KR20060117593A - Ommited - Google Patents

Abstract

An interlayer floor structure constructed using an eco-friendly composite and an eco-friendly prefabricated panel is provided to form residential environment and office environment to be beneficial to health by manufacturing a composite and a prefabricated panel using eco-friendly materials. An eco-friendly composite comprises: an inorganic binder made of liquefied sodium silicates, sodium silicate cement or incomplete gelled sodium silicate; an organic binder made of an organic binder such as acryl-based aqueous emulsion, vinyl acetate-based aqueous emulsion, epoxy-based aqueous emulsion, urethane-based aqueous emulsion, starch paste, rice paste, glue or seaweed paste; inorganic aggregate made of perlite foam particles, vermiculite foam particles, obsidian foam particles, amphibole foam particles or feldspar foam particles; organic aggregate made of crushed pulp, crushed timber or wood fiber; and inorganic materials which are composed of water and single or a compound of yellow soil powder, paper clay powder, Kaolin powder, plaster and lime powder. An eco-friendly prefabricated panel is manufactured by filling up a mold with the eco-friendly composite, applying pressure of 10 kg/m^2 and heating at 700~1000‹C and drying/hardening to have a thickness of 40~70 millimeters by drying up at a fixed temperature for 2~3 hours or irradiating microwaves of about 700~1000‹C for 3~5 minutes. An interlayer floor structure constructed using the eco-friendly composite or the eco-friendly prefabricated panels comprises a floor finishing member placed on a finishing mortar layer, a finishing mortar layer placed to smooth the bottom after laying a heating device, a pipe type heating device or a flat board type heating device installed on the top of a lightweight concrete layer, a lightweight concrete layer formed on the top of a soundproof layer for insulation, a soundproof layer formed on the top of a floor slab layer to reduce interlayer noise, and a floor slab layer installed to partition off a floor.

Description

Eco-friendly composition and an eco-friendly prefabricated panel manufactured using the eco-friendly composition as a raw material and the building comprising the interlayer floor structure and the eco-friendly floor structure, characterized in that built using the eco-friendly composition or the eco-friendly assembly panel {ommited}

1 is an embodiment of an interlayer floor structure according to the present invention with a pipe-type heating device as a partial component;

Figure 2 is an embodiment of the interlayer floor structure according to the present invention, in which the flat heating device is a partial component.

Figure 3 is an embodiment of an interlayer floor structure according to the present invention constructed with a prefabricated panel (dry method) as a partial component.

As an example of the interlayer floor structure of a general multi-story building

Floor slab layer installed to basically partition the floors

Soundproof layer for attenuating interlayer noise on top of floor slab layer

Lightweight concrete layer (or lightweight layer) for insulation on top of the soundproof layer

Heating piping is installed on the top of the lightweight concrete layer

The finishing mortar layer which is laid in order to embed the heating pipe and make the floor smooth

It is being constructed and characterized in that it comprises a floor finishing material on the top of the finishing mortar layer,

In addition to the above-described examples, various floor structures exist.

However, in order to build the various floor structures described above, a construction method through a dry method for building a floor structure using a prefabricated panel in addition to the wet method has been developed.

In addition, according to the present invention, of course, the laminated part may be configured using various kinds of environmentally friendly compositions to be described below.

On the other hand, the general method currently being implemented can be called a wet method.

The wet method is a method of constructing a wet composition manufactured by mixing various aggregates in the water cement and the water cement using a device for placing on the pouring surface.

More specifically

Selected wet composition to form the laminate to be constructed

In the field using a pour device to pour the pouring surface,

The cement, which is the main raw material of the pouring, is cured for a certain period of time (about 14 days), so that one layer of laminated parts is formed.

On the other hand, there are only a few stages in actual application,

In the dry method developed in order to be able to install the floor between the short process and easy construction method than the wet method,

Each laminated part, which is a component of the interlayer floor, is made of prefabricated panel, which is a molded product with a certain standard through selected raw materials and external production facilities.

Through the process of seating and bonding the prefabricated panel to the laminated portion to form a laminate of the interlayer floor.

On the other hand, when the lamination of the bottom surface through the wet method and dry method through the above process,

Finally, the finishing floor is finished by pouring finishing mortar on the upper end of the lamination part.

