KR102321911B1 - Apparatus and Method for Manufacturing Eco Mesh Conjugated with Photocatalyst - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing an eco-mesh combined with a photocatalyst and a manufacturing method thereof, comprising: a supply unit in which a wire mesh-shaped mesh is disposed in a roll shape wound a plurality of times and supplied by rotation; a binder immersion unit provided so that the mesh supplied from the supply unit is immersed in a binder solution while being unwound and wound in a roll form; a washing unit disposed on one side of the binder immersion unit and immersed in washing water while the mesh passing through the binder immersion unit is unwound and wound in a roll shape; a photocatalyst immersion unit disposed on one side of the washing unit, the mesh passing through the washing unit being immersed in the photocatalyst aqueous solution while being unwound and wound in a roll shape; a pressure heat treatment unit disposed on one side of the photocatalyst immersion unit and heat-treating the mesh passing through the photocatalyst immersion unit while pressurizing it to a preset temperature; And disposed on one side of the pressure heat treatment unit, the discharge unit wound in the form of a roll for discharging the mesh heat treated in the pressure heat treatment unit; an eco-mesh manufacturing apparatus coupled with a photocatalyst comprising a; and a manufacturing method using the manufacturing apparatus roll is about

Description

Apparatus and Method for Manufacturing Eco Mesh Conjugated with Photocatalyst}

The present invention relates to an apparatus for manufacturing an eco-mesh combined with a photocatalyst and a manufacturing method thereof, and more particularly, to a photocatalyst material that decomposes a material adsorbed on the surface by an oxidizing material generated by irradiation of ultraviolet rays through a chemical reaction. , a road that is a source of fine dust, an air pollutant, by presenting a structure that combines with a wire mesh type mesh used in road structures such as , guardrails, guardrail shading screens and shading plates, soundproof walls, road fences, and slope reinforcement fences. It relates to an apparatus for manufacturing an eco-mesh combined with a photocatalyst for purifying air pollution as it is removed by photocatalytic action in the present invention, and a method for manufacturing the same.

In general, air pollution refers to environmental pollution of the atmosphere caused by human activities, and the smoke generated from facilities such as large-scale chemical factories or thermal power plants contains carcinogens and substances directly harmful to the lungs and heart, which are harmful to the human body. Contamination occurred.

As such, toxic substances in the early stages of air pollution accumulate in the human body and the disease develops after several or several decades, so awareness of air pollution was insufficient. The installation of facilities is legalized, and air quality is improved by moving factories around the city on a large scale, while constantly measuring and managing air quality.

The smog phenomenon that causes large-scale casualties has been reduced, but due to the increase in automobiles with the development of society, automobile fumes are a major factor in air pollution The problem of damage caused by

In particular, fine dust has been designated as a class 1 carcinogen by the World Health Organization (WHO). Fine dust is an important issue worldwide, with 400,000 premature deaths in Europe and 620,000 premature deaths in India every year, more than 6 million deaths every year, and 92% of the world being affected by fine dust. one of the factors

Such fine dust is composed of nitrogen oxides 28%, volatile organic compounds 7%, sulfur oxides 37%, and primary fine dust 28%.

Nitrogen oxide (NOx) is most often generated in the process of burning fossil fuels, and it is mainly used in diesel fuel or in the exhaust gas of old automobiles and factory chimneys. The organic solvent sector such as washing facilities, laundry facilities, and road pavements and the amount of road transport pollution sources are increasing.

In order to remove such fine dust, fine dust reduction facilities such as artificial rainfall and washing water spray were operated, but as the effect was insufficient, air pollution was suppressed by reducing the causes of pollutants such as suppression of old vehicles. method is being used

Accordingly, there is an urgent need to develop a facility capable of removing fine dust by chemical reaction in road facilities that can cover the entire range while vehicles, which are the source of pollution, are operated and various pollutants remain. .

