KR100795224B1 - A architecture surface decoration composition with olivine, its board , pannel - Google Patents

Abstract

The present invention relates to a building finishing composition containing olivine, a panel for a panel, a panel using the same, olivine 30 to 60% by weight, ganbanite 10 to 20% by weight, tourmaline 10 to 20% by weight, quartzite 10 to 20% by weight and 70 to 80 wt% of the mineral powder consisting of 10 to 20 wt% of mica; Toxic harm to the human body by providing a building finishing composition comprising 20-30% by weight of at least one natural binder selected from the group consisting of glue, starch, rosin, seaweed, and natural radexes, and panels and panels for the same using the same. It does not emit any at all, the effect of far infrared rays and negative ions to smooth blood circulation, block and remove the electromagnetic waves, to provide effects such as deodorization, antibacterial, detoxification and energy saving.

Olives, panels, boards, natural binders,

Description

A finishing surface composition containing olivine, panel for panel using panel {A architecture surface decoration composition with olivine, its board, pannel}

1 is a perspective view of a board manufactured by a preferred embodiment of the present invention.

2 is a cross-sectional view of a board manufactured by the preferred embodiment of the present invention.

3 is a cross-sectional view of a board manufactured by the preferred embodiment of the present invention.

Figure 4 is a perspective view of a panel stud manufactured by a preferred embodiment of the present invention.

5 is a perspective view of a panel manufactured by a preferred embodiment of the present invention.

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<Description of the symbols for the main parts of the drawings>

1, 1a, 1b: board 11a, 11b: plate

12, 12a, 12b: fiber reinforcement portion 13: electromagnetic shielding portion

20: stud 30a, 30b: runner

40: fastening portion 100: panel

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The present invention relates to a building finishing composition containing olivine, a board for a panel, a panel using the same, and more specifically, to provide the effect of far-infrared and negative ions beneficial to the human body, mineral powder and natural binder including olivine as a main component It relates to a composition and a panel board, a panel using the same.

In general, a panel for building materials is composed of boards, studs, and runners, and is a building interior material that is widely used as walls, partitions, and ceilings of all buildings ranging from houses to high-rise buildings.

At this time, the board is a situation that uses a board that is generally bonded and cured between the two sheets of paper for the board (gypsum) for gypsum, cement or synthetic resin.

However, in recent years, with the growing interest in indoor environments, the use of conventional building materials and adhesives has been suppressed.

This is because the indoor environment is contaminated by formaldehyde, volatile organic compounds (VOCs), cement poisons, etc. generated from the building materials and adhesives, so that a harmful environment such as a sick house syndrome is created.

In particular, the Ministry of Environment is expected to expand the use of eco-friendly materials from 2006, as mandatory disclosure of 6 new house syndrome-causing substances such as formaldehyde and toluene for new apartments.

 In addition, as the standard of living improves as income increases, the consumer's desire for high-quality residential space increases, and instead of using the above materials as they are, they want to create a healthier and more comfortable living space by applying various materials known in terms of human health. Attempts have been made to apply to furniture such as beds.

In particular, the conventional bed has a problem that the person is exposed to the influence of the water-waves generated from the basement by simply having a top plate made of a spring, elastic fibers and outer shell is placed on the support plate. These water waves have a bad effect on the person living in the bed to slow the recovery of pain, the drug effect does not appear properly, or there was a problem that the pain is worsened.

In addition, the conventional bed does not have a heat function does not provide the optimal temperature environment for people living on the bed, there was a problem that there is no functional element that is good for various health.

Of course, conventionally, in order to add a heat function, a person may simply lay an electric blanket on the bed and lay a person there, but in this case, a large amount of electromagnetic waves are generated from the electric blanket, thereby making people drowsy and insomnia. There were issues that cause, nervousness, headache, sleep disorders and various diseases.

In addition, such electromagnetic waves are known to be not particularly good for pregnant women, such as leukemia, lymph cancer, brain cancer, central nervous system cancer, breast cancer, dementia, miscarriage and birth defects.

Far infrared rays and negative ions expand capillaries in the human body to help blood circulation and cell tissue generation, and activate cell functions to prevent aging, metabolism, autogenous tissue and enzyme activity, and deodorization It is known to have effects such as antibacterial, mold growth prevention and heat storage.