However, the raw material of the above-described wet composition and prefabricated panel manufactured using the wet composition is

It is known to cause a lot of harm to the human body due to toxicity generated from cement, chemical admixtures and inorganic admixtures.

Birdhouse Syndrome is a situation where damage is increasing rapidly enough to create new words.

Therefore, in the present invention

Prohibit the use of existing hazardous materials as above.

By manufacturing wet compositions and prefabricated panels for building floors using eco-friendly raw materials

The task is to provide a more beneficial living and office environment for the human body.

Hereinafter to help understanding of the present invention

A method for preparing an existing wet composition and

The generalized manufacturing method for producing a dry prefabricated panel using the composition will be briefly described.

The wet composition

As necessary to strengthen the properties of cement and water or cement and water and aggregate

AE concrete using air emulsifiers, various chemically admixture materials, fluidized concrete (concrete with improved workability using an oil-immobilizing agent), foamed concrete (concrete lightweight by mixing a large amount of air bubbles using a foaming agent), physical admixture It is manufactured using fly ash concrete (concrete mixed with high quality fine ash produced by combustion of uncoated coal used in thermal power plant).

In addition, in general, a concrete mixture of 1 m 3 of concrete has a unit weight of cement of 300 kg as a standard, the range of 250 to 450 kg.

The water-cement ratio, which is the weight of water divided by the weight of cement, is deeply related to the strength of concrete and is generally 40 to 65%.

The more the unit water, the softer the concrete will flow down.

Since the same unit concrete amount decreases in strength and increases shrinkage due to drying, concrete, which is a wet composition, is produced by using convulsive concrete with a small amount of unit as much as possible.

The various types of concrete compositions exemplified above are poured into the desired laminate surface,

By leaving the above for a certain period of time (about 14 days at room temperature) to cure the floor to build an interlayer.

And in order to manufacture a prefabricated panel using the composition

Create a mold of the size and shape to be manufactured,

Injecting, curing (curing) and drying the composition inside the mold to produce a prefabricated panel of a predetermined standard, or

In order to shorten the curing time and to produce high quality curing, it moves to a curing chamber equipped with a heating, pressurizing, and humidifying device, and curing under good curing conditions to quickly manufacture a prefabricated panel.

The prepared prefabricated panel is seated and arranged in the corresponding lamination part of the interlayer floor,

By placing a finishing layer on the top, an interlayer floor is constructed.

Then, the present invention will be described in detail through the following technology to provide an eco-friendly composition and a prefabricated panel manufactured using the eco-friendly composition and the floor structure constructed by using the eco-friendly composition and eco-friendly assembly panel.

Raw materials for producing an environmentally friendly composition according to the present invention,

Inorganic Binders (Liquid Sodium Silicate, Sodium Silicate Cement, Incomplete Gel Silicate)

Organic binders (acrylic-based aqueous emulsions, vinyl acetate-based aqueous emulsions, epoxy-based aqueous emulsions, urethane-based aqueous emulsions, starch paste, glutinous rice paste, glue, seaweed paste alone or mixed or copolymerized)

Inorganic aggregates

Organic aggregates (paper mill, wood mill, wood fiber alone or mixed)

As other inorganic raw materials,

water,

Ocher powder, clay powder, kaolin powder, gypsum powder, lime powder alone or mixed

Consists of

The inorganic binder is

Liquid sodium silicate (water glass): Alkali silicate salt obtained by melting silicon dioxide and alkali into a concentrated aqueous solution.

Sodium Silicate Cement: Manufactured by adding an appropriate amount of zincification to liquid sodium silicate.

Incomplete gel silicate: Uniform density and viscosity prepared by adding less than an appropriate amount of acid to the liquid sodium silicate (a suitable amount of acid so that silica gel is formed by adding acid to sodium silicate and causing a complete gelling reaction). Adhesive liquid having a colloidal phase having a.

The organic binder is

It is a solvent-free adhesive, a water-based emulsion adhesive using water as a dispersion medium instead of a solvent or a copolymer copolymerized to enhance the physical properties of the aqueous emulsion adhesive,

Acrylic Water-Based Emulsion

Vinyl acetate-based emulsion

Epoxy Water-based Emulsion

Water-based emulsion adhesives such as urethane-based water emulsions,

Natural adhesive

Starch

Glutinous rice paste

glue

Seaweed grass.

