KR100706268B1 - Construction finishing composition using scrapped dust of toner solidity and method of using the same - Google Patents

Abstract

Disclosed are a powder finishing composition and a method of using the same, comprising a fine waste powder of a binder used for the production of a toner and biotite powder as main components. To this end, a building using waste powder of a toner solid powder comprising 35 to 45 parts by weight of binder waste powder for toner, 35 to 45 parts by weight of mica powder, 5 to 10 parts by weight of zeolite powder and 5 to 10 parts by weight of potassium hydroxide powder. Provide the composition of the finishing composition. As described above, it has the effect of converting the waste powder for the toner binder conventionally discarded into a high value-added building finishing composition.

Solid for toner, binder for toner, mica, finish, recycling

Description

Composition for finishing building using waste powder of toner solids and method of using the same {CONSTRUCTION FINISHING COMPOSITION USING SCRAPPED DUST OF TONER SOLIDITY AND METHOD OF USING THE SAME}

1 is a flow chart of the method of using the building finishing composition according to an embodiment of the present invention

Figure 2 is an application state of the building finishing composition according to an embodiment of the present invention

* Explanation of symbols for the main parts of the drawings

1: composition layer

2: structural material

3: finishing material

The present invention relates to a composition for finishing a building made by recycling waste powder for a toner, specifically, to a wall surface and a floor of a building to emit negative ions and far infrared rays, and toner solids having excellent humidity control and deodorization functions. It relates to a composition for building finishing using the waste powder and its use method.

Generally, toner is manufactured to a desired particle size through a process of dispersing, heating and melting, cooling solidification, coarsely pulverizing, pulverizing and classifying raw materials such as a binder resin, a charge control agent, a colorant, and a release agent, to be used in a copying machine.

In the toner manufacturing process, a binder made of polyester resin is pulverized and used as a raw material of the toner. In the step of crushing the binder, a binder powder having a wide range of particle sizes is formed, and among the binder powders having a wide range of particle sizes, a binder powder corresponding to a particle size of a reference range is classified and used as a raw material of the toner. By the way, the binder powder finely ground than the particle size of the reference range can be pulverized and reused as a raw material of the toner, but the binder powder finely pulverized than the particle size of the reference range, that is, 180 mesh or more, is used to manufacture the toner. Since the process is not uniformly mixed with the pigment and the like, the situation is discarded as it is, there is a problem that environmental pollution occurs accordingly.

For example, Korean Patent No. 0541406 discloses an asphalt binder using waste toner as a modifier. However, this conventional technique is for recycling waste toner, and is not a technique for recycling waste powder for a toner.

In addition, Korean Patent No. 0539121 discloses a method of recycling waste toner powder uniformly dispersing waste toner powder in a solvent and containing surface modification and dispersant as a raw material for road use. However, this conventional technique is also for recycling waste toner, and is not a technique for recycling the waste powder for the toner.

In addition, Korean Patent No. 0275215 discloses a non-slip finish for construction consisting of a binder applied to the finish surface portion, and a glass bead integrally fixed before curing of the binder. However, such a non-slip finish for construction has a problem that the construction is difficult and the use range is limited.

Accordingly, a first object of the present invention is to provide a composition for building finishing using waste powder of a solid body for a toner, which is manufactured by using a finely divided binder powder of 180 mesh or more as a main raw material.

It is a second object of the present invention to provide a method of using a composition for building finishing using waste powder of a solid body for a toner manufactured using a binder powder pulverized more than 180 mesh as a main raw material.

In order to achieve the first object of the present invention, the composition for building finishing using the waste powder of the solid for toner according to an embodiment of the present invention is 35 to 45 parts by weight of the binder powder for toner of 300 to 350 mesh It comprises, 35 to 45 parts by weight of mica powder, 5 to 10 parts by weight of zeolite powder and 5 to 10 parts by weight of potassium hydroxide powder.

In order to achieve the above-described second object of the present invention, the method of using the composition for building finishing using the waste powder of the solid body for a toner according to an embodiment of the present invention is 180 mesh or more obtained in the grinding process of the toner binder Re-pulverizing the toner binder waste powder pulverized to form a toner binder waste powder of 300 to 350 mesh, 35 to 45 parts by weight of the binder powder for toner of 300 to 350 mesh, 35 to 45 weight of mica powder Part 5, 10 to 10 parts by weight of zeolite powder and 5 to 10 parts by weight of potassium hydroxide powder are uniformly mixed to prepare a building finishing composition in the form of a powder, kneading by mixing water of 60 to 80 ℃ to the building finishing composition And a step of finishing the kneaded building finishing composition on the bottom surface and the wall surface of the building.