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Accordingly, the present inventors develop a building finishing composition having an antibacterial and deodorizing effect while neutralizing the toxicity of concrete and volatile organic solvents and formaldehyde of the building itself while emitting far infrared rays and anions beneficial to the human body in an indoor living space, and It is intended to be applied to panel boards and panels.

Accordingly, the present invention has been made to recognize and solve the above problems, an object of the present invention is to use a mineral as a main component as a far-infrared radiator, and to provide a building finishing composition comprising a natural binder mixed with the mineral. .

It is another object of the present invention to provide a board for a building panel manufactured using the finish composition.

In addition, another object of the present invention to provide a prefabricated panel to which the panel board is applied.

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In order to achieve the above object, the present invention is a mineral powder consisting of 30 to 60% by weight of olivine, 10 to 20% by weight of elvanite, 10 to 20% by weight of tourmaline, 10 to 20% by weight of silica and 10 to 20% by weight of mica. It provides a building finishing composition comprising 70 to 80% by weight, and 20 to 30% by weight of at least one natural binder selected from the group consisting of glue, starch, rosin, seaweed, and natural radix.

In addition, in order to achieve another object, the present invention is a mineral powder 70 consisting of 30 to 60% by weight of olivine, 10 to 20% by weight of ganbanite, 10 to 20% by weight of tourmaline, 10 to 20% by weight of silica and 10 to 20% by weight of mica. 20 to 30% by weight of at least one natural binder selected from the group consisting of -80% by weight and glue, starch, rosin, seaweed, and natural radix are compressed and molded into a predetermined size; Between 50 and 70% by weight of at least one kind of waste fiber selected from the group consisting of waste paper, paper sludge, sawdust and rice straw between the upper and lower plates of the plate and at least one selected from the group consisting of glue, starch, rosin, seaweed and natural radix Provided is a far-infrared radiation board for building panels comprising a fiber reinforcement part comprising 30 to 50% by weight of a natural binder.

In addition, there is provided a far-infrared radiation board for building panels, the electromagnetic shielding portion made of copper or aluminum plate is inserted in the center of the fiber reinforcement.

In addition, in order to achieve another object, the present invention comprises the steps of (a) injecting the finishing material composition of the substrate in a predetermined mold in a predetermined thickness, and forming a first plate by compression molding by pressing; (b) 50 to 70% by weight of at least one kind of waste fiber selected from the group consisting of waste paper waste, paper sludge, sawdust and rice straw on the first plate of (a) and glue, starch, rosin, seaweed and natural radex Injecting a fiber composition consisting of 30 to 50% by weight of at least one natural binder selected from the group to a predetermined thickness, compression molding by a press to laminate the first fiber reinforcement; (c) stacking the electromagnetic shielding part by fixing and compressing the copper plate or the aluminum plate on the first fiber reinforcement part of (b); (d) injecting the fiber composition of (b) into a predetermined thickness on the electromagnetic shielding portion of (c) and compressing by pressing to stack the second fiber reinforcement portion; (e) injecting the finish composition of the substrate to a predetermined thickness on the second fiber reinforcement part of (d), and compressing by pressing to laminate the second plate; And (f) hardening the laminate having been subjected to the steps (a), (b), (c), (d), and (e) by pressing and heating to cure it. Provide a method.

Furthermore, the present invention is a stud bonded to the board by laminating in a square column shape having a predetermined width; A runner for inserting and fixing the top and bottom ends of the stud; A blocking board formed such that the board has a predetermined width and height so that the runners can be completely blocked; And it provides a far-infrared radiation panel comprising a fastening portion formed on the upper and lower ends of the board and the runner so that the blocking board and the runner can be screwed with each other.

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Hereinafter, the present invention will be described in detail.

The present invention is to manufacture a board of the building panel using inorganic materials, natural binder, natural fiber material and electromagnetic shielding plate that emits far infrared rays, volatile organic compounds (VOC) or cement toxicity, etc., which harm the human body in the conventional indoor space It is possible to provide a healthy and pleasant living space by blocking the electromagnetic waves as well as soundproofing due to textile materials, absorbing or deodorizing odor generated in the room, and releasing large amounts of far-infrared substances and anions that are beneficial to the human body. will be.

