CN112624800A - Inorganic silicon mud foamed ceramic composite decorative board - Google Patents

Abstract

The invention discloses an inorganic silicon mud foamed ceramic composite decorative plate, which comprises a foamed ceramic plate and a substrate, wherein a groove is formed in the foamed ceramic plate, inorganic silicon mud coating slurry is filled in the groove, main components contained in the inorganic silicon mud coating slurry comprise refractory clay, diatomite and kaolin, and main components contained in the ceramic slurry comprise mixed mud, potassium sodium sand, medium-temperature sand, high-temperature sand and Longtian sand; according to the invention, the inorganic silicon slurry is added into the foamed ceramic plate, so that air purification is realized; eliminating peculiar smell; fire prevention and flame retardation; humidifying by breathing; sound absorption and noise reduction; the heat preservation insulates against heat and releases negative oxygen ion, when guaranteeing that the decorative board accords with above advantage, has solved the material and has probably fallen and lead to the problem of damage and injury, improves the environment and improves heat retaining performance, the material that solves simultaneously is scarce or limited problem.

Description

Inorganic silicon mud foamed ceramic composite decorative board

Technical Field

The invention belongs to the technical field of composite decorative plates, and particularly relates to an inorganic silicon mud foamed ceramic composite decorative plate.

Background

The composite decorative board is a common decorative board, is a board type made of 2 or more than 2 materials, and is usually in a double-sided sandwich structure. The interior is usually wood or density board, pastes the one deck decorative board externally, and in fact, the composite sheet has different categories, and the composite decorative board of different categories has different methods of making.

At present, the composite decorative plate material for building decoration and fitment is mainly stone material and ceramic tile, and has the main functions of decorating and fitment buildings and beautifying. But the stone and the ceramic tile have many defects, namely that the volume density is more than 2.0, the weight per square meter is more than 15 kg, the risk of falling is possible, the functions of improving the environment, preserving the heat and the like are not realized, and the limited natural resources such as natural stone, pottery clay and the like are needed for production.

Therefore, the inorganic silicon mud foamed ceramic composite decorative plate is provided to solve the problems in the prior art, so that the inorganic silicon mud foamed ceramic composite decorative plate has the following advantages: (1) air purification and peculiar smell elimination: the diatom ooze product has a unique molecular sieve structure, has extremely strong physical adsorption and ion exchange functions, can effectively remove harmful substances such as free formaldehyde, benzene, ammonia and the like in the air and odor generated by pets, smoking and garbage, and can purify indoor air; (2) fire prevention and flame retardation: the diatom ooze is made of inorganic materials, so that the diatom ooze is not combusted, no smoke harmful to human bodies can be emitted even if a fire disaster happens, and when the temperature is raised to 1300 ℃, the diatom ooze is only in a molten state, and smoke such as harmful gas and the like can not be generated; (3) humidifying by breathing: along with the change of the ambient air temperature in different seasons and in the morning and evening, the diatom ooze can absorb or release moisture, and automatically adjust the indoor air humidity to achieve relative balance, particularly in coastal cities and southern cities with humid air, the effect of adjusting the indoor air humidity is obvious, and the trouble brought to people by the humid air is reduced; (4) absorbing sound and reducing noise: the diatom ooze has a strong noise reducing function due to the molecular porous structure of the diatom ooze, can effectively absorb high-frequency sound bands harmful to human bodies, and has a low-frequency noise attenuating function; the effect of the stone slab is equivalent to more than 2 times of that of cement mortar and stone slabs with the same thickness, and simultaneously, the sound time can be shortened by 50 percent, and the harm of noise to human bodies is greatly reduced; (5) heat preservation and heat insulation: the diatomite which is the main component of the diatom ooze has low thermal conductivity, is an ideal heat preservation and insulation material, has very good heat preservation and insulation performance, and has the heat preservation effect 6 times that of cement mortar with the same thickness; (6) releasing negative oxygen ions: the unique molecular sieve structure of the diatom ooze can generate a waterfall effect after contacting with the moisture in the air, thereby continuously releasing negative oxygen ions beneficial to human bodies.

Disclosure of Invention

The invention aims to provide an inorganic silicon mud foamed ceramic composite decorative plate, which solves the problems that the prior art has a plurality of defects of stone and ceramic tiles, the volume density is more than 2.0, the weight per square meter is more than 15 kilograms, the inorganic silicon mud foamed ceramic composite decorative plate is likely to fall off, the environment is not improved, the heat preservation function is not realized, and the limited natural resources such as natural stones and pottery clay are needed for production.

