KR20070077733A - Anion-releasing wall of building using eco-friendly porous stone - Google Patents

Abstract

The present invention relates to an anion emitting wall using environmentally friendly porous gemstones, the purpose of which is an environmentally friendly by neutralizing the harmful formaldehyde and various volatile organic compounds emitted from the walls of the building by anion and far-infrared radiation is emitted from the wall containing the porous gemstones It is to provide a wall using a porous porous stone.

To this end, the present invention, a wall made of concrete or brick, and a resin-like adhesive is uniformly applied to the surface of the wall, and then attaching a heat insulating plate, the cement paste mixed with 60% by weight adhesive and 40% cement on the heat insulating plate At the same time, the lath made of synthetic fiber of 10 ~ 1000mesh is combined, and the natural stone is attached to 10kg of porous gemstone calcined under 300 ~ 1000 ℃ by mixing and molding the porous stone plate mixed and molded at the ratio of 1,5 ~ 4kg. It is achieved by curing.

Description

Negative Ion Emission Wall Structure Of Building Using Environmental Porous Rock}

1 is a construction state showing a state in which the anion-emitting wall using the environmentally friendly porous stone according to the present invention the construction.

Figure 2 is a state of construction differently carried out anion-releasing wall using an environmentally friendly porous stone according to the present invention.

* Description of symbols on the main parts of the drawings *

10: wall 20: adhesive

30: insulation board 40: cement paste

50: lath 60: porous stone plate

The present invention relates to a wall using porous gemstones, and more particularly, to neutralize harmful formaldehyde and various volatile organic compounds released from the walls of buildings by releasing anions and far infrared rays from the porous gemstones containing the porous gemstones. Provide an anion emitting wall using environmentally friendly porous ore.

A typical building is finished by pouring concrete or masonry after laying walls, roofs and floors and plastering it with cement mortar.

In particular, the cement mortar to be finished should be plastered with a uniform flat surface, have a certain strength, for example bending or compressive strength, and the commercially available finishes satisfy the above physical conditions. .

In recent years, various environmentally friendly products that are poured or plastered on walls or floors are commercially available to neutralize formaldehyde and various volatile organic compounds, which are harmful to human body, emitted from cement mortar or gypsum board.

As known examples, as a wall or flooring or finishing mortar including an environmentally friendly finish, such as Korea Utility Model Registration Application No. 1996-0021224 "ocher wall", Republic of Korea Patent Application No. 1996-061777 "ocher wallpaper intervening wallpaper And jangpan ", Korean Patent Application No. 1999-0041542" far-infrared radiant plaster mortar and its manufacturing method ", Korean Patent Application No. 2004-0023636" ocher mortar composition for building materials and its coating method "is disclosed.

Various known examples as described above are commonly used to neutralize beneficial functions such as antibacterial, deodorant or far infrared rays and substances harmful to the human body.

In addition, building materials using materials such as natural gemstones, which are distributed in the market, and made by various architectural exhibitions (for example, hosted by broadcaster mbc) are known.

For example, natural wall paper mixed with natural materials such as LCM Co., Ltd. LCM Co., Ltd., Eden Bio Co., Ltd. pine wood powder, natural jade, green tea, juniper, charcoal, vermiculite, etc., Veneto Co., Ltd. It is an alkaline adhesive, which contains a health adhesive that emits far-infrared rays and anti-mold from the adhesive itself, coral stones and zeolites of dried marble, fine ceramic tile, and polyaniline polymer material that absorbs and extinguishes harmful electromagnetic wave shielding. High-performance finishes that combine silver to kill more than 650 bacteria in about six minutes.

As described above, it can be seen that it is beneficial to use as a building material using natural ingredients, that is, ocher or natural ore, and the present invention uses natural gemstones as described above, but provides a more environmentally friendly wall by applying caution. .

Accordingly, it is an object of the present invention to simultaneously provide a composition containing a porous gemstone that can be integrally constructed on a conventional wall or processed separately to be easily finished on a wall or floor.

Other objects and effects of the present invention will become apparent from the following detailed description, and the detailed description and examples showing the preferred embodiments of the present invention do not limit the scope of the present invention.