The inorganic aggregate is

Foam fired ceramic crushed material to about 1000 ~ 1200 degrees

Pearl Rock Foaming Particle,

Vermiculite foam particles,

Obsidian foam particles,

Hornblende foam particles,

Songji Stone Foaming Particle,

Feldspar foam particles,

As organic aggregate

Paper shredding: grinding or pulverizing paper.

Wood pulverized material: ground wood

Wood fiber: obtained by dividing wood materials. Etc.

Other inorganic raw materials

Ceramic powders that emit far infrared rays include jade powder, charcoal powder, illite powder, elvan powder, ocher powder and the like.

Also, as a physical admixture

By further adding various metallic oxides including blast furnace slag, fly ash, silica fume, iron oxide, zinc oxide, etc., mechanical properties such as workability, durability, and adhesion can be enhanced.

Then, the following method for producing a wet environment-friendly composition using the above-described raw materials and

It will be described in detail how to manufacture an environmentally friendly prefabricated panel using the environmentally friendly composition.

a.Inorganic binders (liquid sodium silicate, sodium silicate cement, incomplete gel silicate) alone or in combination

Inorganic aggregates (pearlite, vermiculite, feldspar, obsidian, songji, hornblende, etc.) or organic aggregates (paper, wood, or wood fibers alone or in combination) alone or in combination .

(E.g. inorganic binder + inorganic aggregate, inorganic binder + organic aggregate, inorganic binder + inorganic aggregate + organic aggregate)

b. In organic binders (acrylic-based emulsions, vinyl acetate-based emulsions, epoxy-based emulsions, urethane-based aqueous emulsions, starch paste, glutinous paste, glue, seaweed paste alone or mixed or copolymerized)

  Inorganic aggregates (pearlite, vermiculite, feldspar, obsidian, songji, hornblende, etc. alone or mixed) or organic aggregates (paper mill, wood mill, wood mill mill or mixed) alone or mixed which.

(Example: organic binder + inorganic aggregate, organic binder + organic aggregate, organic binder + inorganic aggregate + organic aggregate)

c. one or more inorganic binders (liquid sodium silicate, sodium silicate cement, incomplete gel silicate)

Organic binder (acrylic-based aqueous emulsion, vinyl acetate-based aqueous emulsion, epoxy-based aqueous emulsion, urethane-based aqueous emulsion, starch paste, glutinous rice paste, glue, seaweed paste alone or mixed or copolymerized) Aggregate (pearl stone, vermiculite, feldspar, obsidian, songji stone, hornblende foam particles alone or in combination) used in combination.

(Example: inorganic binder + organic binder + inorganic aggregate)

d. At least one inorganic binder (liquid sodium silicate, sodium silicate cement, incomplete gel silicate) alone or in combination

Organic binders (acrylic-based emulsions, vinyl acetate-based emulsions, epoxy-based emulsions, urethane-based emulsions, starch paste, glutinous rice paste, glue, seaweed paste alone or mixed or copolymerized) Combination of at least one aggregate (paper mill, paper fiber, wood mill, wood mill alone or mixed)

(E.g. inorganic binder + organic binder + organic aggregate)

e. Use ocher powder, branch clay powder, kaolin powder, gypsum powder alone

Or a mixture of two or more of the above and water.

(E.g., ocher, etc.)

f. Use ocher powder, branch clay powder, kaolin powder, gypsum powder alone or

Or a mixture of two or more of the above and an organic binder (acrylic-based emulsion, vinyl acetate-based emulsion, epoxy-based emulsion, urethane-based emulsion, starch paste, glutinous rice glue, glue, seaweed paste alone or mixed or copolymerized) or water In a binder prepared by mixing

Inorganic aggregates or organic aggregates used alone or in combination.

(E.g. ocher + water + inorganic aggregate, ocher + water + organic aggregate, ocher etc + water + inorganic aggregate + organic aggregate)

Using the raw material to produce an environmentally friendly composition and environmentally friendly assembly panel according to the present invention.

Hereinafter, detailed examples will be described in detail.