In order to achieve the purpose, the invention adopts the following technical scheme:

the inorganic silicon mud foamed ceramic composite decorative plate comprises a foamed ceramic plate and a substrate, wherein a groove is formed in the foamed ceramic plate, inorganic silicon mud coating slurry is filled in the groove, and the main components contained in the inorganic silicon mud coating slurry comprise, by weight, 15-35 parts of refractory clay, 35-65 parts of kieselguhr and 10-20 parts of kaolin, 5-10 parts of montmorillonite powder, 5-15 parts of magnesium hydroxide powder, 2-5 parts of inorganic pigment and 5-10 parts of nano titanium dioxide;

the main components contained in the ceramic slurry comprise mixed mud, potassium sodium sand, medium-temperature sand, high-temperature sand and Longtian sand, the mixture ratio of the mixed mud to the medium-temperature sand to the mixed mud is 10-25 parts, the potassium sodium sand to the mixed mud is 8-12 parts, the medium-temperature sand to the mixed mud is 8-12 parts, the high-temperature sand to the mixed mud is 6-15 parts, and the Longtian sand to the mixed mud is 10-18 parts, and the thickness of a foamed ceramic plate prepared from the ceramic slurry is about 2 cm;

the manufacturing method of the inorganic silicon mud foamed ceramic composite decorative plate comprises the following steps:

s1, stirring the slurry, and mixing and stirring the inorganic silicon mud slurry according to the weight ratio and the conventional operation of the industry;

s2, spreading the base material to be flat according to the thickness required by the design;

s3, making patterns by multi-head program control equipment according to the designed program;

s4, starting a vibrating table to vibrate slightly to make the color slurry of the patterns or designs sink, and simultaneously making the whole surface more flat;

s5, moving out or stacking by a manipulator;

s6, drying, and performing rough grinding on the opened noodles;

s7, grinding to 300 meshes to repair the capillary pores;

s8, grinding the mending material by a 300-mesh resin grinding disc;

s9, cleaning, stacking and airing;

s10, grinding the obtained product to 3000 meshes after the density of the obtained product is required;

s11, sealing glaze and anti-fouling treatment;

and S12, packaging the finished product and warehousing.

Preferably, the method for manufacturing the inorganic silica layer includes the following steps: 15-35 parts of refractory clay, 35-65 parts of diatomite, 10-20 parts of kaolin, 5-10 parts of montmorillonite powder, 5-15 parts of magnesium hydroxide powder, 2-5 parts of inorganic pigment and 5-10 parts of nano titanium dioxide for later use; grinding 35-65 parts of diatomite and sieving with a sieve of 150 meshes and 300 meshes, and drying, wherein the water content is controlled to be less than or equal to 12%; putting the treated raw materials into a high-speed heating type mixer, pumping 5-15 parts by weight of modifier by a dosage pump, heating, stirring and reacting for 10-50min to ensure that the diatomite is uniformly dispersed in the network structure of the flexible fiber, continuously stirring and reacting for 15-30min, respectively washing for 2-3 times by using absolute ethyl alcohol and deionized water, removing the unreacted modifier, and preferably adding about 20% of water and stirring to obtain fluid slurry.

Preferably, the heating temperature is 60-120 ℃, the stirring speed is 500-2000rpm, the millstone type mixing mill comprises at least two pairs of millstone type shearing elements which are arranged in an intersecting way and at least 2 pairs of fluted disc type dispersing elements, the heating temperature is 50-80 ℃, and the stirring speed is 500-5000 rpm.

Preferably, the modifier is composed of wheat gluten, polyvinyl alcohol and polyacrylic acid according to the mass ratio of 2:1-2:0.4-0.1, and the toughening agent is one or more of dioctyl phthalate, vinyl acetate, stearate and poly-terephthalic acid dihexyl.

Preferably, the ceramic slurry layer further comprises auxiliary materials: 2-10 parts of talcum mud, 5-15 parts of Dongshan sand, 3-8 parts of potassium sand, 0.5-3 parts of sodium-aluminum sand, 1-5 parts of diluent and a little water-washing mud.

Preferably, the glue layer among the panel, the clamping plate and the substrate is a ceramic adhesive, the ceramic adhesive is one or more selected from boride, borate, silicate, phosphate glass powder and low-temperature glass powder, wherein the boride is diboron trioxide, and the borate is one or more selected from borax, zinc borate and sodium metaborate.

