KR20120139210A - The mortar composition for dry floor closing construction of structure - Google Patents

Abstract

PURPOSE: A mortar composition for dry floor final work of building capable of being applied dry grinding and a dry floor final work method of the building using the same are provided to obtain splendid floor and to enhance durability and economical efficiency. CONSTITUTION: A mortar composition for dry floor final work of building includes adhesive mixture and cement mixture at the weight ratio of 1:3-3:1. The adhesive mixture comprises 70-85 wt% of silicate, 5-20 wt% of glycerin, 5-20 wt% of zeolite, 2-17 wt% of stabilizer, 1-16 wt% of dispersing agent and 2-17 wt% of viscosity controlling agent. The silicate is one or more selected from sodium silicate, potassium silicate and lithium silicate. The cement mixture includes colored natural crushed stone having the size of 5-10 mm and white cement. A dry floor final work of building comprises the following steps: constructing and curing the mortar composition for dry floor final work of building; and absorbing dust by using a dust collector and performing dry grinding.

Description

Mortar composition for dry floor finishing of buildings and method for dry floor finishing of buildings using same

The present invention relates to a mortar composition for dry floor finishing of buildings and a dry floor finishing method of buildings using the same, and more particularly, at least one silicate selected from the group consisting of sodium silicate, potassium silicate and lithium silicate. 70? 85% by weight, glycerin 5? 20% by weight, zeolite 5? 20% by weight, stabilizer 2? 17 wt%, Dispersant 1? 16 weight% and viscosity modifier 2? A viscous mixture composed of 17% by weight; and a cement mixture obtained by mixing and mixing white cement and colored natural stalactites having a size of 5 to 10 mm in a weight ratio of 1: 3? 3: 1 mixing and curing in the ratio, and then dry grinding while absorbing the dust with a dust collector, so that the durability and beautiful floor surface can be easily and economically obtained mortar for dry floor finishing construction of buildings It relates to a composition and a method for constructing dry floor finishing of a building using the same.

In general, when concrete is poured, aggregates contained in concrete are settled and separated to cause bleeding, in which moisture rises, and bleeding brings up the fine powder containing concrete to the surface, and these fine powders Residual on the surface, there is a problem such as not only reduce the surface strength and wear resistance of the bottom layer, but also generate dust. In addition, a floor coating layer is formed on concrete floors of underground parking lots, factories, warehouses, etc. in order to reduce noise, reduce water resistance, and facilitate management.

The floor surface, which is always in contact with the human body, should have excellent performances such as texture, touch, and warmth, and should always be comfortable, and there should be no rebound or vibration.

Therefore, the surface of the floor surface may be mortar-coated on concrete slabs, artificial grind finishes, marble, granite, tile, etc., or floor-like wood commonly referred to as flooring, or vinyl, rubber, cork tile, etc. Synthetic resin products are bonded to the construction.

In particular, artificial stone finish finishing method provides many advantages over other floor finishing methods in terms of durability, non-combustibility, field applicability, workability, economy, maintainability, etc. In order to realize the external appearance of cement cement mortar mixed with a mixture of white cement and colored natural stalactite of 5 ~ 10mm in size, after applying and milling the surface, using a mill grinder to grind the thickness of 3 ~ 5mm To provide a beautiful floor.

However, the artificial stone grind finish method requires the use of a large amount of water in the surface polishing process, causing the problem of wastewater mixed with stone dust as well as harmful substances, the use is strictly controlled.

Under the current Water Quality Preservation Act, the enforcement of the on-site sewage method requires compliance with administrative procedures for reporting on wastewater generation, proper treatment facilities, management and implementation.

That is, the artificial stone finish has been widely used because of its excellent durability and economical efficiency compared to other finishing materials, but the existing artificial artificial stone finish has a large amount of waste water in the working process by using a grinding method to pour and polish water. Due to the flow, problems in the field construction management, such as contamination of other finishes, have been pointed out.In particular, the application of the site is legally regulated to prevent water pollution, which requires the development of new construction technology without waste water generation. It is true.

On the other hand, when the cement mortar surface is poured with water, abrasive dust is generated, which not only makes the working environment extremely deteriorated but also disturbs other operations, and when using a dry grinding method that does not use water, a very high frictional heat is used. Due to this, not only the abrasive stone is easily damaged, but also the mortar surface is damaged, and the working efficiency is inferior, so the abrasive stone used in the grinding work cannot be used for dry grinding, so it can withstand high frictional heat and dry grinding to improve the grinding efficiency. Grindstones suitable for the grinding method shall be used.