The a is, for example , inorganic binder + inorganic aggregate, inorganic binder + organic aggregate, inorganic binder + inorganic aggregate + organic aggregate)

A) a liquid sodium silicate prepared with 35% of the above polysilicon silicate

Foamed firing at a high temperature of about 1,200 ° C. or higher to pass through the 1mm ~ 1.5mm sieve foamed pearl cancer particles are uniformly mixed in a volume ratio 1: 3 to prepare a wet composition.

In addition, the composition is filled into a molding die,

Rapidly heating the filling to a temperature of about 700 ~ 1000 ℃ at the same time with a pressure of 10kg per 1m3,

The heated molding is dried at room temperature for 2 to 3 hours or

Or by microwave irradiation 3 ~ 5 minutes to the microwave around 700 ~ 1000 ℃ to prepare a prefabricated panel, which is a molded product of a thickness of 40mm ~ 70mm by completely drying and curing.

B) To the incomplete gel silicate prepared by mixing liquid sodium silicate and boric acid made of 35% polybasic silicate in a volume ratio of 1: 0.06.

A wet composition is prepared by uniformly mixing the mixed particles of foamed pearl rock and foamed vermiculite with foam firing at a high temperature of about 1200 ° C. and passing through a 1 mm to 1.5 mm sieve in a volume ratio of 1: 3.

Filling the composition in the molding die,

Rapidly heating the filling to a temperature of about 700 ~ 1000 ℃ at the same time with a pressure of 10kg per 1m3,

The heated molding is dried at room temperature for 2 to 3 hours or

Or by microwave irradiation 3 ~ 5 minutes to the microwave around 700 ~ 1000 ℃ to prepare a prefabricated panel, which is a molded product of a thickness of 40mm ~ 70mm by completely drying and curing.

C) To sodium hydroxide silicate prepared by mixing liquid sodium silicate and zincification in a ratio of 1: 0.5 by volume.

A wet composition is prepared by uniformly mixing a mixture prepared by mixing wood pulverized with foamed obsidian particles passing through a 1 mm to 1.5 mm sieve at an equal volume ratio in a volume ratio of 1: 3. .

Filling the composition in the molding die,

Rapidly heating the filling to a temperature of about 70 ~ 200 degrees Celsius at the same time with a pressure of 10 kg per 1m3,

The heated molding is dried at room temperature for 2 to 3 hours or

Or by microwave irradiation of 3 ~ 5 minutes microwave around 70 ~ 200 ℃ to prepare a prefabricated panel, which is a molded product of a thickness of 40mm ~ 70mm.

Heat treatment for drying in the a), b), c) is

As to enhance the water resistance of the sodium silicate which is the starting material of all the adhesive,

This is due to the thermochemical properties of the liquid sodium silicate,

At temperatures around 200 degrees Celsius, about 95% of water is dehydrated.

Vitrification proceeds at temperatures around 600-1,000 degrees

It uses the feature of 100% dehydration at temperatures above 1,000 degrees Celsius.

In other words, when the H 2 O in the sodium silicate present as the binding water is dehydrated, the SiO 2 tetrahedron aggregates to form a strong film, which causes the sodium silicate to have water resistance.

On the other hand, the sodium silicate cement has strong water resistance when heated to a temperature of about 70 degrees Celsius.

* The heating time is variable depending on the heating method, about 3 to 5 minutes when heating using a microwave,

About 30 minutes when using a normal heating device,

When left at room temperature it takes about 2-3 hours.

The b is (organic binder + inorganic aggregate, organic binder + organic aggregate, organic binder + inorganic aggregate + organic aggregate)

A) an acrylic water-based emulsion prepared with 50% solids

It is foamed and fired at a high temperature of about 1000 to 1200 degrees Celsius, and uniformly mixes the foamed pine stone particles having a volume ratio of 1: 3 in a volume ratio of 1: 3 to produce a wet composition.

After the composition was injected into a mold and molded by applying a pressure of 10 kg per 1m3,

Dry at room temperature,

Alternatively, moldings with a thickness of 40 mm to 70 mm are heated and dried for about 1 to 2 hours at 100 to 150 degrees Celsius or 10 to 15 minutes at 150 degrees Celsius using microwaves in consideration of the heat resistance temperature of the organic binder for rapid drying. A prefabricated panel is prepared.

B) unsaturated polyesters and

A mixture of foamed pearlite particles and foamed pinestone particles, which are foamed and fired at a high temperature of about 1200 ° C. and passes through a 1 mm to 1.5 mm sieve, is mixed at a volume ratio of 1: 3.