According to the present invention for achieving the above object, a wall made of concrete or brick and a resin adhesive is uniformly applied to the wall surface, and then a heat insulation plate is attached, and 60% by weight of the adhesive and 40% cement are mixed on the heat insulation plate. Porous raw material which mixes and molds resin binder in the ratio of 1,5 ~ 4kg to 10kg of porous gemstones fired under 300 ~ 1000 ℃ state while coating cement paste with It is achieved by attaching slabs and curing them naturally.

Preferably, the porous gemstone is selected from any one selected from vermiculite, pumice, arsenite, pearlite processed to a size of 2 ~ 30mm or two or more of them are mixed.

Preferably, the porous stone plate is characterized in that consisting of between 50 ~ 1000 X 50 ~ 1000mm in width and thickness 5 ~ 50mm.

In addition, the porous stone plate is 52 to 62% by weight of the porous raw stone 15 to 25% by weight of toluene, 4 to 11% by weight of the liquid resin, 4 to 11% by weight of the curing agent, 3 to 7% by weight of anionic powder and 3-7 wt% of tourmaline powder is immersed in the mixed resin to penetrate the resin, and then 20 to 40 wt% of the resin binder is mixed.

In addition, the calcined porous gemstone is immersed in a mordant mixed with 95 to 99% by weight of water and 1 to 3% by weight of alum for 1 to 2 hours, and dried at 50 to 60 ℃ to maintain a water content of 15 to 20% Washing the surface of the porous gemstone in which the mordant is not completely dried with water and immersing the calcined porous gemstone in a dyeing agent mixed with 85 to 95% by weight of water and 3 to 8% by weight of the natural dye for 1 to 2 hours It is characterized in that it was made by embedding.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, like reference numerals designate functionally identical or similar parts throughout the drawings.

1 is a construction state diagram showing a state in which an anion emitting wall using environmentally friendly porous gemstones according to the present invention, Figure 2 is a construction state diagram differently performing an anion emitting wall using environmentally friendly porous gemstones according to the present invention.

First, referring to Figure 1, the anion-emitting wall using an environmentally friendly porous stone according to the present invention is a wall 10 made of concrete or brick and the resin-like adhesive 20 uniformly applied to the wall 10 surface After attaching the insulation plate 30, including the cement paste 40 mixed with 60% by weight adhesive and 40% cement on the insulation plate 30, and made of any one selected from 10 ~ 1000 mesh of synthetic fibers or glass fibers It is achieved by attaching the lath 50 and attaching the porous raw stone plate 60 mixed and molded in a ratio of 1.5 to 4 kg to the porous raw stone calcined under the conditions of 300 to 1000 ° C., followed by natural curing. do.

The wall 10 typically serves to distinguish the inside and the outside of the building, and is formed to have a constant thickness. In particular, the conventional wall 10 is poured concrete to form the wall 10, or by stacking bricks to form a masonry wall that is the wall 10 of the building.

On the surface of the wall 10 as described above, the adhesive 20 may be uniformly coated by an amount of 0.5 to 1.2 kg / m 2, or spray sprayed to apply.

The adhesive 20 may be applied to the product names HJ-1300, 1800, 1900, 2000 produced by Brother Industry Co., Ltd., which increases the adhesion between the wall 10 and the porous gemstone plate 60 as a resin component. And at the same time play a role of backfilling voids formed on the surface of the wall 10 and the like and withstanding the contraction and expansion thereof.

In this way, the adhesive 20 is uniformly applied to the wall 10, and then the heat insulating plate 30 is attached.

Insulation plate 30 is expanded polystyrene (Expandable Polystyrene) is made of foamed resin by adding a foaming agent such as pentane (Pantane: C5H12) or butane to the polystyrene resin and heat-curing at the same time to generate air bubbles, Styrene Monomer: C8H8 If it manufactured by superposing | polymerizing), all apply, and the thickness is not limited.

Next, a cement paste 40 having 60% by weight of the adhesive and 40% of the cement mixed thereon is applied onto the insulation plate 30. In particular, the adhesive used herein may be a series of products such as Neovit manufactured by Hyosung Drybit Co., Ltd., etc., and cement is added to form the cement paste 40.