The present invention has been devised in accordance with the above-mentioned necessity, and an object of the present invention is to provide a wire mesh type mesh installed in road structures such as street lamps, guard rails, guard rail shading screens and shading plates, soundproof walls, road fences, and slope reinforcement fences. It proposes a structure that combines photocatalytic materials that decompose materials adsorbed on the surface by chemical reactions by oxidizing materials generated by UV irradiation, and removes air pollutants from the road, which is the source of fine dust, by photocatalysis. Accordingly, to provide an eco-mesh manufacturing apparatus combined with a photocatalyst for purifying air pollution and a manufacturing method thereof.

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood from the description below.

In order to achieve the above object, an apparatus for manufacturing an eco-mesh coupled with a photocatalyst according to an embodiment of the present invention includes: a supply unit in which a wire mesh type mesh is arranged in a roll shape wound a plurality of times and supplied by rotation; a binder immersion unit provided so that the mesh supplied from the supply unit is immersed in a binder solution while being unwound and wound in a roll form; a washing unit disposed on one side of the binder immersion unit and immersed in washing water while the mesh passing through the binder immersion unit is unwound and wound in a roll shape; a photocatalyst immersion unit disposed on one side of the washing unit, the mesh passing through the washing unit being immersed in the photocatalyst aqueous solution while being unwound and wound in a roll shape; a pressure heat treatment unit disposed on one side of the photocatalyst immersion unit and heat-treating the mesh passing through the photocatalyst immersion unit while pressurizing it to a preset temperature; and a discharge unit disposed on one side of the pressurized heat treatment unit and wound and discharged in a roll form, the mesh heat treated by the pressure heat treatment unit.

In addition, the supply unit, the mesh is rotated in the form of a roll wound a plurality of times, the supply roller is unwound supplied; a supply support roller that is disposed on one side of the supply roller and supports the supply direction while maintaining the tension of the mesh supplied from the supply roller; and a supply guide roller that is disposed on one side of the supply support roller and guides the mesh to be supplied to the binder immersion part.

In addition, the binder immersion unit is disposed on one side of the supply unit, the binder immersion tank in the form of a water tank having a binder immersion space in which the binder solution is contained inside the open top; a binder immersion roller in the form of a roller which is rotatably arranged in the form of a roller in which a part is contained in the upper portion of the binder immersion water tank, and the mesh supplied from the supply unit is immersed in an aqueous binder solution; and a binder guide roller disposed on one side of the binder immersion roller and guiding the mesh immersed in the binder immersion water tank to be supplied to the washing unit.

In addition, the aqueous binder solution may be in the form of an aqueous solution in which sodium hydroxide and a surfactant are mixed with water.

In addition, the washing unit may include: a washing immersion water tank in the form of a water tank disposed on one side of the binder immersion unit and having a washing immersion space in which washing water is contained inside an open top; a washing immersion roller in the form of a roller which is rotatably arranged in the form of a roller partially immersed in the upper part of the washing immersion water tank, and in which the mesh supplied from the binder immersion unit is immersed in washing water; and a washing guide roller disposed on one side of the washing immersion roller and guiding the mesh immersed in the washing immersion water tank to be supplied to the photocatalytic immersion unit.

In addition, the photocatalyst immersion unit, a photocatalyst immersion water tank disposed on one side of the washing unit, the photocatalyst immersion water tank having a photocatalyst immersion space in which the photocatalyst aqueous solution is contained inside the open top; and a photocatalyst immersion roller rotatably arranged in the form of a roller partially immersed in the upper portion of the photocatalytic immersion water tank, and a roller type photocatalyst immersion roller in which the mesh supplied from the washing unit is immersed in an aqueous photocatalyst solution.

In addition, the aqueous photocatalyst solution may be in the form of an aqueous solution in which titanium dioxide and water are mixed together.

In addition, the pressure heat treatment unit is disposed on one side of the photocatalyst immersion unit, and the mesh, which has been immersed in the photocatalyst immersion unit, is installed to press while passing through the abutting position at a predetermined interval in the form of a pair of rollers. a pressure heat treatment roller that is heated to a temperature and heat-treated under pressure; and a heating element disposed on one side of the pressure heat treatment roller and heated to a temperature at which the pressure heat treatment roller is heat treated.