Preferably, the method for manufacturing the ceramic slurry layer includes the following steps: s1, blending; s2, ball milling; s3, sieving; s4, stirring; s5, spray granulation; s6, staling; s7, compacting and forming; s8, drying; s9, polishing; in the step of pressing and forming, the water content of the powder is 6.8-7.4%, and the grain composition of the powder is as follows: particles > 40 mesh: less than 2 percent; 60-mesh particles: 30-40%; 80-mesh particles: 45 to 55 percent; particles of < 100 mesh: less than 3 percent, and the sum of the particle contents of all the particle fractions is 100 percent. The parameters of the equipment for forming the pressed compact, pressure and the like can adopt the design which is commonly used in the industry.

Preferably, the ball milling process parameters are as follows: powder lot: water: grinding medium 1: 0.4-0.6: 2.4, the flow velocity of the slurry is 30-70 m/s; after ball milling, the 250-mesh screen residue of the slurry is 0.9-1.1%, and the specific gravity of the slurry is 1.69-1.74 g/ml.

The invention has the technical effects and advantages that: compared with the prior art, the inorganic silicon mud foamed ceramic composite decorative plate provided by the invention has the following advantages:

the inorganic silicon slurry is added into the foamed ceramic plate, so that the air is purified; eliminating peculiar smell; fire prevention and flame retardation; humidifying by breathing; sound absorption and noise reduction; the heat preservation insulates against heat and releases negative oxygen ion, when guaranteeing that the decorative board accords with above advantage, has solved the material and has probably fallen and lead to the problem of damage and injury, improves the environment and improves heat retaining performance, the material that solves simultaneously is scarce or limited problem.

Drawings

Fig. 1 is a schematic perspective view of the composite decorative board of the present invention.

In the figure: 1. a foamed ceramic plate; 2. a substrate; 3. a groove; 4. inorganic silicon mud coating slurry.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The specific embodiments described herein are merely illustrative of the invention and do not delimit the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an inorganic silicon mud foamed ceramic composite decorative plate shown in figure 1, which comprises a foamed ceramic plate and a substrate, wherein a groove is formed in the foamed ceramic plate, inorganic silicon mud coating slurry is filled in the groove, the main components contained in the inorganic silicon mud coating slurry comprise 15-35 parts of refractory clay, 35-65 parts of kieselguhr and 10-20 parts of kaolin, 5-10 parts of montmorillonite powder, 5-15 parts of magnesium hydroxide powder, 2-5 parts of inorganic pigment and 5-10 parts of nano titanium dioxide according to the weight part ratio;

the main components contained in the ceramic slurry comprise mixed mud, potassium sodium sand, medium-temperature sand, high-temperature sand and Longtian sand, the mixture ratio of the mixed mud to the medium-temperature sand to the mixed mud is 10-25 parts, the potassium sodium sand to the mixed mud is 8-12 parts, the medium-temperature sand to the mixed mud is 8-12 parts, the high-temperature sand to the mixed mud is 6-15 parts, and the Longtian sand to the mixed mud is 10-18 parts, and the thickness of a foamed ceramic plate prepared from the ceramic slurry is about 2 cm;

the manufacturing method of the inorganic silicon mud foamed ceramic composite decorative plate comprises the following steps:

s1, stirring the slurry, and mixing and stirring the inorganic silicon mud slurry according to the weight ratio and the conventional operation of the industry;

s2, spreading the base material to be flat according to the thickness required by the design;

s3, making patterns by multi-head program control equipment according to the designed program;

s4, starting a vibrating table to vibrate slightly to make the color slurry of the patterns or designs sink, and simultaneously making the whole surface more flat;

s5, moving out or stacking by a manipulator;

s6, drying, and performing rough grinding on the opened noodles;

s7, grinding to 300 meshes to repair the capillary pores;

s8, grinding the mending material by a 300-mesh resin grinding disc;

s9, cleaning, stacking and airing;

s10, grinding the obtained product to 3000 meshes after the density of the obtained product is required;

s11, sealing glaze and anti-fouling treatment;

and S12, packaging the finished product and warehousing.

Specifically, the method for manufacturing the inorganic silicon mud layer comprises the following steps: 15-35 parts of refractory clay, 35-65 parts of diatomite, 10-20 parts of kaolin, 5-10 parts of montmorillonite powder, 5-15 parts of magnesium hydroxide powder, 2-5 parts of inorganic pigment and 5-10 parts of nano titanium dioxide for later use; grinding 35-65 parts of diatomite and sieving with a sieve of 150 meshes and 300 meshes, and drying, wherein the water content is controlled to be less than or equal to 12%; putting the treated raw materials into a high-speed heating type mixer, pumping 5-15 parts by weight of modifier by a dosage pump, heating, stirring and reacting for 10-50min to ensure that the diatomite is uniformly dispersed in the network structure of the flexible fiber, continuously stirring and reacting for 15-30min, respectively washing for 2-3 times by using absolute ethyl alcohol and deionized water, removing the unreacted modifier, and preferably adding about 20% of water and stirring to obtain fluid slurry.

