KR101810747B1 - resin coating device using functional macromolecule material - Google Patents

Abstract

The present invention relates to a resin coating apparatus using a functional polymer material,
A resin powder supply pipe to which resin powder is supplied;
An injection supply pipe for injecting the resin powder supplied through the resin powder supply pipe;
A heat generating space such as an electric heater or a gas burner which melts by the heat generated during the passage of the resin powder injected and supplied through the injection supply pipe;
A functional substance supply pipe to which the functional substance is supplied;
A three-way valve coupled to the functional material supply pipe and adapted to be switched to the first branch pipe on the front side or the second branch pipe on the rear side by adjusting the knob,
The spraying angle of the resin powder to be melted while spraying is maintained in a predetermined range to form a uniform coating layer while the functional material supplied through the first branch tube or the second branch tube is sprayed directly on the upper surface of the resin coating layer A coating material is formed on the surface of the resin powder so that the resin powder is coated on the surface of the substrate with a coating agent such as iron, shell, glass, quartz, fluorescent material, luminescent material, elvan, germanium, zeolite, tourmaline, The functional coating is formed on the resin coating layer.

Description

[0001] The present invention relates to a resin coating device using a functional macromolecule,

The present invention relates to a resin coating apparatus using a functional polymer material, and more particularly, to a resin coating apparatus using a functional polymer material, and more particularly, to a resin coating apparatus in which a mixed material containing a functional material is supplied to a resin powder, The powder is coated with the resin powder so that the resin powder is coated on the surface of the resin powder in the form of iron, shell, glass, quartz, fluorescent material, luminescent material, elvan, germanium, zeolite, tourmaline, A functional material such as an ultraviolet absorber synthesizing chemicals of cinnamate, homosalate and p-aminobenzoic acid, and an ultraviolet ray scattering agent which is a mineral substance of titanium dioxide, zinc oxide, magnesium oxide, kaolin and talc is used to roughen the surface, Reflects light, emits its own light when it receives light, To a resin coating apparatus using a functional high molecular material which allows the environment to be beneficial to the human body or to block harmful light such as ultraviolet rays.

Generally, a metal member, a concrete member, or the like is easily corroded by air, moisture, etc. To prevent this, a method of coating a surface of an object such as a metal member or a concrete member with a corrosion- .

Such a coating method includes a liquid coating method and a resin coating method in which a polymer resin in a powder state is heated at a high temperature to coat the liquid coating.

The liquid coating method is very complicated and takes a lot of time via the top, middle, and bottom surfaces, and also has a problem of causing environmental pollution because it uses volatile organic solvents.

The resin coating method can be improved in corrosion resistance compared to the liquid coating method, and is a method widely used recently because it has an advantage of being environment-friendly.

The resin coating method mainly uses a powder coating method in which the resin powder is heated and adhered to the surface of the object and a method in which the powder resin is dissolved and sprayed by thermal spraying of the polymer resin to coat the surface of the object. In order to spray onto the surface, a resin powder coating apparatus which is safe and easy to use is required.

Thus, the present applicant has proposed a resin powder coating apparatus (that is, a resin coating apparatus by thermal spraying) in which thermal efficiency is increased,

This is because the air flow path in which the air is supplied,

A fuel gas flow path through which the fuel gas is supplied, and a resin powder flow path through which the resin powder is supplied;

And a distributing means for distributing the heat uniformly and diverging forward so that the resin powder supplied from the resin powder flow path is melted by the heat generated by the combustion of the air and the fuel gas, .