In addition, the discharge unit, disposed on one side of the pressurized heat treatment unit, a discharge guide roller for guiding while maintaining the tension to the position where the heat-treated mesh is discharged; and a discharge roller disposed on one side of the discharge guide roller and collected and discharged while winding the heat-treated mesh.

In addition, the method for manufacturing an eco-mesh combined with a photocatalyst according to an embodiment of the present invention comprises: supplying a mesh supplied by rotation in a state in which the mesh in the form of a wire mesh is wound in a roll form; moving the supplied mesh to a binder immersion tank containing a binder aqueous solution and immersing the mesh in the binder aqueous solution; immersing the mesh in the washing water by moving the mesh immersed in the aqueous binder solution to a washing immersion tank containing the washing solution; moving the mesh immersed in the washing water to a photocatalyst immersion water tank and immersing the mesh in a photocatalyst aqueous solution; performing pressure heat treatment on the mesh while passing between the pair of pressure heat treatment rollers in which the mesh immersed in the photocatalyst solution is heated; and discharging the heat-treated mesh while winding it around a discharge roller.

And, in the step of immersing the mesh in the aqueous binder solution, the aqueous binder solution may be in the form of an aqueous solution in which sodium hydroxide and a surfactant are mixed with water.

In addition, in the step of immersing the mesh in the aqueous photocatalyst solution, the aqueous photocatalyst solution may be in the form of an aqueous solution in which titanium dioxide and water are mixed together.

Specific details for achieving the above object will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be configured in various different forms, and these embodiments allow the disclosure of the present invention to be complete and provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention.

According to one of the means for solving the problems of the present invention described above, according to an embodiment of the present invention, a wire mesh installed in road structures such as street lights, guard rails, guard rail light shields and light shielding plates, soundproof walls, road fences, and slope reinforcement fences By presenting a structure that combines a photocatalyst material that decomposes a material adsorbed on the surface by a chemical reaction by an oxidizing material generated by the irradiation of ultraviolet rays on a mesh in the form of a photocatalyst on the road, which is the source of fine dust, an air pollutant The photocatalyst to purify air pollution as it removes by action provides the combined effect.

1 is a configuration diagram showing an apparatus for manufacturing an eco-mesh to which a photocatalyst is combined according to an embodiment of the present invention.
2 is a process diagram illustrating a method for manufacturing an eco-mesh coupled with a photocatalyst according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as "connected" or "connected" with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

The suffixes "module" and "part" for the components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have a meaning or role distinct from each other by themselves. In addition, in order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

Hereinafter, detailed contents for practicing the present invention will be described with reference to the accompanying drawings.

1 is a configuration diagram showing an apparatus for manufacturing an eco-mesh to which a photocatalyst is combined according to an embodiment of the present invention.

Referring to Figure 1, the eco-mesh manufacturing apparatus 100 combined with the photocatalyst according to an embodiment of the present invention is a road such as a street light, a guard rail, a guard rail light blocking film and a light blocking plate, a sound barrier, a road fence, a slope reinforcement fence, etc. By binding a photocatalytic material to the mesh used for the structure, it is possible to directly improve air quality by adsorbing fine dust generated by vehicle soot on the road and chemically changing it into another material by a photocatalytic reaction.

In this photocatalytic reaction, when the photocatalyst material is used as titanium dioxide (TiO2), when ultraviolet light is irradiated, the materials adsorbed on the photocatalyst surface by strong oxidizing power such as hydroxyl radical and superoxide radical on the surface. It is a reaction that causes a chemical reaction with

Titanium dioxide (TiO2) is a photocatalyst that causes chemical change into completely different components (nitrates) by catalyzing nitrogen oxides (NOx) and volatile organic compounds (VOCs), which are the main causes of fine dust and ozone generated near the ground. Substances are washed down by rain to neutralize and affect air quality improvement.

In other words, it generates ozone, which is the cause of fine dust and photochemical smog, and converts nitrogen oxides (NOx) generated during fossil fuel combustion, diesel exhaust gas, and organic compounds (VOCs) generated from combustion materials in factories by photocatalytic reaction. can be effectively removed.

