KR101885599B1 - Keeping warm deck boards and fabricating method thereof - Google Patents

Abstract

The present invention relates to a building material and, more specifically, to a rigid heat insulating decoration board having a decoration function and used for the heat insulation of a building wall, and a method of manufacturing thereof. The heat insulating decoration board of the present invention includes: a heat insulating base; and decoration coating sprayed or painted on the outside of the heat insulating base, wherein the heat insulating base is produced in the weight ratio of 8.5 to 10.5 wt% of fly ash floating beads (FAFB), 30 to 35 wt% of closed cell perlite, 43 to 52 wt% of cement, 7 to 8.5 wt% of bentonite, 0.04 to 0.06 wt% of cellulose ether, 0.07 to 0.09 wt% of artificial fibers, 0.04 to 0.06 wt% of wood fibers, and 0.3 to 0.4 wt% of rubber powder. According to the present invention, the heat insulating base of the heat insulating decoration board is made by processing inorganic materials, has the advantages in hardness, heat insulation and relatively long service life, has a decoration layer formed by spraying and painting a predetermined pattern on the outer surface thereof such that the heat insulating board and decorative feature can be integrated, and can solve the problem that the organic heat insulating decoration board according to the prior art is heavy and easily separated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating decorative plate and a manufacturing method thereof, and more particularly, to a heat insulating decorative plate having a wall insulating and decorating function of a building and a manufacturing method thereof.

Architectural energy conservation is a major part of national enforcement and energy conservation policies and is an important part of the sustainable development of the national economy. Our country places great emphasis on building energy conservation and under the guidance of a series of national energy conservation policies, standards and compulsory provisions, energy conservation projects in our country are increasingly becoming more and more energy conservation standards are steadily rising, The compulsory requirement for the saving rate is not lower than 50%, and as the related data shows, the energy loss caused by the thermal conduction of the wall accounts for about 1/3 of the total consumption energy of the building, At the same time, traditional building warming materials have already failed to meet future developments.

Generally, it can be divided into two kinds of organic insulation material and inorganic insulating material as a material for saving the outer wall insulation of a building. The organic insulating material has a relatively good effect of fireproofing and thermal insulation, and its service life has been proved to be relatively short by use, and the insulating performance is steadily reduced with an increase in use time. Asbestos and glass products generally have a low unit weight, and they are used in a wide range of applications. In general, asbestos and glass products are low in unit weight, The pressure resistance strength is weak, and the application of the outer side protection construction is limited. Although the thermal conductivity of the water repellent pearlite plate is relatively low, such a product is easy to break, and the overall strength is poor. In addition, the production process of each inorganic thermal insulation material adopts the most non-sequential production method, and the production efficiency is relatively low.

It is required to satisfy the above performance requirements and to have a certain decorative property. Today, more and more insulation panels are in the trend of integrating thermal insulation, fireproofing and decoration. In the modern market, the heat plate which is generally seen is mainly the main type of processing. One is spraying the decorative layer on the outer side of the organic insulating plate to achieve a decorative effect by using the good adsorption of the organic material. However, such a decorative plate has technical problems such as an organic insulating plate. The other is to combine (combine) the decorative layer with the adhesive on the outer surface of the insulating plate made of inorganic material. However, there is a limit in that the adhesion of the inorganic heat insulating plate of the prior art is poor, There was a falling problem.

Korean Registered Patent No. 10-0444270 (August 03, 2004) Korean Patent Registration No. 10-0390061 (June 21, 2003) Korean Utility Model Registration No. 20-0386557 (June 01, 2005)

Disclosure of Invention Technical Problem [8] The present invention has been made in view of the above problems, and it is an object of the present invention to provide a heat insulating decorative plate having a lightweight, fireproof and heat insulating function.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

The present invention relates to a decorative base material and a decorative coating to be painted on the outside of the base material, wherein the base material is a foamed floating bead (FAFB) (8.5 to 10.5% by weight), a closed cell perlite From 0.07 to 0.09% by weight of woody fibers, from 0.04 to 0.06% by weight of woody fibers, from 0.04 to 0.06% by weight of woody fibers, from 35% to 35% by weight of cement, from 43 to 52% by weight of cement, from 7 to 8.5% by weight of bentonite, And 0.3 to 0.4% by weight of the rubber powder.