At the same time, the cement paste 40 is combined with the lath 50 made of any one selected from 10 to 1000 mesh of synthetic fibers or glass fibers to form a uniform surface on the heat insulating plate 30.

In the state of forming a uniform surface as above, the porous gemstone plate 60 according to the present invention is attached and cured to complete the anion wall 10.

Porous gemstones to be applied to the present invention is selected from any one selected from vermiculite, pumice, calcite, pearlite processed or selected into a size of 2 ~ 30mm, or a gemstone mixed two or more thereof.

Here, we briefly look at the above vermiculite, pumice, calcite, and pearl rock.

Vermiculite is a mineral material formed when volcanic rocks are degassed in the state of magma. It is porous and has good absorption ability, and it is also widely used as basic soil, heat-resistant material, and soundproofing material such as rooftop slabs affected by load due to its light weight and mass.

Pumice is a result of the sudden decrease in pressure when the magma is released into the atmosphere, resulting in the release of volatile components in the magma resulting in numerous pores.These pumice stones are light enough to float in water due to their low specific gravity. In addition, it is used as aggregate of heat shield wall concrete.

It is mainly used for horticulture as an inorganic material. It has many pores and is a lightweight body, and has good water retention, drainage, and breathability.

Pearlite is suitable as the main material of the present invention to be used for industrial, construction and agriculture as a light aggregate raw material after expanding at high temperature.

Therefore, porous ore selected from vermiculite, pumice stone, calcite and pearlite is used alone or in combination of two or more.

When the porous gemstone provided as above is heated and calcined at a heating furnace at a temperature of 300 to 1000 ° C., the porous gemstone expands vertically in the direction of splitting with water vapor during heating, and the pores of the porous gemstone are 6 It becomes ˜20 times larger, and will be described later, but emits anions or gemstones through the enlarged pores.

The porous gemstones that have been sintered and thus formed are formed as sterile soils of low acidity (ph5.4 ~ 6) by high temperature treatment, and are hard, very light, chemically nontoxic, stable, as well as optimum insulating properties and ion exchange capacity. This has a nice feature.

On the other hand, when the porous gemstone is mixed with other resin compositions on the wall 10 and used as a finishing material, the gemstone may express various colors when the gemstone is intended to exhibit color.

In order to obtain the desired color by embedding the porous gemstone, first, the calcined porous gemstone is immersed for 1 to 2 hours in a mordant mixed with 95 to 99% by weight of water and 1 to 3% by weight of alum. To obtain.

After obtaining the primary color, it is dried at a temperature of 50 ~ 60 ℃ to maintain a water content of 15 ~ 20%.

In this case, it should be noted that the surface of the porous gemstone in which the mordant is not completely dried is washed with water.

Subsequently, the calcined porous gemstone was immersed in a dyeing agent mixed with 85 to 95% by weight of water and 3 to 8% by weight of natural dye for 1 to 2 hours, and then embedded in the dyeing material. The stone is embedded in a variety of dyes.

The above-mentioned porous gemstone plate 60 is obtained by mixing and molding a resin binder in a ratio of 1,5 to 4 kg to the embedded porous gemstone 10 kg.

In particular, the resin binders are commonly used in all admixtures including natural and synthetic rubbers that can be added to cement mortar, such as styrenebutadiene rubber (SBR), nitrile butadiene rubber (NBR), epoxy, acrylic, and urethane. Any one of the resins selected may be used, and an emulsion may be usually added to such a resin binder.

Preferably, the porous stone plate is characterized in that consisting of between 50 ~ 1000 X 50 ~ 1000mm in width and thickness 5 ~ 50mm.

On the other hand, porous pores with large pores are generally weak in terms of strength, so that the porous gemstones embedded after firing may be immersed in a liquid resin to reinforce them.

This liquid resin is composed of urethane resin 1 ~ 1.5ℓ, mixed hardener 1 ~ 1.5ℓ, toluene 3 ~ 4ℓ, anionic powder 0.1 ~ 1.5kg, tourmaline powder 0.1 ~ 1.5kg, this ratio is mixed with 10kg porous gemstone It is an example of a ratio.

Here, the anion powder is a natural mineral monazite powder, which plays a role of releasing a large amount of anions beneficial to the human body, and tourmaline is a natural mineral that is combined with the surrounding water molecules to be called hydroxyl (H ₃ O ₂ ) anion. To produce a surfactant.