As described above, the mesh 10 to which the photocatalyst is coupled is installed in road facilities installed in the road network connecting each area, and exhaust gas is directly generated by the operation of a vehicle, and various air pollutants such as fine dust by chemical reaction , which is defined as an echo mesh below.

This, the photocatalyst combined eco-mesh manufacturing apparatus 100 is a supply unit 110, a binder immersion unit 120, a washing unit 130, a photocatalyst immersion unit 140, a pressurized heat treatment unit 150, and a discharge unit ( 160).

The supply unit 110 is provided so that the mesh 10 in the form of a wire mesh is disposed in the form of a roll wound a plurality of times and supplied by rotation.

The supply unit 110 includes a supply roller 111 , a supply support roller 112 , and a supply guide roller 113 .

The supply roller 111 is provided so that the mesh 10 is unwound and supplied while being rotated in a roll shape wound a plurality of times. That is, the supply roller 111 is provided in a form in which the mesh 10 in the form of a wire mesh is manufactured in the form of a plurality of wound rolls, so that the mesh roll is installed and can be unwound by rotation.

The supply support roller 112 is disposed on one side of the supply roller 111 and is provided to support in the supply direction while maintaining the tension of the mesh 10 supplied from the supply roller 111 .

The supply guide roller 113 is disposed on one side of the supply support roller 112 , and is provided to guide the mesh 10 to be supplied to the binder immersion unit 120 .

The binder immersion unit 120 is provided so that the mesh 10 supplied from the supply unit 110 is immersed in the binder solution while being unwound and wound in a roll shape.

The binder immersion unit 120 includes a binder immersion water tank 121 , a binder immersion roller 123 , and a binder guide roller 124 .

The binder immersion water tank 121 is disposed on one side of the supply guide roller 113 and is provided in the form of a water tank having a binder immersion space 122 in which an aqueous binder solution is contained inside an open top.

Such an aqueous binder solution is in the form of an aqueous solution in which sodium hydroxide and a surfactant are mixed with water. That is, the aqueous binder solution removes various oils and impurities attached to the surface during the manufacture of the mesh 10 with a surfactant, and performs surface treatment of the mesh 10 of a metal material to improve adhesion of the photocatalyst. By further removing the, it serves as a binder to improve the binding properties of the photocatalyst.

The binder immersion roller 123 is rotatably arranged in the form of a roller partially contained in the upper portion of the binder immersion water tank 121, and the mesh 10 supplied from the supply roller 111 is immersed in the binder solution. is provided with

The binder guide roller 124 is disposed on one side of the binder immersion roller 123 , and guides the mesh 10 immersed in the binder immersion water tank 121 to be supplied to the washing unit 130 .

The washing unit 130 is disposed on one side of the binder immersion unit 120 and is provided so that the mesh 10 passing through the binder immersion unit 120 is immersed in washing water while being unwound and wound in a roll shape.

The washing unit 130 includes a washing immersion water tank 131 , a washing immersion roller 133 , and a washing guide roller 134 .

The washing immersion water tank 131 is disposed on one side of the binder guide roller 124 and is provided in the form of a water tank having a washing immersion space 132 in which the washing water is contained inside the open top.

The washing immersion roller 133 is rotatably arranged in the form of a roller partially immersed in the upper part of the washing immersion water tank 131, and the mesh 10 immersed in the binder solution in the binder immersion roller 123 is immersed in the washing water. It is provided in the form of a roller. The washing immersion roller 133 removes impurities drawn to the surface through the reaction with the aqueous binder solution of the mesh 10 supplied through the binder guide roller 124 while passing through the washing water.

The washing guide roller 134 is disposed on one side of the washing immersion roller 133 , and guides the mesh 10 immersed in the washing immersion water tank 131 to be supplied to the photocatalytic immersion unit 140 .

The photocatalyst immersion unit 140 is disposed on one side of the washing guide roller 134, and the mesh 10 passing through the washing immersion water tank 131 is unwound and wound in the form of a roll and is immersed in the photocatalyst aqueous solution.