However, the above conventional resin powder coating apparatus with increased thermal efficiency does not have a function of roughening the coating surface for slip prevention, a function of preventing glare by reflecting light, or a function of protecting the resin coating layer from ultraviolet rays, It has a disadvantage that it can not be used in a functional manner because it has only a function of protecting it.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for producing a resin powder by spraying resin powder and a functional material while spraying and supplying resin powder while passing through a heat generating space such as an electric heater or a gas burner, A functional material is sprayed on the upper surface of the substrate to coat the resin powder with a coating agent such as iron, shell, glass, quartz, fluorescent material, light emitting material, elvan stone, germanium stone, zeolite, tourmaline, A UV absorber synthesizing chemicals of avobenzone, octylmethoxycinnamate, homosalate and p-aminobenzoic acid, and a UV absorber which is a mineral substance of titanium dioxide, zinc oxide, magnesium oxide and kaolin and talc, The functional powdery beads which were hardened at the surface of the coating layer of the powder and co- To provide a resin coating device using the material for that purpose.

The present invention also provides a method of spraying a mixed material comprising a resin powder and a functional material to spray a predetermined amount of sprayed material through an exothermic space such as an electric heater or a gas burner, Zeolite, tourmaline, loess, oxybenzone and avobenzone, octylmethoxycinnamate, homosalate, and p-aminobenzoic acid, as well as the salts of these compounds. Ultraviolet absorbers synthesized from chemicals, and functional materials such as titanium dioxide, zinc oxide, ultraviolet scattering agent which is a mineral substance of magnesium oxide, kaolin and talc, are mixed and coated with the resin powder.

In order to achieve the object of the present invention, a resin coating apparatus using a functional polymer material,

A resin powder supply pipe to which resin powder is supplied;

An injection supply pipe for injecting the resin powder supplied through the resin powder supply pipe;

A heat generating space such as an electric heater or a gas burner which melts by the heat generated during the passage of the resin powder injected and supplied through the injection supply pipe;

A functional substance supply pipe to which the functional substance is supplied;

A three-way valve coupled to the functional material supply pipe and adapted to be switched to the first branch pipe on the front side or the second branch pipe on the rear side by adjusting the knob,

The spraying angle of the resin powder to be melted while spraying is maintained in a predetermined range to form a uniform coating layer while the functional material supplied through the first branch tube or the second branch tube is sprayed directly on the upper surface of the resin coating layer The coating of the resin powder can be used to coat the resin powder with a coating agent such as iron, shell, glass, quartz, fluorescent material, luminous material, elvan, germanium, zeolite, tourmaline, loess, oxybenzone and avobenzone An ultraviolet absorber synthesizing chemicals such as octyl methoxycinnamate, homosalate and p-aminobenzoic acid, and a UV absorber which is a mineral substance of titanium dioxide, zinc oxide, magnesium oxide, kaolin and talc, When roughening a surface, reflecting light, or emitting light, Or to protect the resin coating layer from harmful light such as ultraviolet ray.

As described above, in the resin coating apparatus using the functional polymer material according to the present invention,

The resin powder is melted while passing through a heat generating space such as an electric heater or a gas burner while injecting and spraying the resin powder and the functional material, and the functional material is injected at a predetermined injection angle, A functional material is sprayed on the surface of the resin coating layer so as to be solidified, thereby integrally coating the surface of the resin coating layer.

The top surface of the resin powder coating is coated with iron, shell, glass, quartz, fluorescent material, luminescent material, elvan, germanium, zeolite, tourmaline, loess, oxybenzone and avobenzone and octylmethoxycinnamate Functional materials such as ultraviolet absorbers synthesizing chemicals of homosalate and p-aminobenzoic acid, and ultraviolet scattering agents of titanium dioxide, zinc oxide, magnesium oxide, kaolin and talc, which are mineral substances, are hardened on the surface of the coating layer of the resin powder, Thereby maximizing the effect of the substance.

In addition, a mixed material obtained by mixing a resin powder and a functional material is injected and supplied, and is melted while passing through a heat generating space such as an electric heater or a gas burner, and is sprayed at a uniform spraying angle to be coated at the same time. Coating and permanently usable.

1 is a perspective view illustrating a structure of a resin coating apparatus using a functional polymer material according to an embodiment of the present invention.
2 is a cross-sectional view illustrating the structure of a resin coating apparatus using a functional polymer material according to an embodiment of the present invention.
3 is a perspective view illustrating a structure of a resin coating apparatus using a functional polymer material according to another embodiment of the present invention.
4 is a cross-sectional view illustrating the structure of a resin coating apparatus using a functional polymer material according to another embodiment of the present invention.

