoal is a porous tissue with fine pores, it has been used not only for moisture proofing but also for purifying various water resources and air. In recent years, research results have been reported that far infrared rays and anions generated from charcoal block harmful elements such as insects and sterilization as well as waves transmitted from veins and electromagnetic waves generated from various electronic products.

In other words, jade and charcoal radiate far-infrared rays to decompose toxic substances in the human body, as well as odor, deodorization, and moisture-proofing of the indoor space.

First Embodiment

Therefore, the present invention is to manufacture and provide a prefabricated floor boards for building by powdering jade and char having such an effect.

1 is a process diagram showing the working process of the present invention, Figure 2 is a partial, partial cutaway perspective view of the present invention, Figures 3a, b is an enlarged cross-sectional view of a prefabricated floorboard to which the present invention is adopted, Figure 4 An enlarged cross-sectional view of a prefabricated floorboard material having a far-infrared radiation coating layer on an upper veneer surface layer, FIG. 5 is a bottom perspective view showing an embodiment in which a jade body is inserted into a bottom portion of the present invention, and FIG. 6 is a cross-sectional view of FIG. This will be explained for each process.

(Charcoal and jade powder manufacturing process-S1)

First, the solidified charcoal produced by carbonizing wood to produce charcoal powder is finely pulverized and milled to have a particle size of about 400 to 600 mesh using a separate grinding device. Get charcoal powder.

Meanwhile, in order to manufacture the jade powder, the jade is collected from natural ore, and then pulverized through a separate crushing device to have a particle size of about 400 to 600 mesh (mesh) similar to the charcoal powder, and milling operation. You get

(Far Infrared Radiation Adhesive Mixture Manufacturing Process-S2)

Charcoal powder obtained by the charcoal powder and jade powder manufacturing process and a powder of any one of the jade powder and a water-soluble adhesive liquid to prepare a far-infrared radiation adhesive, char or jade powder alone mixed with the water-soluble adhesive liquid In addition, a far-infrared radiation adhesive can be prepared, and a far-infrared radiation adhesive can be obtained by mixing a mixture of charcoal powder and jade powder in a constant ratio with the water-soluble adhesive liquid in a predetermined weight ratio.

For example, when mixing charcoal or jade powder alone with a water-soluble adhesive liquid, the infrared ray radiation may be mixed by mixing charcoal or jade powder in a weight ratio of about 15 to 25% and water-soluble adhesive in a weight ratio of about 75 to 85%. When adhesives are obtained, if the weight ratio of charcoal or jade powder is less than about 15%, the inherent efficacy of the charcoal or jade powder can not be maximized. If the weight ratio of charcoal or jade powder exceeds 25%, It is most preferable to set the mixing weight ratio to about 15 to 25%, since there is a limit that the adhesive cannot fully function.

On the other hand, the far-infrared ray mixture may be obtained by mixing the charcoal and jade powder at a ratio of 50%, respectively, and then mixing the water-soluble adhesive liquid with such a far-infrared mixture.

On the other hand, in addition to the far-infrared radiation adhesive, a coating agent for coating the top layer pattern wood board material 13 surface layer of the floorboard material 10 manufactured by the floorboard material manufacturing process (S3) to be described later is surface-coated with a far-infrared radiation coating agent to provide a far-infrared radiation coating layer ( 14) can be formed, even in this case, the mixing ratio of the coating liquid and the charcoal or jade powder can be the same as the above case to obtain a far-infrared radiation coating agent.

(Floorboard manufacturing process-S3)

When the far-infrared radiation adhesive obtained by the above process is obtained, the far-infrared radiation adhesive is formed on the upper surface of the lowermost wood board member 12 in the state of having a plurality of thin wood board members 12 to form a far-infrared radiation layer. Repeatedly put another thin wood board 12 on it to obtain a floor board material 10 of a predetermined thickness by a plurality of wood board 12, and then to bind firmly and to minimize the strain Pressing by pressing or the like by high-frequency heating or the like, and repeatedly applying and curing the far-infrared radiation adhesive on the upper surface of the finally obtained floorboard material 10 repeatedly performs a far-infrared radiation layer 11 of a predetermined thickness. ) Is made thicker than the other far-infrared radiation layer 11, and the thickness is formed to a certain extent, and then again after the application of the far-infrared radiation adhesive The laminated plate material attached to the neck (13).

On the other hand, in the method for manufacturing the floorboard material 10, so as to have a far-infrared radiation-adhesive layer 11 between each wood board member 12 by applying and bonding between the thin wood board member 12 using a far-infrared radiation adhesive. However, unlike the wood board 12 and the wood board 12 positioned in the middle, using a common water-soluble adhesive (11 ') to apply and adhere, and the top wood board 12 (that is, thin peeled veneer) This far-infrared radiation adhesive is applied only to the upper surface of the wood board 12 to be adhered through several steps, and has a far-infrared radiation layer 11 which is formed through a curing process to form a predetermined thickness. It is possible to obtain the floorboard material 10 by bonding the.