In addition, in the composition for building finishing using the waste powder of the solid for toner, the average particle size of the mica powder is preferably 300 to 350 mesh. In addition, 0.4 to 0.6 parts by weight of at least one powder selected from the group consisting of tourmaline powder, precious stones powder and elvan powder in the step of mixing the toner binder waste powder, mica powder, zeolite powder and potassium hydroxide powder It may include.

In addition, in the method of using a building finishing composition using the waste powder of the solid toner, in the mixing kneading step of the building finishing composition 40 to 60 parts by weight of the building finishing composition, 40 to 60 parts by weight of water mixed Knead. In addition, sand and gravel 10 to 15 parts by weight of the building finishing composition may be further mixed and kneaded.

The composition for finishing a building using the waste powder of the solid toner according to the present invention, and a method of using the same, reduce the cost associated with the disposal of the waste powder of the toner binder by recycling the waste powder of the toner, which has been conventionally disposed, and reduce the environmental pollution. It can be prevented and has the effect of obtaining a high value-added building finishing composition.

With reference to a preferred embodiment will be described in detail the building finishing composition using the waste powder of the solid for toner according to the present invention.

In the present invention, among the binder powders of a wide range of particle sizes obtained by pulverizing and classifying a binder of a saturated polyester resin material, to obtain a binder powder that is finely ground than a particle size of the reference range, that is, a finely ground toner binder powder Toner binder waste powder of 300 to 350 mesh formed by pulverizing the binder powder for toner of 180 mesh or more is used as a main component.

When the average particle size of the toner binder waste powder included in the building finishing composition using the waste powder of the toner solid is less than 300 mesh, the physical properties of the building finishing composition kneaded with water decrease, and the binder waste powder for the toner When the average particle size of the particles exceeds 350 mesh, the physical properties of the building finishing composition no longer increase with respect to the cost of grinding the waste powder for the toner binder.

In addition, when the content of the waste toner binder powder included in the building finishing composition using the waste powder of the toner solid is less than 35 parts by weight, the bonding strength of the building finishing composition is lowered, and the content of the waste toner binder powder is 45 When it exceeds the weight part, the content of the mica powder is lowered, and the emission function of far infrared rays and anions of the building finishing composition is lowered.

35 to 45 parts by weight of the binder powder for toner as described above, 35 to 45 parts by weight of mica powder, 5 to 10 parts by weight of zeolite powder and 5 to 10 parts by weight of potassium hydroxide powder are uniformly mixed to obtain the waste powder of the solid for toner. Construct the composition for building finishing used.

In the present invention, the biotite, which is used as the main raw material of the building finishing composition together with the waste powder for the toner, is a material that emits 90% or more of far-infrared rays that promotes blood circulation and activates cellular activity of the human body, and emits various anions by emitting powerful anions. And the ability to adsorb harmful substances.

If the average particle size of the mica powder included in the building finishing composition using the waste powder of the toner solid is less than 300 mesh, the surface of the building finishing composition in the state of finishing the building is roughened, and the average particle size of the mica powder is 350 mesh If exceeded, the physical properties of the building finishing composition no longer increase with respect to the cost of grinding the mica powder.

In addition, when the content of the mica powder contained in the building finishing composition using the waste powder of the solid toner is less than 35 parts by weight, the function of releasing far infrared rays and anions of the building finishing composition is lowered, and the content of the binder waste powder for the toner When it exceeds 45 parts by weight, the content of the binder waste powder for toner is lowered and the bonding strength of the building finishing composition is lowered.

The zeolite used in the present invention is a porous crystal composed of silicon (Si) and aluminum (Al), and the bond of each atom is loosely crystallized structurally, so that even when releasing moisture filled therebetween at a high temperature, other fine particles The material can be adsorbed. It is used as an adsorbent by using this property, and it is used as a molecular sieve for separating particulates of different sizes. Specifically, it is widely used as a purifier and a filter device, a detergent deodorant, a CPU coolant, and a catalyst in the petrochemical industry. have.

When the content of the zeolite powder contained in the building finishing composition using the waste powder of the toner solid is less than 5 parts by weight, the adsorption power of the building finishing composition is lowered, and when the content of the zeolite powder exceeds 10 parts by weight, The building finishing composition is made porous and the physical properties are lowered.