In addition, the present invention is not limited to only the board of the building panel can be used in various fields such as bed or flooring.

The olivine used as the main component in the present invention is a silicate mineral rich in magnesium and iron, and is a coarse mineral belonging to the tetragonal system. It serves to provide a beneficial far-infrared effect to the human body, and minerals composed of ganbanite, tourmaline, silica and mica also serve to provide synergistic effect of releasing far infrared rays and anions to the panel of the present invention.

In addition, the mineral is not limited to the minerals listed above, but may be configured using various minerals such as germanium, loess, gemstone, zeolite, and granite, depending on the conditions of use.

At this time, in the present invention, the far-infrared effect of the above-described minerals is well exhibited, and in order to soften the skin texture of the panel, the average diameter of finely pulverized by a pulverizer such as a ball mill and then separated by a floating separation method is 200-500. It is preferable to use fine powder which is a mesh. This is because the skin texture is unpleasant at less than 200 mesh and unnecessary voids are formed between the minerals, which decreases the strength. When it exceeds 500 mesh, the porous material of some minerals is decomposed, deodorizing and other effects are deteriorated, and dust workability This is because production costs increase due to deterioration and refinement.

In the present invention, the mineral powder used as the board composition of the board is 30 to 60% by weight of olivine, 10 to 20% by weight of ganbanite, 10 to 20% by weight of tourmaline, 10 to 20% by weight of quartzite and 10 to 20% by weight of mica. The mixture is used because the olivine is used within the range of 30 to 60% by weight as the main component that determines the color of the panel in addition to the far-infrared effect, in accordance with the object of the present invention. That is, if less than 30% by weight it is difficult to distinguish the main component in the amount of other minerals and the amount used, and when used in excess of 60% by weight is not enough to use the required amount of other minerals.

In addition, 70 to 80% by weight of the mineral powder and 20 to 30% by weight of the natural binder according to the present invention is used, which means that when the natural binder exceeds 30% by weight, sufficient minerals cannot be used, and thus the above-described effects such as far infrared rays effect are reduced. If less than 20% by weight, the binder may not be sufficiently mixed with the mineral powder, which may cause a problem that the strength of the manufactured panel is lowered.

In addition, in the present invention, the fiber reinforcement portion plays a role of preventing the soundproofing effect, reinforcing the strength of the panel and twisting of the panel of the panel, mainly paper waste sludge, rice straw, etc. discharged from the sawdust or paper mill produced from waste paper or waste wood It is preferable to use as a fiber material of.

In particular, sawdust has been shown to be the most preferable to use a sawdust produced from pine wood several times.

Then, 50 to 70% by weight of the waste fiber and 30 to 50% by weight of the natural binder are used to strongly bond between the plates of the panel.

In addition, the plate made of copper or aluminum used in the present invention is known to be commonly used for electromagnetic shielding, it is the first attempt in the present invention to use this in the panel of the building finishing material. At this time, it is preferable to use a very thin plate, it is preferable to use a plate of less than 1mm.

In addition, the electromagnetic shield may not be configured depending on the conditions of use.

In addition, the natural binder glue, starch, rosin, seaweed, natural radix and the like inhibits the generation of harmful components of volatile organic substances (VOC) such as formaldehyde volatilized in the conventional chemical synthetic resin.

In addition, the finishing material composition of the present invention can be used as a plastering material by applying to the building interior materials such as gypsum board, prefabricated compression panel used in the conventional wall or ceiling. This is because the composition of the present invention can be used as a plastering material because a binder is included.

On the other hand, the manufacturing method of the board according to the present invention is to press and laminated before the finish composition and the fiber composition is completely cured, and the final laminate is produced by heating and pressurizing using a steam heat or the like completely adhered and cured. desirable.

In addition, the thickness of the board is preferably manufactured so that the thickness of the conventional panel 1 ~ 20mm so that it can be used immediately replace the conventional construction board.

However, the finish composition of the present invention is not limited to the manufacture of the board by the above method, it can be produced by applying to the conventional manufacturing method of the board. At this time, the conventional manufacturing method of the board means that it is known to be easily carried out by those skilled in the art.