Hereinafter, a resin coating apparatus using a functional polymer material according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show a structure of a resin coating apparatus using a functional polymer material according to an embodiment of the present invention,

So that the resin powder is supplied through the resin powder feed pipe (2).

The resin powder is supplied to the resin powder feed pipe 2 at a predetermined pressure using the same power as the feed pump.

So that the resin powder supplied through the resin powder feed pipe 2 is injected from the first expanding portion 3.

So that the functional material is supplied through the functional material supply pipe 4.

Is switched and supplied to the first branch pipe (7) at the front side or the second branch pipe (9) at the rear side by the three-way valve (5) coupled to the functional material supply pipe (4).

The three-way valve 5 is switched and connected by the knob 6 to be connected to the functional substance supply pipe 4 and the first branch pipe 7 and sprayed and supplied to the second expanded portion 8 , And is connected to the second branch pipe (9) on the rear side so as to be jetted and supplied to the third expanded portion (10).

The functional material is supplied to the functional material supply pipe 4 at a predetermined pressure using a power such as a transfer pump.

The resin powder injected and supplied through the first expanded portion 3 is melted by the heat generated while passing through the heat generating space 13 such as an electric heater or a gas burner.

The spray angle of the resin powder sprayed and supplied while being melted by the cover 11 coupled to the front of the main body 1 is maintained at a constant center portion to form a uniform coating layer.

An insulating wall 12 is formed on the inner surface of the cover 11 to block the heat transfer to the outside while forming a melting space in a state surrounding the heat generating space 13 such as an electric heater or a gas burner.

The cooling air flowing through the cooling air supply pipe 14 of the main body 1 lowers the internal temperature of the main body 1 and is discharged through the cooling air discharge port 15 formed on the outer peripheral surface of the front side of the cover 11 Adjust the injection angle of resin powder and functional material to be sprayed.

The knob 6 is adjusted in accordance with the state in which the body 1 is moved backward or forward when the resin is coated on the functional material supply pipe 4 and the front side Is connected to the one-minute branch pipe (7) and injected or supplied to the second expanding portion (8), or connected to the second branch pipe (9) on the rear side to be injected and supplied to the third expanding portion (10).

Therefore, when the main body 1 moves backward while coating the resin powder, the functional material sprayed through the first branch pipe 7 on the front side is sprayed directly on the coated surface of the resin coating layer.

When the main body 1 is moved forward, the functional material injected through the second branch pipe 9 on the rear side is sprayed directly on the coated surface of the resin coating layer.

The functional material injected directly on the resin coating layer is solidified like a resin coating layer and integrally formed on the surface, maximizing the function of the functional material on the surface.

The functional material injected into the resin coating layer may be at least one selected from the group consisting of iron, shell, glass, quartz, fluorescent material, luminescent material, elvan, germanium, zeolite, tourmaline, ocheroxybenzone, avobenzone, octylmethoxycinnamate, And ultraviolet absorbers synthesizing chemicals of p-aminobenzoic acid, and ultraviolet scattering agents such as titanium dioxide, zinc oxide, magnesium oxide, kaolin and talc, which are mineral substances, can be used to roughen the surface of the resin coating layer, It is possible to emit intrinsic light when irradiated with ultraviolet light or to provide a beneficial environment to the human body or to protect the resin coating layer from harmful light of ultraviolet rays.

Hereinafter, the functional effects of the resin coating apparatus using the functional polymer material according to the present invention will be described.

The resin powder is supplied to the resin powder feed pipe 2 at a predetermined pressure by using the same power as the feed pump.

So that the resin powder supplied through the resin powder feed pipe 2 is injected from the first expanding portion 3.

Is switched and supplied to the first branch pipe (7) at the front side or the second branch pipe (9) at the rear side by the three-way valve (5) coupled to the functional substance supply pipe (4).