The thermal insulation base was composed of 9.5 wt% of FAFB, 34 wt% of waste pearlite, 48 wt% of cement, 7.88 wt% of bentonite, 0.05 wt% of cellulose ether, 0.08 wt% of manmade fiber, 0.05 wt% of wood fiber, % By weight.

The discarding efficiency of the discarded pearlite is not less than 97%.

And the disposal efficiency of the FAFB is 90% or more.

The cement is characterized by being a sulpoaluminate cement.

The viscosity of the cellulose ether is 80,000 to 100,000 cps.

The thermal insulation base may further include a net cloth installed inside.

And the sides of the insulating base are formed into grooves.

The decorative coating is characterized by being produced by blending a resin and a dye.

The heat insulating decorative plate may further comprise: (1) uniformly mixing FAFB, waste pearlite, cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder according to a predetermined weight ratio; (2) adding water to the mixture according to the step (1) and uniformly mixing the mixture to make a paste; (3) injecting the paste into the casting mold, solidifying the casting mold, curing the casting at 70 to 90 DEG C with steam, and removing the casting mold to obtain the required insulating base of the heat insulating decorative plate; (4) spraying a desired decorative coating according to a predetermined pattern and color on the outer layer of the thermal insulation base to obtain the thermal insulation decorative sheet.

The step (2) is characterized in that water is added to the water and the ash at a ratio of 1 to 1.3: 1.

The step (2) is characterized by further comprising the step of adding a small amount of air by adding water after mixing.

The step (3) further includes the step of installing a net cloth in the process of injecting the paste into the mold.

The step (4) is characterized in that the decorative coating is prepared by mixing a dye and a resin.

The step (4) is characterized in that the glaze is applied to the front surface of the heat-insulating decorative plate.

And the glaze is applied to the entire surface by adsorbing or adhering the pattern to the thermal insulation decorative plate.

According to the present invention, the heat insulating base of the heat insulating decorative plate is made of an inorganic material and has a merit that the hardness, the heat retention and the service life are comparatively long and the outer surface thereof has the decorative layer sprayed with the predetermined pattern, It is possible to integrate ornamentality, and the organic insulating decorative plate according to the prior art is heavy and has a useful effect of solving the problem of falling easily.

1 is a view showing a structure of a heat insulating decorative plate according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions will not be described in order to simplify the gist of the present invention.

Example  One

As shown in Fig. 1, the warming decorative plate according to the present embodiment includes a warming base 1 and a decorative coating 2 sprayed on the outer layer of the warming base 1.

The insulating base 1 according to the present embodiment is manufactured in the following weight configuration (weight ratio). That is, the heat-insulating decorative plate of this embodiment contains 8.5 wt% of FAFB (Fly Ash Floating Bead), 38 wt% of closed cell perlite, 43 wt% of sulfoaluminate cement, 8.5 weight%, Celluose Ether 0.04 weight%, man-made fiber 0.09 weight%, wood fiber 0.04 weight%, and rubber powder 0.4 weight%.

Here, the disposal efficiency of the discarded pearlite is 97% or more, the disposal efficiency of FAFB is 90% or more, and the viscosity of the cellulose ether is 80,000 cps.

The sides of the thermal insulation base 1 of this embodiment are formed into the grooves 4 and the connectors are inserted into the grooves 4 to fix the connection between the adjacent warming decorative plates and the connection between the warming decorative plate and the outer wall of the building .

Further, the decorative coating 2 of the present embodiment can be obtained by fabricating it according to a predetermined pattern and color by a dye and a resin.

Hereinafter, the manufacturing process of the warming decorative plate of this embodiment will be described in more detail.