A small amount of the curing agent is mixed uniformly to prepare a wet composition.

Injecting the composition into a mold, pressurized to 10kg per 1m3 to prepare a molding,

Heat and harden and dry the above at a temperature of 100-150 degrees for 1-2 hours,

The prefabricated panel, which is a molded product having a thickness of 40 mm to 70 mm, is manufactured by heating and drying the microwave at about 150 ° C. for 10 to 15 minutes.

C) Copolymer emulsion prepared by copolymerizing urethane-based emulsion to enhance the adhesion of acrylic-based emulsion

It is a mixture of foamed pearl rock particles and foamed pinestone particles which are fired at a high temperature of about 1000 to 1200 degrees and passes through a 1 mm to 1.5 mm sieve.

Paper shredding

Mix in volume ratio 2: 4: 1,

A small amount of the curing agent is mixed uniformly to prepare a wet composition.

Injecting the composition into a mold, pressurized to 10kg per 1m3 to prepare a molding,

The above is cured and dried at room temperature to prepare a prefabricated panel of a molded product having a thickness of 40mm ~ 70mm.

C is (inorganic binder + organic binder + inorganic aggregate)

A) a mixed emulsion is prepared by uniformly mixing 35% solid silicate cement and 50% solid acetate acetate emulsion in a volume ratio of 1: 1;

The mixed emulsion and foaming pearl cancer particles which are fired at a high temperature of about 1200 ° C. and passed through a 2 mm sieve are mixed in a volume ratio of 1: 3 to prepare a wet composition.

Injecting the composition into a mold, and heated to a pressure of 10kg per 1m3 and a temperature of about 200 degrees Celsius to prepare a molding,

Curing and drying the above at room temperature,

Heat-dry around 200 ° C to prepare a prefabricated panel, which is a molding having a thickness of 40mm to 70mm.

D is (inorganic binder + organic binder + organic aggregate)

A) a mixed emulsion is prepared by uniformly mixing 35% solid silicate cement and 50% solid acetate acetate emulsion in a volume ratio of 1: 1;

A wet composition is prepared by mixing the mixed emulsion and wood chips passing through a 4 mm sieve in a volume ratio of 1: 3.

Injecting the composition into a mold, and heated to a pressure of 10kg per 1m3 and a temperature of about 200 degrees Celsius to prepare a molding,

Curing and drying the above at room temperature,

Heat and dry for 1 to 2 hours at around 200 ° C to manufacture a prefabricated panel, which is a molding having a thickness of 40mm to 70mm.

E is (ocher, water, ocher, etc.)

A) ocher powder, water and

Ocher powder and water were mixed in a volume ratio of 3: 1 to prepare a wet composition.

After filling the composition in the mold, and fixed to the shape by applying a pressure of 10kg per 1m3,

In order to dry or harden the molded product for the rapid drying and curing of the molded product for 1 to 2 hours at a temperature of about 150 ~ 200 degrees to prepare a prefabricated panel.

The f is (ocher + organic binder + inorganic aggregate, ocher etc + organic binder + organic aggregate, ocher + organic binder + inorganic aggregate + organic aggregate)

A) Wet composition is prepared by mixing gypsum powder, vinyl acetate-based emulsion, and foamed pearl rock particles passing through a 2 mm sieve at a high temperature of about 1000 to 1200 degrees C. in a volume ratio of 1: 1: 2.

After the composition was injected into a mold and molded by applying a pressure of 10 kg per 1m3,

Leave gypsum for about 1 hour at room temperature,

In order to induce rapid drying and curing after curing, the prefabricated panel, which is a molded product having a thickness of 40 mm to 70 mm, is prepared by heating and curing for about 1 to 2 hours at about 150 to 200 degrees Celsius.

The environmentally friendly composition and the method for manufacturing the eco-friendly assembly panel manufactured using the eco-friendly composition have been described in detail.

However, it is preferable that the mixing ratio and drying temperature and time of each raw material described in the specific manufacturing examples described above can be changed to meet the requirements and working conditions for the purpose.