The three-way valve 5 is switched and connected by the knob 6 to be connected to the functional substance supply pipe 4 and the first branch pipe 7 and sprayed and supplied to the second expanded portion 8 , And is connected to the second branch pipe (9) on the rear side so as to be jetted and supplied to the third expanded portion (10).

The functional material is supplied to the functional material supply pipe 4 at a predetermined pressure using a power such as a transfer pump.

The resin powder injected and supplied through the first expanded portion 3 is melted by the heat generated while passing through the heat generating space 5 such as an electric heater or a gas burner.

The spray angle of the resin powder sprayed and supplied while being melted by the cover 11 coupled to the front of the main body 1 is maintained at a constant center portion to form a uniform coating layer.

An insulating wall 12 is formed on the inner surface of the cover 11 to block the heat transfer to the outside while forming a melting space in a state surrounding the heat generating space 13 such as an electric heater or a gas burner.

The cooling air flowing through the cooling air supply pipe 14 of the main body 1 lowers the internal temperature of the main body 1 and is discharged through the cooling air discharge port 15 formed on the outer peripheral surface of the front side of the cover 11 Adjust the injection angle of resin powder and functional material to be sprayed.

The knob 6 is adjusted in accordance with the state in which the body 1 is moved backward or forward when the resin is coated on the functional material supply pipe 4 and the front side Is connected to the one-minute branch pipe (7) and injected or supplied to the second expanding portion (8), or connected to the second branch pipe (9) on the rear side to be injected and supplied to the third expanding portion (10).

Therefore, when the main body 1 moves backward while coating the resin powder, the functional material sprayed through the first branch pipe 7 on the front side is sprayed directly on the coated surface of the resin coating layer.

When the main body 1 is moved forward, the functional material injected through the second branch pipe 9 on the rear side is sprayed directly on the coated surface of the resin coating layer.

The functional material injected directly on the resin coating layer is solidified like a resin coating layer and integrally formed on the surface, maximizing the function of the functional material on the surface.

The functional material sprayed on the upper surface of the resin coating layer may be at least one selected from the group consisting of iron, shell, glass, quartz, fluorescent material, luminous material, elvan stone, germanium, zeolite, tourmaline, loess, oxybenzone, An ultraviolet absorber synthesizing chemicals of tilmethoxycinnamate, homosalate and p-aminobenzoic acid and 5 to 40% by weight of a functional substance such as titanium dioxide, zinc oxide, ultraviolet scattering agent which is a mineral substance of magnesium oxide and kaolin and talc, The surface of the molten resin coating layer is roughened, light is reflected, light is diffused when irradiated with the mixture material mixed with 60 to 95% by weight of the resin powder, the light diffuses intrinsically, the environment is beneficial to the human body, or So that the resin coating layer can be protected from harmful light such as ultraviolet rays.

The surface of the resin coating layer is roughened by using iron, shell, glass, or quartz as the functional material sprayed on the resin coating layer.

The functional material sprayed on the upper surface of the resin coating layer reflects light using glass, quartz, a fluorescent material, or a light emitting material, or emits intrinsic light when light is received.

The functional material sprayed on the upper surface of the resin coating layer may be a beneficial environment to the human body by using elvan stone, germanium stone, zeolite, tourmaline, and loess.

The above-

1. Adsorption - Removal of harmful substances and decomposition of heavy metals,

2. Mineral elution,

3. PH regulation function - Water quality control and water purification,

4. Ion exchange action and pharmacological action on human body,

5. Increased dissolved oxygen,

6. Far-infrared radiation function,

7. Decomposition,

8. Healing allergies, such as dermatitis,

Thereby providing a beneficial environment for the human body.

The germanium-

1. Our cells are attacked and injured to protect our cells from oxygen by giving oxygen before they become diseases such as cancer, diabetes and hypertension,

2. Dream induces the secretion of anticancer interferon,

3. Restoration of gap junction can prevent cancer and dementia,

4. Purify the blood to improve blood circulation,

5. Has excellent antioxidant activity,

6. Provide a beneficial environment to the human body by removing heavy metals.

The above-

Meso porous material with many pores has powerful adsorption and ion exchange functions, thus providing a beneficial environment to the human body.