(1) Mix FAFB, waste pearlite, sulfoaluminate cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder uniformly according to the selected weight ratio.

(2) Water is added to the mixture according to the above step (1) at a ratio of water and ash of 1.3: 1, and a small amount of air is introduced by mixing to uniformly mix into a paste.

(3) The paste is poured into a casting mold, followed by coagulation molding, curing by steam at 70 to 90 DEG C, and the casting mold is removed.

(4) The decorated decorative plate can be obtained by mixing and preparing the decorative coating required for Eek in a predetermined pattern and color, and spraying it on the outer layer of the insulating base (1).

Here, the thermal conductivity of the heat-retaining plate of this embodiment is 0.06 to 0.07 W / (mK), the dry density is 300 to 400 kg / cm ³ , and the water absorption rate is 1 to 3%.

Example  2

As shown in Fig. 1, the warming decorative plate according to the present embodiment includes a warming base 1 and a decorative coating 2 sprayed on the outer layer of the warming base 1.

The insulating base 1 according to the present embodiment is manufactured in the following weight configuration (weight ratio). That is, the heat-insulating decorative plate of the present embodiment is composed of 10.5% by weight of FAFB (Fly Ash Floating Bead), 30% by weight of closed cell perlite, 52% by weight of aluminoferrite cement, ), 0.06% by weight of cellulose ether (Celluose Ether), 0.07% by weight of man-made fibers, 0.06% by weight of wood fiber and 0.3% by weight of rubber powder.

Here, the disposal efficiency of discarded pearlite is 97% or more, the disposal efficiency of FAFB is 90% or more, and the viscosity of cellulose ether is 90,000 cps.

The insulating base 1 of the present embodiment further includes a netcloth 3 provided on the inner layer and the sides of the insulating base 1 are formed into a groove 4, So that the connection between the adjacent warming decorative plates and between the warming decorative plate and the exterior wall of the building can be fixed.

Further, the decorative coating 2 of the present embodiment can be obtained by fabricating it according to a predetermined pattern and color by a dye and a resin.

Hereinafter, the manufacturing process of the warming decorative plate of this embodiment will be described in more detail.

(1) Mix FAFB, waste pearlite, alumino ferrite cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder uniformly according to the selected weight ratio.

(2) Water is added to the mixture according to the above step (1) at a ratio of water and ash of 1.3: 1, and a small amount of air is introduced by mixing to uniformly mix into a paste.

(3) The paste is poured into a casting mold, followed by coagulation molding, curing with steam at 70 to 90 DEG C, and removing the casting mold to obtain the insulating base 1 whose sides are formed into the grooves 4. [

(4) The desired decorative coating is formulated according to the predetermined pattern and color, and sprayed on the outer layer of the thermal insulating base 1 to obtain the thermal insulating decorative material.

Here, the thermal conductivity of the heat-insulating decorative plate of this embodiment is 0.07 to 0.08 W / (mK), the dry density is 500 to 600 kg / cm ³ , and the water absorption rate is 5 to 7%.

Example  3

As shown in Fig. 1, the warming decorative plate according to the present embodiment includes a warming base 1 and a decorative coating 2 sprayed on the outer layer of the warming base 1.

The insulating base 1 according to the present embodiment is manufactured in the following weight configuration (weight ratio). That is, the heat-insulating decorative plate of the present embodiment contains 9.5 wt% of FAFB (Fly Ash Floating Bead), 34 wt% of closed cell perlite, 48 wt% of sulfoaluminate cement, 7.8% by weight, cellulose ether (Celluose Ether) 0.05% by weight, man-made fibers 0.08% by weight, wood fiber 0.05% by weight and rubber powder 0.34% by weight.

Here, the disposal efficiency of discarded pearlite is 97% or more, the disposal efficiency of FAFB is 90% or more, and the viscosity of cellulose ether is 100,000 cps.