In addition, the present invention is not limited to manufacturing the board manufactured by the above method by the method of manufacturing the panel, it is possible to manufacture a panel, bed, etc. by applying to a conventional method of manufacturing the panel. At this time, the device or methods used to manufacture the conventional panel means that it is known to be easily carried out by those skilled in the art.

Hereinafter, with reference to the drawings and embodiments will be described the present invention in more detail.

However, these examples or drawings are only for illustrating the present invention in detail, it will be apparent to those skilled in the art that the scope of the present invention is not limited to these examples.

1 is a perspective view of a board manufactured by a preferred embodiment of the present invention.

2 is a cross-sectional view of a board manufactured by the preferred embodiment of the present invention.

3 is a cross-sectional view of a board manufactured by the preferred embodiment of the present invention.

Figure 4 is a perspective view of a panel stud manufactured by a preferred embodiment of the present invention.

5 is a perspective view of a panel manufactured by a preferred embodiment of the present invention.

As shown in FIG. 3, the board 1 according to the present invention is provided with an upper plate 11b and a lower plate 11a of a plate manufactured by the above-described finishing material composition, and an upper plate 11b of the plate. Fiber reinforcement parts 12a and 12b are formed between the lower plate 11a and the electromagnetic shielding part 13 is inserted into the center of the fiber reinforcement parts 12a and 12b.

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3 shows another embodiment of the board 1 of the present invention, which shows that the electronic shielding part 13 is not used in the center of the fiber reinforcement part 12.

As shown in Figures 4 and 5, the panel 100 of the present invention forms a plurality of the board (1a) manufactured by the above-described method as described above in a square column shape having a predetermined width, and stacked them A stud 20 attached thereto; Runners 30a and 30b for inserting and fixing upper and lower ends of the stud 20; A blocking board (1b) formed to have a predetermined width and height of the board (1) manufactured by the above-described method so that the runners (30a, 30b) can be completely blocked; The blocking board 1b and the runners 30a and 30b may include fastening portions 40 formed on the upper and lower ends of the board 1 and the runners so that the blocking boards 1b and the runners 30a and 30b may be fastened to each other by screws or nails.

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EXAMPLES Production of Panels of the Invention

(1) Far Infrared Radiation Finish Composition

In the mixer, a mixture of 8 kg of mineral powder uniformly mixed with 1 kg of olivine, 1 kg of tourmaline, 1 kg of tourmaline, 1 kg of quartzite, and 1 kg of mica, and 2 kg of natural binder mixed with starch and rosin 1: 1 are mixed in the mixer. Far-infrared spinning finish compositions were prepared.

(2) fiber composition

The fiber composition of the present invention was prepared by mixing 5 kg of paper sludge and 5 kg of a natural binder in which starch and rosin were mixed 1: 1.

(3) copper foil

A thin copper plate (W, Korea) having a thickness of about 0.035 mm (t) was cut and prepared into a size of 1,000 mm x 1,000 mm.

(4) board manufacturing

The finishing material composition prepared in the above (1) was put into a molding die of 1,000 mm × 1,000 mm and a thickness of 20 mm, and compression molding was carried out by a press to form a first plate having a thickness of about 8 mm, and on the first plate The fiber composition prepared in (2) was introduced, compression molded by a press to laminate a first fiber reinforcement part having a thickness of about 2 mm, and then the copper foil plate prepared in the above (3) was placed on the first fiber reinforcement part. After placing and compressing, the electromagnetic wave shielding part was laminated, and the second fiber reinforcing part and the first plate were laminated and molded in the same manner as described above.

Then, the laminated molding was pressurized with a press while heating with steam heat to completely cure, thereby completing the building panel board of the present invention.

(5) panel manufacturing

As shown in FIGS. 3 and 4, the board manufactured in (4) was manufactured, assembled, and assembled with a stud, a runner, and a board for blocking.

Experimental Example 1

In order to confirm the characteristics of the far-infrared radiation board used in the present invention, the emissivity and anion emission amount of the far infrared rays were measured.

The results are shown in Tables 1 and 2, respectively.