The above tourmaline can be used,

It generates electromagnetic waves in the far infrared range (4 to 14 microns) even in a slight heat, generates negative ions, and radiates far-infrared rays, thereby providing a favorable environment to the human body.

The above-

Bio far infrared rays penetrate deeply into human body, this far infrared ray weakens the action of bacteria causing various diseases, promotes blood circulation and cell tissue production,

It is possible to block harmful light such as ultraviolet rays, thereby providing a beneficial environment to the human body.

delete

The functional material sprayed on the upper surface of the resin coating layer protects the resin coating layer from ultraviolet rays by using an ultraviolet absorber for converting ultraviolet rays into thermal energy free from harmful rays or by using an ultraviolet scattering agent for reflecting and scattering ultraviolet rays.

FIGS. 3 and 4 illustrate the structure of a resin coating apparatus using a functional polymer material according to another embodiment of the present invention, and the same structure will be described with reference to FIG. 1 and FIG.

60 to 95% by weight of the resin powder and 5 to 40% by weight of the functional material are mixed in the mixing container of the resin powder and the functional material supplied respectively.

So that a mixed material obtained by mixing the resin powder and the functional material is supplied through the supply pipe 21.

And is supplied to the supply pipe 21 at a predetermined pressure using the same power as the transfer pump.

So that a mixed material of the resin powder and the functional material supplied through the supply pipe 21 is injected from the fourth expansion part 22.

So that the mixed material of the resin powder and the functional material injected and supplied through the fourth expanding portion 22 is melted by the heat generated while passing through the heat generating space 13 such as the electric heater or the gas burner.

The spray angle of the mixed material to be melted while being sprayed by the cover 11 coupled to the front of the main body 1 is kept constant to form a uniform coating layer.

An insulating wall 12 is formed on the inner surface of the cover 11 so as to form a melting space in a state surrounding the heat generating space 13 such as an electric heater or a gas burner and to block the heat transfer to the outside.

The cooling air flowing through the cooling air supply pipe 14 of the main body 1 lowers the internal temperature of the main body 1 and is discharged through the cooling air discharge port 15 formed on the outer peripheral surface of the front side of the cover 11 Adjust the injection angle of resin powder and functional material to be sprayed.

The functional materials to be mixed into the resin powder include iron, shell, glass, quartz, fluorescent material, luminescent material, elvan, germanium, zeolite, tourmaline, loess, oxybenzone and avobenzone and octylmethoxycinnamate And ultraviolet absorbers synthesizing chemicals of homosalate and p-aminobenzoic acid, and ultraviolet absorbers of titanium dioxide, zinc oxide and ultraviolet scattering agents which are mineral substances of magnesium oxide and kaolin and talc. The resin coating layer can be used in powder or liquid form to roughen the surface of the resin coating layer, to reflect light, to emit intrinsic light when light is received, to provide a beneficial environment to the human body, or to protect the resin coating layer from harmful light such as ultraviolet light The coating of the functionalized resin can be made possible.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Main body 2: Resin powder supply pipe
4: Functional substance supply pipe 5: Three-way valve
7, 9: branch tube 11: cover
13: Heating space

Claims (3)

delete delete A resin coating apparatus using a functional polymer material to form a uniform coating layer by a resin powder to be melted and a functional material,
A mixed material in which 60 to 95 wt% of the resin powder and 5 to 40 wt% of the functional material are mixed is supplied through the supply pipe 21,
A mixed substance of the resin powder and the functional material supplied through the supply pipe 21 is injected from the fourth expanding portion 22,
The mixed material of the resin powder injected through the fourth expanded portion 22 and the functional material is melted by the heat generated while passing through the heat generating space 13 such as the electric heater or the gas burner,
Characterized in that a uniform coating layer is formed by maintaining a spray angle of the mixed material to be melted while being sprayed by the cover (11) coupled to the front of the main body (1).

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