The insulating base 1 of the present embodiment further includes a netcloth 3 provided on the inner layer and the sides of the insulating base 1 are formed into a groove 4, So that the connection between the adjacent warming decorative plates and between the warming decorative plate and the exterior wall of the building can be fixed.

Further, the decorative coating 2 of the present embodiment can be obtained by fabricating it according to a predetermined pattern and color by a dye and a resin.

Hereinafter, the manufacturing process of the warming decorative plate of this embodiment will be described in more detail.

(1) Mix FAFB, waste pearlite, sulfoaluminate cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder uniformly according to the selected weight ratio.

(2) Water is added to the mixture according to the above step (1) in a ratio of 1: 1 with water, and a small amount of air is introduced by mixing to uniformly mix and paste.

(3) A portion of the paste is poured into the corresponding mold, the net cloth 3 is placed, and the remaining paste is poured thereinto. After coagulation molding, the mold is cured at 80 DEG C, The insulating base 1 molded with the grooves 4 is obtained.

(4) The desired decorative coating is formulated according to the predetermined pattern and color, and sprayed on the outer layer of the thermal insulating base 1 to obtain the thermal insulating decorative material.

Here, the thermal conductivity of the heat-insulating decorative plate of this embodiment is 0.05 to 0.06 W / (mK), the dry density is 230 to 350 kg / cm ³ , and the water absorption rate is 0.5 to 2%.

Example  4

As shown in Fig. 1, the warming decorative plate according to the present embodiment includes a warming base 1 and a decorative coating 2 sprayed on the outer layer of the warming base 1.

The insulating base 1 according to the present embodiment is manufactured in the following weight configuration (weight ratio). That is, the heat-insulating decorative plate of the present embodiment contains 9 wt% of FAFB (Fly Ash Floating Bead), 36 wt% of closed cell perlite, 46 wt% of Portland cement, 8.2 wt% of bentonite , 0.045% by weight of cellulose ether (Celluose Ether), 0.085% by weight of manmade fibers, 0.045% by weight of wood fiber, and 0.37% by weight of rubber powder.

Here, the disposal efficiency of discarded pearlite is 97% or more, the disposal efficiency of FAFB is 90% or more, and the viscosity of cellulose ether is 80,000 to 100,000 cps.

The insulating base 1 of the present embodiment further includes a netcloth 3 provided on the inner layer and the sides of the insulating base 1 are formed into a groove 4, So that the connection between the adjacent warming decorative plates and between the warming decorative plate and the exterior wall of the building can be fixed.

Further, the decorative coating 2 of the present embodiment can be obtained by fabricating it according to a predetermined pattern and color by a dye and a resin.

Hereinafter, the manufacturing process of the warming decorative plate of this embodiment will be described in more detail.

(1) Mix FAFB, waste pearlite, Portland cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder uniformly according to the selected weight ratio.

(2) Water is added to the mixture according to the above step (1) at a ratio of 1.2: 1 of water and ash, and a small amount of air is introduced by mixing to uniformly mix and paste.

(3) A portion of the paste is injected into the corresponding model, the netcle 3 is installed, the remaining paste is injected, and the mixture is solidified. Then, the paste is cured at 80 DEG C, The insulating base 1 molded with the heat insulating base 4 is obtained.

(4) The desired decorative coating is formulated according to the predetermined pattern and color, and sprayed on the outer layer of the thermal insulating base 1 to obtain the thermal insulating decorative material.

Here, the thermal insulation plate of this embodiment has a thermal conductivity of 0.05 to 0.07 W / (mK), a dry density of 400 to 550 kg / cm ³ , and a water absorption of 2 to 4%.

Example  5

As shown in Fig. 1, the warming decorative plate according to the present embodiment includes a warming base 1 and a decorative coating 2 sprayed on the outer layer of the warming base 1.