In addition, the cement mortar is inevitably generated by the air bubbles in the mortar due to the characteristics of the material, and when the surface of the mortar is polished, the bubble marks are exposed, so the bubble marks must be removed to secure the finish quality. In the existing method of dipping, the surface of the cement is wet with water sprayed during the grinding process.When you rub the cement powder in the process of grinding, the cement gets wet with water and bubbles are filled (eye filling), but the dry surface is filled with cement powder. There is a drawback to the special construction to fill the bubble marks on the dry surface as it comes out without support.

Therefore, the object of the present invention is not necessary for the construction of snow filling is not only possible to apply the dry grind method, but also for the construction of dry floor finishing of buildings that can provide a floor surface with no waste water generation, high durability, economical efficiency and beautiful surface It is to provide a mortar composition.

Another object of the present invention to provide a dry floor finishing method of building using the composition of the above object.

In order to easily accomplish the above-mentioned objects as well as other objects that can be easily expressed, the present invention includes at least one silicate 70? Selected from the group consisting of sodium silicate, potassium silicate and lithium silicate. 85% by weight, glycerin 5? 20% by weight, zeolite 5? 20% by weight, stabilizer 2? 17 wt%, Dispersant 1? 16 weight% and viscosity modifier 2? A viscous mixture composed of 17% by weight; and a cement mixture obtained by mixing and mixing white cement and colored natural stalactites having a size of 5 to 10 mm in a weight ratio of 1: 3? After mixing and constructing and curing in the ratio of 3: 1, dry dusting is performed while absorbing dust with a dust collector, so that a durable and beautiful bottom surface can be easily and economically obtained.

Mortar composition for dry floor finishing construction of the building and dry floor finishing method of the building using the same according to the present invention can be applied to dry grind, high durability and beautiful and easy to obtain the effect of excellent economic efficiency have.

Mortar composition for dry floor finishing construction of buildings according to the present invention is at least one silicate 70? Selected from the group consisting of sodium silicate, potassium silicate and lithium silicate. 85% by weight, glycerin 5? 20% by weight, zeolite 5? 20% by weight, stabilizer 2? 17 wt%, Dispersant 1? 16 weight% and viscosity modifier 2? A viscous mixture composed of 17 wt%; and a cement mixture obtained by mixing and mixing white cement and colored natural stalactites having a size of 5 to 10 mm in a weight ratio of 1: 3? It is characterized by mixing at a ratio of 3: 1.

In addition, the dry floor finishing method of the building according to the present invention is at least one silicate 70 ~ selected from the group consisting of sodium silicate, potassium silicate and lithium silicate. 85% by weight, glycerin 5? 20% by weight, zeolite 5? 20% by weight, stabilizer 2? 17 wt%, Dispersant 1? 16 weight% and viscosity modifier 2? A viscous mixture composed of 17% by weight; and a cement mixture obtained by mixing and mixing white cement and colored natural stalactites having a size of 5 to 10 mm in a weight ratio of 1: 3? It is characterized by mixing, constructing and curing at a ratio of 3: 1, and then performing dry grind while absorbing dust with a dust collector.

As the silicate used in the present invention, sodium silicate, potassium silicate, lithium silicate or a mixture thereof may be used, but is not particularly limited, and the molar ratio of SiO ₂ / M ₂ O (M is an alkali metal compound) is 1? It is preferable that it is 4.2 in terms of adhesiveness and workability. If the SiO ₂ / M ₂ O molar ratio is less than 1, there is a problem such as poor adhesion to concrete or detachment of the keystone or detachment of the keystone when the dry mortar composition for dry floor finishing is manufactured, and exceeds 4.2. There is a disadvantage in that the adhesiveness is excellent but workability is significantly worse.

In addition, sodium silicate in the silicate is a mixture of 1,300? It can be used by the dry method of manufacturing glass by melting it to a temperature of 1,500 ℃ and treating it in a low pressure autoclave, as well as the wet method of heating and melting colloidal silicic acid or diatomaceous earth sodium hydroxide in an autoclave. Do.

The silicate constituting the sticky mixture is 70? It is effective to use 85% by weight, and when the amount of silicate used is less than 70% by weight, the adhesiveness of the mortar composition for dry floor finishing manufactured is poor, resulting in poor adhesion to concrete or detachment of stones. In addition, when it exceeds 85% by weight, the adhesiveness is excellent, but workability is remarkably deteriorated.

On the other hand, titanium oxide and silane may be used to improve the adhesion of the silicates. That is, in the present invention, the titanium oxide and the silane may be additionally added not only to improve the initial adhesiveness but also to improve the final bonding strength, and the amount of each added is 0.1 to the silicate weight. 5% by weight is effective, when the amount of titanium oxide and silane is less than 0.1% by weight of silicate, respectively, the effect of addition is weak, and when the amount exceeds 5% by weight, the synergistic effect of addition is low and not economical.