The photocatalyst immersion unit 140 includes a photocatalyst immersion water tank 141 and a photocatalyst immersion roller 143 .

The photocatalyst immersion water tank 141 is disposed on one side of the cleaning guide roller 134 and is provided in the form of a water tank having a photocatalyst immersion space 142 in which the photocatalyst aqueous solution is contained inside the open top.

This aqueous photocatalyst solution is in the form of an aqueous solution in which titanium dioxide and water are mixed together. That is, as the photocatalytic aqueous solution uses an aqueous solution in which titanium dioxide (TiO2), a material that performs a photocatalytic reaction, is mixed with water, when ultraviolet light is incident, various air pollutants contained in the atmosphere are decomposed and removed by a photocatalytic reaction. can

The photocatalyst immersion roller 143 is rotatably disposed in the form of a roller partially immersed in the upper part of the photocatalytic immersion water tank 141, and the mesh supplied from the washing unit 130 is provided in the form of a roller immersed in the photocatalyst aqueous solution. .

The pressure heat treatment unit 150 is disposed on one side of the photocatalyst immersion unit 140 , and is provided to heat-treat the mesh 10 passing through the photocatalytic immersion unit 140 while pressurizing it to a preset temperature.

The pressure heat treatment unit 150 includes a pressure heat treatment roller 151 and a heating body 152 .

The pressure heat treatment roller 151 is disposed on one side of the photocatalytic immersion roller 143, and the mesh 10 that has been immersed in the photocatalytic immersion water tank 141 is a pair of rollers in the form of a pair of rollers. It is installed to pressurize, is heated to a preset temperature, and is provided to heat-treat under pressure. That is, the pressure heat treatment roller 151 is pressed while passing the mesh 10 in which the photocatalyst is immersed at an abutting interval in a pair spaced apart at a predetermined interval, and a pair of rollers are provided in a heated state, so that the heat treatment can be performed at the same time. .

The heating body 152 is disposed on one side of the pressure heat treatment roller 151 and is provided to heat the pressure heat treatment roller 151 to a temperature at which the heat treatment is performed.

The discharge unit 160 is disposed on one side of the pressure heat treatment unit 150 , and the mesh heat treated in the pressure heat treatment unit 150 is wound and discharged in a roll shape.

This, the discharge unit 160 includes a discharge guide roller 161, and a discharge roller (162).

The discharge guide roller 161 is disposed on one side of the pressure heat treatment roller 151, and is provided to guide the heat-treated mesh 10 while maintaining tension to the discharge position.

The discharge roller 162 is disposed on one side of the discharge guide roller 161, and is provided to collect and discharge the heat-treated mesh 10 while winding it.

As described above, the produced mesh 10 is immersed in an aqueous binder solution for primary treatment, and immersed in an aqueous photocatalyst solution with impurities removed by washing. Accordingly, it is possible to manufacture a mesh with improved binding efficiency of the photocatalyst.

2 is a process diagram illustrating a method for manufacturing an eco-mesh coupled with a photocatalyst according to an embodiment of the present invention.

Referring to FIG. 2, the method for manufacturing an eco-mesh combined with a photocatalyst according to an embodiment of the present invention includes a mesh supply step (S10), a binder immersion step (S20), a washing immersion step (S30), and a photocatalytic immersion step (S40). , a pressure heat treatment step (S50), and a discharge step (S60).

The mesh supply step (S10) is a step of supplying the mesh 10 supplied by rotation in a state in which the mesh 10 in the form of a wire mesh is wound in a roll form.

That is, it is provided to be supplied while being guided by the supply guide roller 113 by rotation in a state in which the manufactured mesh 10 in the form of a roll is supported by the supply roller 111 .

The binder immersion step (S20) is a step in which the supplied mesh 10 is moved to the binder immersion water tank 121 containing the binder aqueous solution, and the mesh 10 is immersed in the binder aqueous solution.