More than,

Wet environment-friendly composition manufactured through the a ~ f is to be poured through the device for placing on the relevant surface of the construction site,

Eco-friendly prefabricated panel manufactured using the composition is placed and arranged by placing a predetermined rule on the laminated surface to be constructed,

In the case where an additional lamination part is to be configured at the top of the pour surface or the seating surface,

After the casting surface is completely dried and cured, the bottom structure of the multilayer structure is completed by repeating the process of pouring the wet composition or laminating the prefabricated panel in the same manner as described above.

On the other hand, at least one of the ceramic raw materials radiating far-infrared rays, which is beneficial to the human body, jade powder, charcoal powder, ganban stone powder, illite powder, ocher powder, etc. Will be able to provide

In addition, by adding blast furnace slag, fly ash, silica fume as admixture, it increases workability and mechanical strength,

If necessary, by introducing into various metal oxide admixtures, such as iron oxide, zinc oxide, etc. by manufacturing the environmentally friendly composition and eco-friendly assembly panel

High thermal efficiency can be expected by manufacturing by increasing the thermal conductivity and thermal insulation.

Hereinafter, the interlayer floor structure constructed by using the wet composition and the prefabricated panel according to the present invention.

It will be described once again through the drawings.

1 is a casting of a wet composition prepared according to each of the above a to f,

     Interlayer floor structure when using pipe type heating device as a component for heating,

Figure 2 is poured into the wet composition prepared according to each of the above a to f,

     Interlayer floor structure in case of using flat type heating device as a component

3 is an interlayer floor structure constructed by using a prefabricated panel manufactured using the wet composition as a component.

A) Floor finishing material in the above drawings

                    B) finishing mortar layer

                    C) pipe type heating or flat type heating

                    D) Lightweight layer (formerly foamed concrete layer)

                    ㅁ) Soundproof floor

                    바닥) Floor slab layer

                    ㅅ) The fixed layer of pipe type heating equipment laminated with prefabricated panels.

1, 2, and 3, each laminated part is a component selected from one of the a-f manufacturing raw material according to the present invention, each laminated part is laminated by being made of the same raw material or a release material by the selection of raw materials It will be constructed as a structure.

1, 2, and 3 b) and m) of the ondol layer, that is, a laminate in which a heating device is embedded,

Evenly supply the heat generated from the heating device to the entire bottom surface,

It is preferable to select as a raw material which shows high efficiency also in heat retention.

In addition, as a laminated part located closest to the human body, except for the finishing material,

It causes cement toxicity, one of the causes of sick house syndrome.

Therefore, it is preferable that this layer is comprised from the raw material with the least harmful to a human body.

In particular, at least one of the ceramic raw materials radiating far-infrared rays beneficial to the human body, such as jade powder, charcoal powder, ganban stone powder, illite powder, and ocher powder, may be added as a mixed material during manufacture of the composition to increase the benefit to the human body,

By adding a metal oxide, the thermal conductivity of the bottom surface can be evenly and quickly, and the insulation can be increased.

ㄹ) corresponds to the existing foam concrete layer as a heat insulating layer laminated on the lower end of the heating device.

This laminated part is a laminated part mainly constructed to prevent the loss of heating heat to the outside as much as possible, and is preferably made of a porous raw material having a high thermal insulation function.

Therefore, in the case of constituting the laminate by selecting one of a to f according to the present invention

Since the heat insulating layer is composed of the porous raw material as a component, it can provide high heat insulation and warmth.

In fact, the plate-shaped molded product made of the above expanded ceramic particles

It exhibits a similar level of thermal insulation to plate-shaped styrofoam moldings of the same specification,

Rather, it is shown that it has more than four times the efficiency of plate-shaped styrofoam moldings.

Meanwhile, in addition to the interlayer floor structure illustrated in FIGS. 1, 2, and 3, there are various interlayer floor structures, which are also included in the scope of application of the interlayer floor structure according to the present invention.

The above method provides an interlayer floor structure which is harmless to the human body by using an eco-friendly composition manufactured with the eco-friendly raw material according to the present invention as a main component.

By constructing an interlayer floor using a wet composition prepared with a natural raw material according to the present invention or a dry prefabricated panel prepared with the composition as a raw material,

To prevent harmful components from the bottom surface,

Increased heating efficiency can save fuel

The weight of the whole building is reduced by reducing the unit weight compared to the laminated part with the main component of the existing cement,

In particular, it is possible to provide a floor that generates far-infrared rays, which is beneficial to the human body,

In addition, there is an effect that the cause of environmental pollution due to post-waste waste is reduced.