Specifically, the heating temperature is 60-120 ℃, the stirring speed is 500-2000rpm, the millstone type mixing roll comprises at least two pairs of millstone type shearing elements which are arranged in an intersecting way and at least 2 pairs of fluted disc type dispersing elements, the heating temperature is 50-80 ℃, and the stirring speed is 500-5000 rpm.

Specifically, the modifier is composed of wheat gluten, polyvinyl alcohol and polyacrylic acid according to the mass ratio of 2:1-2:0.4-0.1, and the toughening agent is one or more of dioctyl phthalate, vinyl acetate, stearate and poly-terephthalic acid dihexyl.

Specifically, the ceramic slurry layer further comprises auxiliary materials: 2-10 parts of talcum mud, 5-15 parts of Dongshan sand, 3-8 parts of potassium sand, 0.5-3 parts of sodium-aluminum sand, 1-5 parts of diluent and a little water-washing mud.

Specifically, the glue layer between the panel, the clamping plate and the substrate is a ceramic adhesive, the ceramic adhesive is one or more selected from boride, borate, silicate, phosphate glass powder and low-temperature glass powder, wherein the boride is diboron trioxide, and the borate is one or more selected from borax, zinc borate and sodium metaborate.

Specifically, the manufacturing method of the ceramic slurry layer comprises the following steps: s1, blending; s2, ball milling; s3, sieving; s4, stirring; s5, spray granulation; s6, staling; s7, compacting and forming; s8, drying; s9, polishing; in the step of pressing and forming, the water content of the powder is 6.8-7.4%, and the grain composition of the powder is as follows: particles > 40 mesh: less than 2 percent; 60-mesh particles: 30-40%; 80-mesh particles: 45 to 55 percent; particles of < 100 mesh: less than 3 percent, and the sum of the particle contents of all the particle fractions is 100 percent. The parameters of the equipment for forming the pressed compact, pressure and the like can adopt the design which is commonly used in the industry.

Specifically, the ball milling process parameters are as follows: powder lot: water: grinding medium 1: 0.4-0.6: 2.4, the flow velocity of the slurry is 30-70 m/s; after ball milling, the 250-mesh screen residue of the slurry is 0.9-1.1%, and the specific gravity of the slurry is 1.69-1.74 g/ml.

The structure principle is as follows: the inorganic silicon slurry is added into the foamed ceramic plate, so that the air is purified; eliminating peculiar smell; fire prevention and flame retardation; humidifying by breathing; sound absorption and noise reduction; the heat preservation insulates against heat and releases negative oxygen ion, when guaranteeing that the decorative board accords with above advantage, has solved the material and has probably fallen and lead to the problem of damage and injury, improves the environment and improves heat retaining performance, the material that solves simultaneously is scarce or limited problem.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. Inorganic silicon mud foamed ceramic composite decorative board, including foamed ceramic board and base plate, its characterized in that: the foamed ceramic plate is internally provided with a groove, inorganic silicon mud coating slurry is filled in the groove, the main components contained in the inorganic silicon mud coating slurry comprise 15-35 parts of refractory clay, 35-65 parts of diatomite and 10-20 parts of kaolin, 5-10 parts of montmorillonite powder, 5-15 parts of magnesium hydroxide powder, 2-5 parts of inorganic pigment and 5-10 parts of nano titanium dioxide according to the weight part ratio;

the main components contained in the ceramic slurry comprise mixed mud, potassium sodium sand, medium-temperature sand, high-temperature sand and Longtian sand, the mixture ratio of the mixed mud to the medium-temperature sand to the mixed mud is 10-25 parts, the potassium sodium sand to the mixed mud is 8-12 parts, the medium-temperature sand to the mixed mud is 8-12 parts, the high-temperature sand to the mixed mud is 6-15 parts, and the Longtian sand to the mixed mud is 10-18 parts, and the thickness of a foamed ceramic plate prepared from the ceramic slurry is about 2 cm;

the manufacturing method of the inorganic silicon mud foamed ceramic composite decorative plate comprises the following steps:

s1, stirring the slurry, and mixing and stirring the inorganic silicon mud slurry according to the weight ratio and the conventional operation of the industry;

s2, spreading the base material to be flat according to the thickness required by the design;

s3, making patterns by multi-head program control equipment according to the designed program;

s4, starting a vibrating table to vibrate slightly to make the color slurry of the patterns or designs sink, and simultaneously making the whole surface more flat;

s5, moving out or stacking by a manipulator;

s6, drying, and performing rough grinding on the opened noodles;

s7, grinding to 300 meshes to repair the capillary pores;

s8, grinding the mending material by a 300-mesh resin grinding disc;

s9, cleaning, stacking and airing;

s10, grinding the obtained product to 3000 meshes after the density of the obtained product is required;

s11, sealing glaze and anti-fouling treatment;

and S12, packaging the finished product and warehousing.