In particular, hydroxyl ions weakly water water to an optimal pH7.4, and the far-infrared rays generated are remarkably high, facilitating blood circulation, blood purification and thrombolysis in humans with strong thermal effects and high penetration. It is effective, and stimulates autonomic nerves while improving immune function in the human body to suppress the excitability of the sympathetic nerve and serves to reduce the acidified human body.

This reinforced porous gemstone is processed into a porous gemstone plate 60, which is a functional material that emits negative ions and far infrared rays, and finishes on the wall 10, thereby providing an environment-friendly and beneficial building.

This invention can be implemented in other various forms, without deviating from the mind or main characteristic. For this reason, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is shown by the scope of the claims, and is not limited by the specification text. Again, all variations and modifications belonging to the equivalent scope of the claims are within the scope of the present invention.

In the present invention, it goes without saying that various other modifications are possible. For example, it is not necessary to deviate from the present invention by being able to remove the heat insulating plate 30 on the wall 10 according to the construction method or the construction environment as shown in FIG. 2 as needed. That is, due to the characteristics of the porous gemstone plate 60 according to the present invention, the neutralization of the sufficient heat insulation function and harmful substances of the wall, it is possible to sufficiently produce the above effects even without installing the heat insulation plate 30. Accordingly, all modifications existing within the spirit and scope of the present invention are included in the claims.

On the other hand, in the present invention, the coating may be optionally performed on the porous gemstone plate 60 completed for waterproofing or gloss. At this time, the coding is achieved by spraying and refining by mixing a resin having the above-described anion-releasing component and a liquid resin serving as a binder.

As described in detail above, according to the anion-emitting wall using the eco-friendly porous stone according to the present invention, by neutralizing the harmful formaldehyde and various volatile organic compounds released from the wall by the wall finished with the porous stone plate, it is beneficial to the human body The effect of generating negative ions or the like is produced. In addition, there is no need for a separate construction technology, and the drying time is fast, which does not interfere with other processes, resulting in reduced labor costs and economic effects.

Claims (5)

Walls made of concrete or brick, and evenly coated with a resin-type adhesive on the surface of the wall, and then attaching a heat insulating plate, and a cement paste mixed with 60% by weight adhesive and 40% cement on the heat insulating plate and at the same time 10 ~ 1000mesh It is made by splicing the lath made of synthetic fibers consisting of, mixed with a resin binder in a ratio of 1,5 ~ 4kg to 10kg of porous gemstones fired under the condition of 300 ~ 1000 ℃, attaching the molded porous gemstones and then natural curing Anion-releasing wall of a building using eco-friendly porous gemstones. The method of claim 1, The porous stone plate is 52 to 62% by weight of the porous raw stone 15 to 25% by weight of toluene, 4 to 11% by weight of the liquid resin, 4 to 11% by weight of the curing agent, 3 to 7% by weight of anionic powder and tourmaline powder 3 An anion-emitting wall of a building using eco-friendly porous gemstones, characterized in that ~ 7% by weight of the resin is immersed in the mixed resin, and then 20 to 40% by weight of the resin binder. The method of claim 1, The calcined porous gemstone was immersed in a mordant mixed with 95 to 99% by weight of water and 1 to 3% by weight of alum, and dried at 50 to 60 ° C. to maintain a water content of 15 to 20%, Washing the surface of the porous gemstone in the state that the mordant is not completely dried with water, and immersed for 1 to 2 hours by immersing the calcined porous gemstone in a dyeing agent mixed with 3 to 8% by weight of natural dyes in 85 to 95% by weight of water Anion emitting wall of a building using environmentally friendly porous gemstones, characterized in that.  The method of claim 1, The porous gemstone is selected from any one selected from vermiculite, pumice, calcite, pearlite processed to a size of 2 ~ 30mm or two or more of these, an anion emitting wall of a building using environmentally friendly porous gemstones. The method of claim 1, The porous stone plate is an anion-emitting wall of the building using an environmentally friendly porous stone, characterized in that consisting of between 50 ~ 1000 X 50 ~ 1000mm in width and 5 ~ 50mm thick.

Images