The glycerin is used for crosslinking 5? It is preferable that 20% by weight is used, and when the amount of glycerin is less than 5% by weight, there is a disadvantage in that the mixing of the respective raw materials in the adhesive mixture is not homogeneous, and when it exceeds 20% by weight, the viscosity of the adhesive mixture is It is not preferable because the workability is lowered and the likelihood of solidifying the composition to be produced is increased.

Zeolites, on the other hand, are inert and harmless to the environment, and because they have a laminated structure, are non-abrasive and relatively ductile, which not only imparts very high initial tack to the tacky mixture, but also provide strong final bondability and dryness. To improve speed, 5? It is preferable that 20% by weight is used, and when the amount of zeolite is less than 5% by weight, the effect of addition is insignificant, and when it exceeds 20% by weight, there is a problem in that it is not economical because the effect of addition is weak.

In addition, the stabilizer is added to the structural stability of the mortar composition for dry floor finishing construction of the building according to the invention as well as the adhesive mixture 2? It is preferable to use 17% by weight, and if the amount used is less than 2% by weight, the prepared viscous mixtures and compositions are unstable, and when it exceeds 17% by weight, the synergistic effect of addition is weak and not economical.

The stabilizer may be selected through repeated experiments using stabilizers commonly used in the art to which the present invention pertains. In the present invention, a quaternary ammonium salt compound was used.

In the present invention, the dispersant improves the fluidity so that the components of the adhesive mixture and the composition can be uniformly dispersed to obtain a composition having a uniform viscosity. It is preferable to use 16% by weight, and when the amount is less than 1% by weight, the dispersibility of the components of the adhesive mixture and the composition is weak, so that the adhesive mixture is solidified or the viscosity of the composition is not uniform, resulting in a decrease in the homogeneity of the product. If the percentage is exceeded, the synergistic effect of the addition is weak and not economical.

The dispersant may also be selected through repeated experiments using dispersants commonly used in the art to which the present invention pertains. In the present invention, polyacrylate sodium salt is used.

On the other hand, the viscosity modifier is added to maintain the viscosity of the adhesive mixture and the mortar composition for dry floor finishing construction of buildings according to the invention 2? It is preferable to use 17% by weight, and if the amount is less than 2% by weight, the viscosity of the adhesive mixture and the composition to be prepared is low, which is not satisfactory in the expression of the function as a flooring material, and the likelihood that bubbles are generated is not preferable, 17 When it exceeds the weight%, there is a problem in that the prepared viscous mixture is solidified, and the synergistic effect of addition is weak, which is not economical.

Adhesive mixture composed as described above; and cement mixture mixed and stirred white cement and colored natural stalactite of 5 ~ 10mm in a weight ratio of 1: 3? It is mixed in a ratio of 3: 1 to prepare a mortar composition for dry floor finishing construction of buildings according to the present invention.

In the present invention, the adhesive mixture is used so as not to generate bubbles generated when only the cement is used. In other words, the viscous mixture is viscous as well as viscous, and is used as a substitute for the back cement. As the amount of back cement is reduced, bubbles are suppressed and viscous is exhibited. Do not occur.

In addition, the back cement is used as the main material for forming the floor, and it is 1: 10? It is effective to mix in the ratio of 2: 1. When the amount of colored natural dependency is increased or the amount of back cement is less than the above category, there is a problem that the colored natural dependency is desorbed, and when the amount of colored natural dependency is reduced or the amount of back cement exceeds the above category, the bottom grinds. There is a disadvantage that the bottom surface is not beautiful.

In addition, when the adhesive mixture is mixed with the cement mixture when the adhesive mixture is used in excess of the above range, the bottom surface after grinding is not beautiful or the strength of the bottom surface is lowered. There is a problem that the bubble marks are generated on the bottom surface after the ground grind.

On the other hand, by adding a pigment of various colors to the mortar composition for dry floor finishing construction of the building according to the present invention may give a color to the floor surface. As the pigment, all pigments commonly used in the art to which the present invention pertains may be used, and may be added by adjusting the amount of the pigment according to the desired color.

After preparing the mortar composition for dry floor finishing construction of the building according to the present invention by mixing the adhesive mixture and the cement mixture, and then washed with water after the concrete is poured and cured flooring 30? The mortar composition is applied and cured to a thickness of 70 mm. After curing is completed, dry grind while absorbing the dust with a dust collector to perform floor finishing. When the coating thickness of the mortar composition is less than 30mm, there is a disadvantage that the bottom finishing layer is separated or cracks occur after the bottom grind, and when the thickness exceeds 70mm, economical efficiency is significantly lowered.

In addition, when placing the mortar composition for dry floor finishing construction of the building according to the present invention two times, after placing once, after laminating the wire mesh, non-woven fabric of the mesh network structure or chemical fiber mesh network, and then again mortar It is also possible to prevent the bottom layer of the mortar layer from cracking by pouring and curing.