2. The inorganic silicon mud foamed ceramic composite decorative plate of claim 1, which is characterized in that: the manufacturing method of the inorganic silicon mud layer comprises the following steps: 15-35 parts of refractory clay, 35-65 parts of diatomite, 10-20 parts of kaolin, 5-10 parts of montmorillonite powder, 5-15 parts of magnesium hydroxide powder, 2-5 parts of inorganic pigment and 5-10 parts of nano titanium dioxide for later use; grinding 35-65 parts of diatomite and sieving with a sieve of 150 meshes and 300 meshes, and drying, wherein the water content is controlled to be less than or equal to 12%; putting the treated raw materials into a high-speed heating type mixer, pumping 5-15 parts by weight of modifier by a dosage pump, heating, stirring and reacting for 10-50min to ensure that the diatomite is uniformly dispersed in the network structure of the flexible fiber, continuously stirring and reacting for 15-30min, respectively washing for 2-3 times by using absolute ethyl alcohol and deionized water, removing the unreacted modifier, and preferably adding about 20% of water and stirring to obtain fluid slurry.

3. The inorganic silicon mud foamed ceramic composite decorative plate of claim 2, which is characterized in that: the heating temperature is 60-120 ℃, the stirring speed is 500-2000rpm, the millstone type mixing roll comprises at least two pairs of millstone type shearing elements which are arranged in an intersecting way and at least 2 pairs of fluted disc type dispersing elements, the heating temperature is 50-80 ℃, and the stirring speed is 500-5000 rpm.

4. The inorganic silicon mud foamed ceramic composite decorative plate of claim 2, which is characterized in that: the modifier is composed of wheat gluten, polyvinyl alcohol and polyacrylic acid according to the mass ratio of 2:1-2:0.4-0.1, and the toughening agent is one or more of dioctyl phthalate, vinyl acetate, stearate and poly-terephthalic acid dihexyl.

5. The inorganic silicon mud foamed ceramic composite decorative plate of claim 1, which is characterized in that: the ceramic slurry layer further comprises auxiliary materials: 2-10 parts of talcum mud, 5-15 parts of Dongshan sand, 3-8 parts of potassium sand, 0.5-3 parts of sodium-aluminum sand, 1-5 parts of diluent and a little water-washing mud.

6. The inorganic silicon mud foamed ceramic composite decorative plate of claim 1, which is characterized in that: the adhesive layer among the panel, the clamping plate and the substrate is a ceramic adhesive, the ceramic adhesive is one or more selected from boride, borate, silicate, phosphate glass powder and low-temperature glass powder, wherein the boride is diboron trioxide, and the borate is one or more selected from borax, zinc borate and sodium metaborate.

7. The inorganic silicon mud foamed ceramic composite decorative plate of claim 1, which is characterized in that: the manufacturing method of the ceramic slurry layer comprises the following steps: s1, blending; s2, ball milling; s3, sieving; s4, stirring; s5, spray granulation; s6, staling; s7, compacting and forming; s8, drying; s9, polishing; in the step of pressing and forming, the water content of the powder is 6.8-7.4%, and the grain composition of the powder is as follows: particles > 40 mesh: less than 2 percent; 60-mesh particles: 30-40%; 80-mesh particles: 45 to 55 percent; particles of < 100 mesh: less than 3 percent, and the sum of the particle contents of all the particle fractions is 100 percent. The parameters of the equipment for forming the pressed compact, pressure and the like can adopt the design which is commonly used in the industry.

8. The inorganic silicon mud foamed ceramic composite decorative plate of claim 6, which is characterized in that: the ball milling process parameters are as follows: powder lot: water: grinding medium 1: 0.4-0.6: 2.4, the flow velocity of the slurry is 30-70 m/s; after ball milling, the 250-mesh screen residue of the slurry is 0.9-1.1%, and the specific gravity of the slurry is 1.69-1.74 g/ml.

Images