In this case, the far-infrared radiation experiment shows the measurement results of the black body using the FT-IR spectrophotometer at 40 ℃, the anion is 24 ℃, humidity 32%, 47 / cc of anion water in the air, the charge measuring device The anion released from the measurement object was measured, and the average number of ions per unit volume was displayed.

Emissivity (5-20㎛) Radiation energy (W / ㎥) 0.95 3.74 × 10 ²

Anion (ION / cc) 520

Therefore, the panel board of the present invention was found to be very excellent in the amount of far infrared rays and anions released.

Experimental Example 2

This experiment was carried out a deodorization test for ammonia to verify the deodorizing ability of the board according to the present invention.

At this time, the test method was injecting the predetermined amount of pozzo eggs and ammonia gas into the test piece 40 × 40 × 10 (㎜), and then measured the concentration of ammonia in the test piece by a gas meter to measure the deodorization rate.

The results are shown in Table 3 below.

Test Items Elapsed time (minutes) Blank concentration (ppm) Sample concentration Deodorization rate (%)  Deodorization test 30 470 50 90.0 60 427 29 93.8 90 378 15 96.8 120 332 13 96.1

As described above, the board and panel of the present invention is very excellent in far infrared and anion emission and deodorizing ability, and by not using a synthetic organic binder, it can be seen that the building interior material does not emit any volatile organic substances.

As described above, the building finishing material composition of the present invention, the board for the panel using the same, the panel smoothly circulates the blood by the effect of far infrared rays and negative ions, without any toxic harm to the human body, blocking and removing electromagnetic waves And, to provide the effect of providing deodorization, antibacterial, detoxification, and energy saving.

Claims (9)

delete delete 70 to 80% by weight of mineral powder consisting of 30 to 60% by weight of olivine, 10 to 20% by weight of ganbanite, 10 to 20% by weight of tourmaline, 10 to 20% by weight of quartzite and 10 to 20% by weight of mica, glue, starch, rosin 20-30% by weight of at least one natural binder selected from the group consisting of seaweed and natural radex mixed and compression molded to a predetermined size; Between 50 and 70% by weight of at least one kind of waste fiber selected from the group consisting of waste paper, paper sludge, sawdust and rice straw between the upper and lower plates of the plate and at least one selected from the group consisting of glue, starch, rosin, seaweed and natural radix In the far-infrared radiation board for building panel consisting of; Far-infrared radiation board for building panels, the electromagnetic shielding portion made of copper or aluminum plate is inserted in the center of the fiber reinforcement. (a) injecting the finish composition of claim 3 in a predetermined mold into a predetermined thickness and compressing with a press to form a first plate; (b) 50 to 70% by weight of at least one kind of waste fiber selected from the group consisting of waste paper waste, paper sludge, sawdust and rice straw on the first plate of (a) and glue, starch, rosin, seaweed, and natural radex Injecting a fiber composition consisting of 30 to 50% by weight of at least one natural binder selected from the group to a predetermined thickness, compression molding by a press to laminate the first fiber reinforcement; (c) stacking the electromagnetic shielding part by fixing and compressing the copper plate or the aluminum plate on the first fiber reinforcement part of (b); (d) injecting the fiber composition of (b) into a predetermined thickness on the electromagnetic shielding portion of (c) and compressing by pressing to stack the second fiber reinforcement portion; (e) injecting the plate-forming composition of claim 3 into a predetermined thickness on the second fiber reinforcement part of (d), and compressing by pressing to laminate the second plate; And (f) of the far-infrared radiation board for building panels using olivine comprising the step of hardening by pressing and heating the laminate after the steps (a), (b), (c), (d) and (e). Manufacturing method. The method of claim 3, wherein The mineral powder has a mean diameter of 200 to 500 mesh manufacturing method of the far infrared radiation board. The method of claim 4, wherein The thickness of the board is 1-20mm, The method of manufacturing a far-infrared radiation board. A stud to which the board of claim 3 is laminated and bonded in a square column shape having a predetermined width; A runner for inserting and fixing the top and bottom ends of the stud; A blocking board formed such that the board of claim 3 has a predetermined width and height so that the runners can be completely blocked; And Far-infrared radiation panel for building panels using olivine, characterized in that the blocking board and the runner comprises a fastening portion formed on the upper and lower ends and the runner of the board so as to be screwed with each other. delete delete

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