The insulating base 1 according to the present embodiment is manufactured in the following weight configuration (weight ratio). That is, the heat-insulating decorative plate of this embodiment contains 10 wt% of FAFB (Fly Ash Floating Bead), 32 wt% of closed cell perlite, 50 wt% of sulfoaluminate cement, , 0.055% by weight of cellulose ether (Celluose Ether), 0.075% by weight of man-made fibers, 0.055% by weight of wood fiber and 0.32% by weight of rubber powder. At this time, the net cloth 3 is provided in the inner layer of the insulating base 1, and the anti-tensile strength is increased.

Here, the disposal efficiency of discarded pearlite is 97% or more, the disposal efficiency of FAFB is 90% or more, and the viscosity of cellulose ether is 80,000 to 100,000 cps.

The insulating base 1 of the present embodiment further includes a netcloth 3 provided on the inner layer and the sides of the insulating base 1 are formed into a groove 4, To fix the connection between the adjacent warming decorative plates and between the warming decorative plate and the outer wall of the building, and the groove (4) can be obtained by molding through a specific model in the molding process.

Further, the decorative coating 2 of the present embodiment can be obtained by fabricating it according to a predetermined pattern and color by a dye and a resin.

Hereinafter, the manufacturing process of the warming decorative plate of this embodiment will be described in more detail.

(1) Mix FAFB, waste pearlite, sulfoaluminate cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder uniformly according to the selected weight ratio.

(2) Water is added to the mixture according to the above step (1) in a ratio of 1: 1 with water, and a small amount of air is introduced by mixing to uniformly mix and paste.

(3) A portion of the paste is injected into the corresponding model, the net cloth 3 is installed, the remaining paste is injected, and the mixture is solidified. Then, the paste is cured at 85 캜, The insulating base 1 molded with the heat insulating base 4 is obtained.

(4) The desired decorative coating is formulated according to the predetermined pattern and color, and sprayed on the outer layer of the thermal insulating base 1 to obtain the thermal insulating decorative material.

Here, the thermal conductivity of the heat-insulating decorative plate of this embodiment is 0.06 to 0.07 W / (mK), the dry density is 400 to 600 kg / cm ³ , and the water absorption rate is 3 to 5%.

The heat-insulating decorative plate produced by the above-mentioned embodiment has an advantage that the hardness, the heat insulation and the service life are comparatively long, and the decorative layer is formed by spraying the predetermined pattern on the outer surface thereof, And the ornamental property can be unified, and the organic insulating decorative plate according to the prior art can be heavy and easily fall off.

The thermal insulating base of the present invention can be used as a main raw material for pearlite and FAFB as waste pellets, and can utilize both the waste pore structure and rubber powder as an inorganic additive to realize a high efficiency binder effect. Can be advantageously used for rapid molding and model removal and is commonly used with cellulose ether to strengthen the bonding of discarded pearlite and FAFB with other additives and to improve the warming effect by progressing the passive packing to the raw material, The decorative layer can be attached to the outside of the insulating base also by the spraying method, and the decorative property can be integrated with the insulating plate.

Further, the heat-insulating decorative plate of the present invention is advantageous in uniformly mixing each constitution in a wet state by using bentonite, and at the same time, has a certain protective insulating effect.

In addition, the heat-insulating decorative plate of the present invention has cement as a raw material and has a strong hydration function, and the added artificial fiber and wood fiber are advantageous for supporting and cracking in a wet state and a drying process.

In addition, since the heat insulating base of the present invention does not add a foaming agent and does not require high-temperature curing, but the step of passing air through the manufacturing process, the heat insulating plate has a plurality of pore structures, And then the same light weight and high efficiency of heat insulating purpose are realized.

In addition, the warming base of the present invention is characterized in that a netcloth is provided in the inner layer to further strengthen the anti-tensile strength of the warming decorative plate, to mold the side surface of the warming base into a groove, So that the connection between the adjacent warming decorative plates and between the warming decorative plate and the exterior wall of the building can be fixed.

Further, the method for manufacturing a decorative insulating plate of the present invention can increase the mechanical strength and toughness of the entire plate material and increase the anti-cracking property by curing at 70 to 90 ° C after coagulation molding.