On the other hand, the far-infrared radiation coating agent by mixing the charcoal or jade powder and the coating agent at an appropriate ratio on the upper surface of the patterned wood board material 13 of the floor board material 10 formed by the above method as shown in Figure 4 It is preferable to form the radiation coating layer 14 so that not only in the far infrared radiation adhesive inside, but also from the far infrared radiation coating layer 14, which is the surface layer of the patterned wood board 13, the infrared radiation can be radiated, deodorized, antibacterial, or the like. .

On the other hand, as shown in Figure 7 in the bottom layer of the floorboard material 10 produced by the above method, such as to install a recessed groove 30 of the horizontal, vertical or radial shape and the far-infrared radiation in the recessed groove (30) The floor board member 10 may be formed by injecting, filling and curing the adhesive to have the far-infrared radiation layer 11.

On the other hand, the present invention in the manufacturing step (S3) of the floorboard material described above, as well as using the natural stone, as shown in Figs. 5 to 6 as shown in Figs. 5 to 6 using the artificial stone body 20 floorboard material (10) It is possible to manufacture a barley powder obtained by finely crushing the natural stone quarried in nature finely added silicon, ratium, boron, aluminum oxide and a harmless pigment to the human body to be added to the furnace to about 750 ~ 1950 ℃ degree The molten liquid is heated by heating at a high temperature to supply an appropriate amount to a molding mold having a set size, shape, shape, and the like, and cooled to obtain the artificial jade body 20, and the artificial floor is formed on the bottom surface of the floorboard material 10 formed by the above method. It is also possible to provide the floorboard material 10 by inserting the artificial jade body 20 by forming the jadeite body 20 receiving groove 21.

Here, the artificial jade body 20 may be a natural jade body formed by trimming and polishing the natural quarries in nature into a set shape without shredding.

In order to easily assemble the floorboard material 10 manufactured as described above on the floorboard, the floorboard is easily processed by having insertion grooves 15 and protrusions 16 at both side surfaces of the floorboard material 10, which is a common method. Allow assembly work.

Second Embodiment

On the other hand, the first embodiment of the present invention mainly described the embodiment only for building floorboards, but the furniture, such as chairs, desks, wardrobes, cabinets made of plywood, MDF, HDF, etc. is the same as the manufacturing process of the present invention Of course, the plywood, MDF, MHDF, etc. can be produced by the process, the effect will also be the same.

Therefore, according to the present invention, the flooring of the building to spend a lot of time indoors manufactured using far-infrared adhesive and far-infrared coating agent containing jade or charcoal powder having the effects of far-infrared radiation, deodorization, antibacterial, moisture-proof, etc. It is constructed by floorboard material, which is used to decompose toxic substances harmful to human body by radiation of natural far infrared rays and anions, promote metabolism, and contaminants such as various wastes and heavy metals remaining in the body are sweat and urine. It can be discharged quickly, and it can be expected to be effective in promoting growth, strengthening of the body due to stimulation of menstrual blood, and fatigue recovery by relieving stress. The effect of creating a pleasant indoor environment by allowing the action to occur naturally. Which it will be very useful inventions in modern life.

Although the present invention has been shown and described with reference to certain preferred embodiments, the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains without departing from the spirit of the present invention. Various changes and modifications may be made by the user.

Claims (6)

Charcoal powder and jade powder manufacturing process of grinding the charcoal powder or jade powder into particulate form, A process for preparing a far-infrared radiation adhesive mixture by mixing charcoal powder or jade powder prepared from the charcoal powder and the jade powder manufacturing process alone or in combination with a water-soluble adhesive solution to have a weight ratio of an appropriate ratio; A water-soluble adhesive is applied and adhered between a plurality of thin wood boards, and the far-infrared radiation adhesive containing charcoal or jade powder is applied to the top surface of the top wood board several times to form a far-infrared radiation layer having a predetermined thickness. Method for manufacturing prefabricated floorboards for building manufactured using far-infrared radiation adhesive containing jade powder and charcoal powder, characterized in that the bottom plate material manufacturing process by adhering. Building prefabricated floorboard material manufactured using a far-infrared radiation adhesive containing jade powder and charcoal powder prepared by the method of claim 1. The method of claim 1, The size of the jade powder and charcoal powder is 400 ~ 600 mesh (MESH) characterized in that the manufacturing method of prefabricated floor boards for building manufactured using far-infrared radiation adhesive containing a jade powder and charcoal powder. The method of claim 1, Prefabricated flooring manufactured using far-infrared radiation adhesive containing jade powder and charcoal powder characterized by having a far-infrared radiation coating layer by applying a coating agent containing jade powder or charcoal powder to the upper surface of the patterned woodboard during the floor board manufacturing process. Plate manufacturing method. The method of claim 1, Prefabricated floorboard manufacturing method is prepared using a far-infrared radiation adhesive containing jade powder and charcoal powder containing the jade powder or charcoal all contained in the adhesive applied between the thin wood board. The method of claim 1, Far-infrared ray containing charcoal powder and jade powder, comprising installing a recessed groove which is horizontal, vertical or radially formed in the bottom surface of the floorboard material, and filling and injecting a far-infrared radiation adhesive into the recessed groove to have a far-infrared radiation layer. Method of manufacturing a prefabricated floorboard material produced using a spinning adhesive.