In addition, in the present invention, potassium hydroxide is used to promote the dissolution of the above-mentioned mixture of the waste powder for toner, mica, zeolite and gelation in water.

When the content of the potassium hydroxide powder contained in the building finishing composition using the waste powder of the toner solid is less than 5 parts by weight, the mixture of the waste powder of the toner binder, biotite and zeolite does not gel properly, and the content of potassium hydroxide powder When it exceeds 10 parts by weight, the strength of the building finishing composition finished in the building is greatly reduced.

By the above content ratio, toner binder powder powder, mica powder, zeolite powder, potassium hydroxide powder is uniformly mixed to prepare a building finishing composition in a powder state.

In addition, the waste powder of the toner solid powder may be mixed with a binder powder for toner, mica powder, zeolite powder, and potassium hydroxide powder, optionally with one or more powders selected from the group consisting of tourmaline powder, gemstone powder, and elvan powder. The composition used for building finishing can be constructed.

Tourmaline is a silicate-based clay mineral that, when heated, releases a small amount of electricity and continuously releases negative ions.

Kiyoseki is the most antagonistic (24.140 ed / cc.sec) feldspar system that emits the best far-infrared radiation at 25 ° C. These ear stones have a high surfactant effect and increase alpha waves in brain waves, increase blood flow by 4.9%, and reduce blood flow rate by 7.2%.

Elvanite belongs to granite calcite among igneous rocks. Its main components are silicic anhydride and aluminum oxide, and it contains small amount of ferric oxide. It is composed of 30,000 to 150,000 holes per cm 3, and is highly adsorbable. It contains salts. It is used as a toxic metal remover because it exchanges heavy metals and ions, and it is known to emit far infrared rays when heat is applied to this rock. Because of these characteristics, it is used in various fields such as jjimjilbang, tableware, medical equipment.

Specifically, in the step of mixing the binder waste powder, mica powder, zeolite powder and potassium hydroxide powder for toner, at least one powder selected from the group consisting of tourmaline powder, precious stone powder and elvan powder, respectively 0.4 to 0.6 The parts by weight are further mixed to constitute the building finishing composition.

 The average particle size of the tourmaline powder, precious stone powder and elvan stone powder is used to be pulverized to 300 to 350 mesh, respectively.

When the content of the tourmaline powder included in the mixing step of the building finishing composition using the waste powder of the toner solid is less than 0.4 part by weight, the anion release function of the building finishing composition is lowered, and the amount of the precious stone powder is 0.4 part by weight. If less, the negative ion release function of the composition for building finishing is also lowered, and the adsorbing power of the building finishing composition is lowered if the content of the elvan powder is less than 0.4 part by weight. On the other hand, when the content of the tourmaline powder, jewels of lapis lazuli and elvan stone powder contained in the mixing step of the building finishing composition using the waste powder of the solid toner is more than 0.6 parts by weight, the bonding strength of the building finishing composition is lowered.

In addition, if the average particle size of the tourmaline powder, gemstone powder and ganban stone powder included in the mixing step of the building finishing composition using the waste powder of the toner solid body is less than 300 mesh, the building finishing composition in the state of finishing the building When the surface of the rough and the average particle size of the tourmaline powder, precious stone powder and elvan stone powder exceeds 350 mesh, the physical properties of the building finishing composition no longer increases with respect to the grinding cost of the powders.

In addition, with reference to the drawings will be described in detail step by step how to use the building finishing composition using the waste powder of the solid for toner according to another embodiment of the present invention.

1 is a flowchart illustrating a method of using a composition for finishing a building using waste powder of a solid body for a toner according to an embodiment of the present invention, and FIG. 2 illustrates a solid body for a toner according to an embodiment of the present invention. The application state of the building finishing composition using the waste powder is shown.

First, a binder waste powder for toner of 300 to 350 mesh is formed (step S10).

Specifically, in the process of forming the binder powder for toner, toner binder waste powder which is finely pulverized to 180 mesh or more is obtained, and the obtained toner binder waste powder of toner of 180 mesh or more is pulverized again to form 300 to 350 mesh toner. Prepare a binder waste powder for.

The waste toner binder powder, mica powder, zeolite powder and potassium hydroxide powder are mixed to form a building finishing composition using the waste powder of the solid toner (step S20).