That is, the mesh 10 supplied from the supply roller 111 is immersed in the binder aqueous solution contained in the binder immersion water tank 121 in the form of an aqueous solution in which sodium hydroxide and a surfactant are mixed with water, and various impurities inhibiting the binding of the photocatalyst and Contaminants aggregate to the surface.

The washing immersion step (S30) is a step of immersing the mesh 10 in the washing water by moving the mesh 10 immersed in the binder solution to the washing immersion water tank 131 containing the washing solution.

That is, the mesh 10 that has passed through the aqueous binder solution is immersed in the washing water to remove impurities and contaminants from the agglomerated surface by washing.

The photocatalyst immersion step (S40) is a step in which the mesh 10 immersed in the washing water is moved to the photocatalytic immersion water tank 141, and the mesh is immersed in the photocatalyst aqueous solution.

That is, the mesh 10 passing through the washing water is immersed in a photocatalytic aqueous solution in the form of an aqueous solution in which titanium dioxide and water are mixed, and the titanium dioxide component in which the photocatalytic reaction occurs is bonded to the surface.

The pressure heat treatment step (S50) is a step in which the mesh 10 immersed in the aqueous photocatalyst solution passes between a pair of heated pressure heat treatment rollers 151 while performing pressure heat treatment on the mesh 10.

That is, as the photocatalyst aqueous solution passes through the pressure heat treatment roller 151 provided with a pair of rollers on which the mesh 10 is heated, the immersed photocatalyst component is fixed to the mesh, thereby improving bonding performance.

The discharging step (S60) is a step of discharging the heat-treated mesh 10 while winding it around the discharging roller 162 .

That is, the photocatalyst component is wound on the discharge roller 162 in a state in which the photocatalyst component is fixed to the mesh 10 through heat treatment, and discharge is performed to complete the manufacture.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

<Explanation of symbols for main parts of the drawing>
10: mesh 100: manufacturing device
110: supply unit 111: supply roller
112: supply support roller 113: supply guide roller
120: binder immersion unit 121: binder immersion water tank
122: binder immersion space 123: binder immersion roller
124: binder guide roller 130: washing unit
131: washing immersion water tank 132: washing immersion space
133: washing immersion roller 134: washing guide roller
140: photocatalyst immersion unit 141: photocatalyst immersion water tank
142: photocatalyst immersion space 143: photocatalyst immersion roller
150: pressure heat treatment unit 151: pressure heat treatment roller
152: heating body 160: discharge part
161: discharge guide roller 162: discharge roller

Claims (12)