In addition, before placing the mortar composition for dry floor finishing construction of the building according to the invention various natural or artificial stone; After cutting glass or synthetic resin and arranging it in a specific pattern using a well-known cement mortar with strong adhesive strength, the mortar composition for dry floor finishing construction of the building according to the present invention is placed and cured on the remaining part, followed by dry grinding. Specific patterns can be formed on the face.

Namely, plutonic rocks such as granite, island rock, rock rock, nephrine sineite, diolite, gapbo, monzonite, and granodioriate; Volcanic rocks such as andesite and basalt; Aqueous rocks such as slate, sandstone, tuff and limestone; After the metamorphic rock such as marble, serpentine, etc. is cut to have a specific width, length and height, the mortar composition for dry floor finishing construction of the building according to the present invention may be arranged and bonded in a specific pattern using cement mortar. Glass or synthetic resin may be used instead of various natural or artificial stones.

The following examples illustrate the invention in more detail, but do not limit the scope of the invention.

Example  One

10 kg of liquid zeolite and 10 kg of glycerin were added to the stirrer, and the mixture was stirred at a low speed of 100 rpm or less to homogeneously mix the liquid zeolite and glycerin. Then, 75 kg of sodium silicate and stabilizer (quaternary ammonium salt: Trade name Lopon ST) 2 kg 1 kg of a dispersant (polyacrylic sodium salt: trade name Lopon 890) and 2 kg of a viscosity modifier (methyl cellulose) were added and stirred at a low speed of 100 rpm or less to prepare an adhesive mixture.

Separately, after mixing 100kg of white cement and 100kg of colored natural stone, mixed with the adhesive mixture prepared above to prepare a mortar composition for dry floor finishing construction of buildings according to the present invention.

The mortar composition for dry floor finishing construction of the building manufactured above is first applied to a thickness of 50 mm on the hardened floor surface and cured naturally for 3 days.

After natural curing was completed, dry grind while absorbing the dust with a dust collector, but the thickness was polished to 10mm to perform the floor finishing construction.

As a result of visual observation of the floor Madame construction surface, it was confirmed that the surface is not only beautiful but not bubble marks due to the colored natural stone.

In addition, after the concrete is laid so that the width × length × height is 100mm × 100mm × 10mm, and natural curing for 3 days to prepare concrete specimens, the mortar composition for dry floor finishing construction of the above building is applied to a thickness of 50mm 3 After natural curing for 10 days, after grinding 10mm, and measured the compressive strength and tensile strength, it was confirmed that it has a strength exceeding the reference value suitable for the floor finishing construction.

Claims (6)

At least one silicate 70 selected from the group consisting of sodium silicate, potassium silicate and lithium silicate; 85% by weight, glycerin 5? 20% by weight, zeolite 5? 20% by weight, stabilizer 2? 17 wt%, Dispersant 1? 16 weight% and viscosity modifier 2? A viscous mixture composed of 17 wt%; and a cement mixture obtained by mixing and mixing white cement and colored natural stalactites having a size of 5 to 10 mm in a weight ratio of 1: 3? Mortar composition for dry floor finishing construction of the building, characterized in that the mixing ratio of 3: 1.
The method according to claim 1, wherein the cement is colored 1: 1 to 2? Mortar composition for dry floor finishing construction of buildings, characterized in that the mixing ratio of 2: 1.
The mortar composition according to claim 1, wherein the pigment is additionally added.
At least one silicate 70 selected from the group consisting of sodium silicate, potassium silicate and lithium silicate; 85% by weight, glycerin 5? 20% by weight, zeolite 5? 20% by weight, stabilizer 2? 17 wt%, Dispersant 1? 16 weight% and viscosity modifier 2? A viscous mixture composed of 17% by weight; and a cement mixture obtained by mixing and mixing white cement and colored natural stalactites having a size of 5 to 10 mm in a weight ratio of 1: 3? 3. A method of constructing a dry floor finish of a building, characterized in that the mortar composition for dry floor finishing construction of a building mixed at a ratio of 1 to 1 is poured and cured, and then dry grind while absorbing dust with a dust collector.
The method of claim 4, wherein the mortar composition for dry floor finishing construction of the building is carried out twice, and after laying once, laminating one of wire mesh, nonwoven fabric of a mesh network structure or a chemical fiber mesh network, and then again mortar Dry floor finishing method of building, characterized in that the casting and curing.
The method according to claim 4, wherein the glass, synthetic resin, natural stone or artificial stone is cut and arranged in a specific pattern using cement mortar and bonded to the remaining part of the building and drying the mortar composition for dry floor finishing construction of the building Dry floor finishing method.