Specifically, 35 to 45 parts by weight of the binder powder for toner of 300 to 350 mesh, 35 to 45 parts by weight of mica powder, 5 to 10 parts by weight of zeolite powder and 5 to 10 parts by weight of potassium hydroxide powder are uniformly mixed. To prepare a composition for building finishing using the waste powder of the solid.

When the average particle size of the toner binder waste powder included in the building finishing composition using the waste powder of the toner solid is less than 300 mesh, the physical properties of the building finishing composition kneaded with water decrease, and the binder waste powder for the toner When the average particle size of the particles exceeds 350 mesh, the physical properties of the building finishing composition no longer increase with respect to the cost of grinding the waste powder for the toner binder.

In addition, when the content of the waste toner binder powder included in the building finishing composition using the waste powder of the toner solid is less than 35 parts by weight, the bonding strength of the building finishing composition is lowered, and the content of the waste toner binder powder is 45 When it exceeds the weight part, the content of the mica powder is lowered, and the emission function of far infrared rays and anions of the building finishing composition is lowered.

If the average particle size of the mica powder included in the building finishing composition using the waste powder of the toner solid is less than 300 mesh, the surface of the building finishing composition in the state of finishing the building is roughened, and the average particle size of the mica powder is 350 mesh If exceeded, the physical properties of the building finishing composition no longer increase with respect to the cost of grinding the mica powder.

In addition, when the content of the mica powder contained in the building finishing composition using the waste powder of the solid toner is less than 35 parts by weight, the function of releasing far infrared rays and anions of the building finishing composition is lowered, and the content of the binder waste powder for the toner When it exceeds 45 parts by weight, the content of the binder waste powder for toner is lowered and the bonding strength of the building finishing composition is lowered.

In addition, if the content of the zeolite powder contained in the building finishing composition using the waste powder of the toner solids is less than 5 parts by weight, the adsorption power of the building finishing composition is lowered, and if the content of the zeolite powder exceeds 10 parts by weight, Finished building finishing composition is porous to reduce the properties associated with it.

In addition, when the content of the potassium hydroxide powder contained in the building finishing composition using the waste powder of the solid toner is less than 5 parts by weight, the mixture of the waste powder of the toner binder, biotite and zeolite is not dissolved in water, and the potassium hydroxide powder When the content of more than 10 parts by weight of the building finishing composition on the building is greatly reduced in strength.

40 to 60 parts by weight of 60 to 80 ℃ to 40 to 60 parts by weight of the building finishing composition in the form of powder prepared by the composition ratio as described above is kneaded uniformly (step S30).

In the process of kneading the building finishing composition as described above, if the temperature of the water mixed in the building finishing composition is less than 60 ℃ bond strength of the building finishing composition is not properly expressed, the temperature of the water to be mixed exceeds 80 ℃ The building finish is degraded.

In addition, in the process of kneading the composition for building finishing, if the content of the building finishing composition is less than 40 parts by weight and the content of water exceeds 60 parts by weight, the strength of the building finishing composition finished in the building is lowered, If the content is more than 60 parts by weight and the content of water is less than 40 parts by weight, the bonding strength of the kneaded finish composition is not sufficiently expressed.

Finishing the building composition kneaded as described above to a structural thickness of the building (2), that is, the bottom surface or wall to a certain thickness to form a composition layer (1) (step S40), optionally the composition layer (1) Form the finish 3 on the surface of the.

Since the bonding force is expressed in the composition layer 1 by the toner binder waste powder contained in the building finishing composition, the finishing material layer is bonded only by lightly contacting the finishing material 3 to the composition layer 1. can do.

In particular, in the case of finishing the building finishing composition on the floor surface of the building, it is preferable to treat the surface of the composition layer (1) with a finishing material (3) such as veneer or flooring in order to improve the feel and appearance of the residents. .

In addition, it is optionally kneaded by further mixing 10 to 15 parts by weight of sand, gravel to 100 parts by weight of the building finishing composition, and the kneaded building finishing composition may be finished to a constant thickness on the floor or wall surface of the building.

If the content of sand and gravel included in 100 parts by weight of the building finishing composition is less than 10 parts by weight, the humidity control action of the building finishing composition is not sufficient, and the content of sand and gravel included in 100 parts by weight of the building finishing composition. When it exceeds 15 parts by weight, the bonding strength of the building finishing composition is lowered, so that it is not properly finished.

As described above, the waste powder for the toner binder, which has been conventionally discarded, may be recycled and converted into a high value-added building finishing composition.