In the current situation where the supply and demand of cement has emerged as a serious social problem, there is an effect to help the lack of cement by replacing the flooring with an environmentally friendly composition according to the present invention instead of cement mortar.

Claims (8)

All laminated parts of a floor structure constructed by using a wet composition manufactured by including aggregate, an adhesive, a chemical admixture, a physical admixture, etc. as a partial component, or a prefabricated panel manufactured by using the wet composition as a building material. Inorganic aggregates (including inorganic raw material powder) or organic aggregates used alone Or a mixture of one or more of the above Water-based emulsion of synthetic binder , which is an inorganic binder or an organic binder , Or a binder in which at least one binder is mixed; Or an environmentally friendly composition, which is prepared by mixing one or more of the binders prepared by copolymerizing two or more aqueous emulsions of the binder. An eco-friendly assembly panel manufactured using the eco-friendly composition as a raw material and the building comprising the interlayer floor structure and the eco-friendly floor structure, characterized in that constructed using the eco-friendly composition or the eco-friendly assembly panel. According to claim 1, Weapons Binder As containing sodium silicate, incomplete gel silicate silicate, sodium silicate cement, water (HO), Characterized in that it was made alone or mixed Eco-friendly composition and Eco-friendly assembly panel manufactured using the eco-friendly composition as a raw material and An interlayer floor structure and the building comprising the eco-friendly floor structure, characterized in that it is constructed using the eco-friendly composition or the eco-friendly assembly panel. According to claim 1, The organic binder aqueous emulsion Acrylic water-based emulsion, vinyl acetate water-based emulsion, epoxy water-based emulsion, urethane water-based emulsion, starch paste, glutinous rice paste, glue, seaweed paste Eco-friendly composition and The building comprising the eco-friendly assembly panel and the eco-friendly composition or the eco-friendly assembly panel manufactured by using the eco-friendly composition as a raw material, characterized in that the building comprising the floor structure and the eco-friendly floor structure. According to claim 1, Inorganic aggregate (or inorganic raw material powder) Pearlite, vermiculite, feldspar, obsidian, songji stone, hornblende, such as foam particles, loess powder, clay clay powder, kaolin powder, gypsum powder, lime powder Eco-friendly composition and The building comprising the eco-friendly assembly panel and the eco-friendly composition or the eco-friendly assembly panel manufactured by using the eco-friendly composition as a raw material, characterized in that the building comprising the floor structure and the eco-friendly floor structure. According to claim 1, Organic aggregate is an environmentally friendly composition characterized in that the paper mill, paper fibers, wood mill, wood fibers and The building comprising the eco-friendly assembly panel and the eco-friendly composition or the eco-friendly assembly panel manufactured by using the eco-friendly composition as a raw material, characterized in that the building comprising the floor structure and the eco-friendly floor structure. At the time of manufacturing the environmentally friendly composition of claim 1 Chemical admixtures or Characterized in that it is prepared by the addition of at least one inorganic admixture Eco-friendly composition and The building comprising the eco-friendly assembly panel and the eco-friendly composition or the eco-friendly assembly panel manufactured by using the eco-friendly composition as a raw material, characterized in that the building comprising the floor structure and the eco-friendly floor structure. The method of claim 6, The inorganic admixture Eco-friendly composition characterized in that it comprises at least one metal oxide, including blast furnace slag, fly ash, silica fume, iron oxide, zinc oxide and The building comprising the eco-friendly assembly panel and the eco-friendly composition or the eco-friendly assembly panel manufactured by using the eco-friendly composition as a raw material, characterized in that the building comprising the floor structure and the eco-friendly floor structure. According to claim 1 or 6, Characterized in that it comprises at least one of jade powder, charcoal powder, matte catalyst, illite powder, ganban stone powder which is a raw material that emits far infrared rays during the production of the environmentally friendly composition. Eco-friendly composition and The building comprising the eco-friendly assembly panel and the eco-friendly composition or the eco-friendly assembly panel manufactured by using the eco-friendly composition as a raw material, characterized in that the building comprising the floor structure and the eco-friendly floor structure.

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