a supply unit in which a wire mesh type mesh is arranged in a roll form wound a plurality of times and supplied by rotation;
a binder immersion unit provided so that the mesh supplied from the supply unit is immersed in a binder solution while being unwound and wound in a roll form;
a washing unit disposed on one side of the binder immersion unit and immersed in washing water while the mesh passing through the binder immersion unit is unwound and wound in a roll shape;
a photocatalyst immersion unit disposed on one side of the washing unit, the mesh passing through the washing unit being immersed in an aqueous photocatalyst solution while being unwound and wound in a roll shape;
a pressure heat treatment unit disposed on one side of the photocatalyst immersion unit and heat-treating the mesh passing through the photocatalyst immersion unit while pressurizing it to a preset temperature; and
It is disposed on one side of the pressurized heat treatment unit, and a discharge unit for discharging the mesh heat-treated by the pressure heat treatment unit is wound in a roll shape and discharged.
The pressure heat treatment unit,
It is disposed on one side of the photocatalyst immersion unit, and the mesh, which has been immersed in the photocatalyst immersion unit, is installed to pressurize while passing through the abutting position at a predetermined interval in the form of a pair of rollers, heated to a preset temperature, and pressurized heat treatment pressure heat treatment roller; and
A heating element disposed on one side of the pressure heat treatment roller and heated to a temperature at which the pressure heat treatment roller is heat treated;
An eco-mesh manufacturing device combined with a photocatalyst.
The method of claim 1,
The supply unit,
a supply roller in which the mesh is unwound while being rotated in the form of a roll wound a plurality of times;
a supply support roller that is disposed on one side of the supply roller and supports the supply direction while maintaining the tension of the mesh supplied from the supply roller; and
A supply guide roller disposed on one side of the supply support roller and guiding the mesh to be supplied to the binder immersion part; including a
An eco-mesh manufacturing device combined with a photocatalyst.
The method of claim 1,
The binder immersion unit,
a binder immersion tank in the form of a water tank disposed on one side of the supply unit and having a binder immersion space in which an aqueous binder solution is contained inside an open top;
a binder immersion roller in the form of a roller which is rotatably arranged in the form of a roller in which a part is contained in the upper portion of the binder immersion water tank, and the mesh supplied from the supply unit is immersed in an aqueous binder solution; and
A binder guide roller disposed on one side of the binder immersion roller and guiding the mesh immersed in the binder immersion water tank to be supplied to the washing unit; including
An eco-mesh manufacturing device combined with a photocatalyst.
4. The method of claim 3,
The aqueous binder solution is in the form of an aqueous solution in which sodium hydroxide and a surfactant are mixed with water.
An eco-mesh manufacturing device combined with a photocatalyst.
The method of claim 1,
The washing unit,
a washing immersion water tank in the form of a water tank disposed on one side of the binder immersion part and having a washing immersion space in which washing water is contained inside an open top;
a washing immersion roller in the form of a roller which is rotatably arranged in the form of a roller in which a part is contained in the upper part of the washing immersion water tank, and in which the mesh supplied from the binder immersion unit is immersed in washing water; and
A washing guide roller disposed on one side of the washing immersion roller and guiding the mesh immersed in the washing immersion water tank to be supplied to the photocatalytic immersion unit;
An eco-mesh manufacturing device combined with a photocatalyst.
The method of claim 1,
The photocatalyst immersion unit,
a photocatalyst immersion water tank in the form of a water tank disposed on one side of the washing unit and having a photocatalyst immersion space in which the photocatalyst aqueous solution is contained inside the open top; and
A photocatalyst immersion roller in the form of a roller rotatably arranged in the form of a roller in which a part is contained in the upper part of the photocatalyst immersion water tank, and the mesh supplied from the washing unit is immersed in the photocatalyst aqueous solution; including
An eco-mesh manufacturing device combined with a photocatalyst.
7. The method of claim 6,
The photocatalyst aqueous solution is in the form of an aqueous solution in which titanium dioxide and water are mixed together.
An eco-mesh manufacturing device combined with a photocatalyst.
delete The method of claim 1,
The discharge unit,
a discharge guide roller disposed on one side of the pressure heat treatment unit and guiding while maintaining tension to a position where the heat-treated mesh is discharged; and
Discharge roller disposed on one side of the discharge guide roller, collecting and discharging while winding the heat-treated mesh;
An eco-mesh manufacturing device combined with a photocatalyst.
supplying the mesh supplied by rotation in a state wound in the form of a wire mesh in the form of a roll;
moving the supplied mesh to a binder immersion water tank containing a binder aqueous solution and immersing the mesh in the binder aqueous solution;
immersing the mesh in the washing water by moving the mesh immersed in the aqueous binder solution to a washing immersion tank containing the washing solution;
moving the mesh immersed in the washing water to a photocatalyst immersion water tank and immersing the mesh in a photocatalyst aqueous solution;
performing pressure heat treatment on the mesh while passing between the pair of pressure heat treatment rollers in which the mesh immersed in the photocatalyst solution is heated; and
Discharge while winding the heat-treated mesh on a discharge roller; including
A method for manufacturing an eco-mesh combined with a photocatalyst.
11. The method of claim 10,
In the step of immersing the mesh in the aqueous binder solution,
The aqueous binder solution is in the form of an aqueous solution in which sodium hydroxide and a surfactant are mixed with water.
A method for manufacturing an eco-mesh combined with a photocatalyst.
11. The method of claim 10,
In the step of immersing the mesh in the photocatalyst aqueous solution,
The photocatalyst aqueous solution is in the form of an aqueous solution in which titanium dioxide and water are mixed together.
A method for manufacturing an eco-mesh combined with a photocatalyst.

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