EXAMPLE

1) The saturated polyester resin obtained during the grinding of the solid body used for the toner was ground to about 325 mesh. In the same way, the mica and zeolite were ground to about 325 mesh, respectively.

2) 4 kg of the crushed saturated polyester resin, 4 kg of mica powder, 4 kg of zeolite, and 1 kg of potassium hydroxide were added to 10 kg of purified water and mixed uniformly.

3) The composition obtained in the above-described process was applied to the inside of a test box of a cube tongue with one side each having a width, length, and height of 1 m, and formed of cement, and then dried.

[Experiment 1]

The deodorizing performance inside the test box coated with the building finishing composition according to the embodiment was subjected to ammonia (NH3) deodorizing experiment based on KICM-FIR-1085 which is a deodorizing test method, and the results are shown in Table 1 below. It was.

<Table 1> Deodorization test results of the building finishing composition

division Ammonia Deodorization Experiment Elapsed time (minutes) Blank concentration (ppm) Sample concentration (ppm) Deodorization rate (%)  Experiment result 0 200 200 - 30 176 79 55.1 60 169 70 58.6 90 152 61 59.9 120 145 57 69.7

As shown in Table 1, the composition for building finishing according to the present invention was found to be excellent deodorizing function.

[Experiment 2]

In addition, the building finishing composition according to the embodiment was carried out based on anion radiation experiment based on KICM-FIR-1042 anion emission test method, the results are shown in Table 2 below.

Table 2 Anion Radiation Experiment Results of Building Finishing Compositions

division Experiment item Experiment result Anion generation amount (Ea / cc) Blank 75 sample 1053

As shown in Table 2, the building finishing composition according to the present invention was shown to emit a large amount of anions.

[Experiment 3]

In addition, the finishing composition for the building according to the embodiment was finished on the wall surface of the building and the formaldehyde emission amount was measured based on the method of measuring formaldehyde EPA8315A, it was found that no formaldehyde was released.

The building finishing composition using the waste powder of the solid toner according to the present invention can reduce the cost of waste disposal of the waste toner binder powder by recycling the waste powder of the toner and prevent environmental pollution, Has the effect of obtaining a composition for building finishing.

In addition, the finished composition on the building has the effect of radiating negative ions and far-infrared rays, deodorizing the odor of the building and controlling humidity and at the same time improving the moisturizing effect during heating.

While the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

Claims (8)

35 to 45 parts by weight of the binder powder for toner of 300 to 350 mesh; Mica powder 35 to 45 parts by weight; 5 to 10 parts by weight of zeolite powder; And Building finishing composition using the waste powder of the solid for toner comprising 5 to 10 parts by weight of potassium hydroxide powder. The composition of claim 1, wherein the average particle size of the waste powder for the toner binder is 300 to 350 mesh. The composition of claim 1, wherein the waste powder for the toner binder comprises saturated polyester. According to claim 1, The average particle size of the mica powder is a building finishing composition using the waste powder of the solid for toner, characterized in that 300 to 350 mesh. The waste powder of the solid for toner according to claim 1, further comprising 0.4 to 0.6 parts by weight each of at least one powder selected from the group consisting of tourmaline powder, precious stones powder and elvan stone powder. Composition for building finishing. The composition of claim 5, wherein the average particle size of the tourmaline powder, lapis lazuli powder and elvan stone powder is 300 to 350 mesh, respectively. Pulverizing the waste powder for the toner binder which has been pulverized more than 180 mesh obtained in the process of pulverizing the binder solid for the toner to form a binder powder for the toner of 300 to 350 mesh; 35 to 45 parts by weight of the binder powder for toner of 300 to 350 mesh, 35 to 45 parts by weight of mica powder, 5 to 10 parts by weight of zeolite powder and 5 to 10 parts by weight of potassium hydroxide powder are uniformly mixed to finish the building in powder form. Preparing a composition for the preparation; Kneading by mixing water of 60 to 80 ℃ to the building finishing composition; And Method of using a composition for building finishing using the waste powder of the solid for toner comprising the step of finishing the kneaded building finishing composition on the floor or wall surface of the building. The method of claim 7, wherein in the mixing kneading step of the building finishing composition 40 to 60 parts by weight of the building finishing composition, the mixed powder in the content of 40 to 60 parts by weight of water using the waste powder of the solid toner Method of use of the composition for building finishing.

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