In addition, in the heat insulating decorative plate of the present invention, the disposal efficiency of the discard pearlite is 97% or more, and the discarding efficiency of FAFB is 90% or more.

The heat-insulating decorative plate of the present invention is characterized in that all of the raw materials of the thermal insulation base are all inorganic raw materials and are characterized by non-toxicity, warmth, good heat resistance, high temperature resistance, nonflammability and high efficiency, When used as a heat insulating decorative plate for an outer wall, the warmth is not weakened by an increase in the use period, and the effect that the building and the life can be made equal can be achieved.

In addition, when the decorative coating is sprayed on the decorative plate of the present invention, it is lightweight, fireproof, and warming effect when used on the outer surface of the outer wall of the building, and the sprayed decorative layer still falls or becomes cloudy It has the same effect as a pottery.

Also, the thermal insulation plate of the present invention has a thermal conductivity of 0.05 to 0.08 W / (mK), a dry density of 300 to 400 kg / cm ³ , and an absorption rate of 0.5 to 7%, which is higher than the national standard.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, such modifications or variations should not be individually understood from the technical spirit and viewpoint of the present invention, and modified embodiments should be included in the claims of the present invention.

1: Insulation base
2: decorative coating
3: Netcloth
4: Home

Claims (16)

Comprising a thermal insulating base and a decorative coating sprayed on the outer side of the thermal insulating base,
The heat insulating base
, 8.5 to 10.5% by weight FAFB (Fly Ash Floating Bead), 30 to 38% by weight of closed cell perlite, 43 to 52% by weight of cement, 7 to 8.5% by weight of bentonite, 0.04 to 0.06% by weight of synthetic fibers, 0.07 to 0.09% by weight of synthetic fibers, 0.04 to 0.06% by weight of wood fibers, and 0.3 to 0.4% by weight of rubber powders. delete The method according to claim 1,
Wherein the disposal efficiency of the scrap iron pearlite is 97% or more. The method according to claim 1,
Wherein the disposal efficiency of the FAFB is 90% or more. The method according to claim 1,
Characterized in that the cement is a sulpoaluminate cement. The method according to claim 1,
Wherein the viscosity of the cellulose ether is 80,000 to 100,000 cps. 7. The method according to any one of claims 1 to 6,
Wherein the thermal insulation base further comprises a net cloth installed inside. 8. The method of claim 7,
Wherein a lateral side of the insulating base is formed into a groove. 9. The method of claim 8,
Wherein the decorative coating is formed by mixing a resin and a dye. A method of manufacturing a heat insulating decorative plate,
(1) uniformly mixing FAFB, waste pearlite, cement, bentonite, cellulose ether, man-made fiber, wood fiber and rubber powder according to the weight ratio described in claim 1;
(2) adding water to the mixture according to the step (1) and uniformly mixing the mixture to make a paste;
(3) injecting the paste into the casting mold, solidifying the casting mold, curing the casting at 70 to 90 DEG C with steam, and removing the casting mold to obtain the required insulating base of the heat insulating decorative plate;
(4) spraying a desired decorative coating according to a predetermined pattern and color onto the outer layer of the thermal insulation base to obtain the thermal insulation decorative sheet. 11. The method of claim 10,
Wherein the step (2) comprises adding water to the ash in a ratio of 1 to 1.3: 1. The method according to claim 10 or 11,
Wherein the step (2) further comprises the step of adding a small amount of air by mixing with water after the water is added. 11. The method of claim 10,
Wherein the step (3) further comprises the step of installing a net cloth in the process of injecting the paste into the mold. 11. The method of claim 10,
Wherein the step (4) is performed by mixing the decorative coating with a dye and a resin. 11. The method of claim 10,
Wherein the step (4) is performed by applying a glaze to the front surface of the heat-insulating decorative plate. 11. The method of claim 10,
Wherein the glaze is applied to the whole surface by adsorbing or adhering the pattern to the heat-insulating decorative plate.

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