KR101853162B1 - Environment-friendly functional film and the article applied the same - Google Patents

Abstract

Barrier layer, and photocatalytic coating layer, wherein the barrier layer comprises an inorganic oxide layer and a resin layer, and an eco-friendly functional article to which the eco-friendly functional film is attached.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an environmentally friendly functional film,

Friendly functional film and an eco-friendly functional article having the same.

In general, the design elements of the film used for the interior goods constituting the residential or commercial space are mainly highlighted.

However, in the modern society, air pollution becomes serious, and the time for staying in the indoor space is increasing, and the demand for improvement of indoor air quality is increasing. In addition, there is a growing need for antimicrobial and sterilizing products that are harmless to humans due to the increased risk of diseases caused by the emergence of highly contagious viruses and toxic issue of humidifier sterilizing agents.

One embodiment of the present invention provides an environmentally friendly functional film having a deodorizing and antibacterial function by attaching to the surface of an article to decompose harmful substances such as volatile organic compounds in the room air.

Another embodiment of the present invention provides an eco-friendly functional article having the eco-friendly functional film attached thereto, the eco-friendly functional article having a function of suppressing emission of harmful components, removing harmful substances in the interior, deodorizing and having an antibacterial function.

One embodiment of the present invention provides a green functional film in which a barrier layer and a photocatalytic coating layer are laminated, and the barrier layer includes an inorganic oxide layer and a resin layer.

The eco-friendly functional film may include a pressure-sensitive adhesive layer on the lower portion of the barrier layer and a release layer on the lower portion of the pressure-sensitive adhesive layer.

The inorganic oxide layer may include at least one selected from the group consisting of silica, alumina, zirconia, titania, and combinations thereof.

The resin layer may include at least one selected from the group consisting of polyethylene terephthalate (PET), polyvinyl chloride (PVC), polycarbonate (PC), and combinations thereof.

The thickness of the inorganic oxide layer may be from about 100 nm to about 1000 nm.

The thickness of the resin layer may be about 10 탆 to about 200 탆.

The photocatalytic coating layer may include a photocatalyst material and an inorganic binder.

The photocatalyst material may include a porous metal oxide; And metal particles formed on the surface of the porous metal oxide.

The porous metal oxide may include at least one selected from the group consisting of titanium oxide, tungsten oxide, zinc oxide, niobium oxide, and combinations thereof.

Wherein the metal particles are selected from the group consisting of tungsten, chromium, vanadium, molybdenum, copper, iron, cobalt, manganese, nickel, platinum, gold, silver, cerium, cadmium, zinc, magnesium, calcium, strontium, barium, And the like.

The photocatalyst material may include 90 wt% to 99.9 wt% of the porous metal oxide and 0.1 wt% to 10 wt% of the metal particles.

The inorganic binder may include at least one selected from the group consisting of silica sol, titanium oxide (TiO ₂ ) sol, zirconia sol, and combinations thereof.

The thickness of the photocatalytic coating layer may be about 50 nm to about 500 nm.

The barrier layer may be one in which the inorganic oxide layer is deposited on one side of the resin layer.

The resin layer may include polyethylene terephthalate (PET), and the inorganic oxide layer may be formed on one side of the resin layer by chemical vapor deposition (CVD).

Another embodiment of the present invention provides an eco-friendly functional article wherein the eco-friendly functional film is adhered to a surface.

The environmentally-friendly functional article may include a thermoplastic resin on the surface.

The eco-friendly functional film can remove harmful substances in the air, and can achieve deodorization and antibacterial function.

In addition, the eco-friendly functional article in which the eco-friendly functional film is adhered to the surface can be a variety of indoor-outdoor related articles having deodorizing and antibacterial functions, and can have excellent durability.

1 illustrates an environmentally friendly functional film according to an embodiment of the present invention.
2 shows an environmentally friendly functional film according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the invention pertains. Only. Like reference numerals refer to like elements throughout the specification.

Eco-friendly functional film

In one embodiment of the present invention, a barrier layer and a photocatalytic coating layer are laminated, and the barrier layer is provided with an inorganic oxide layer and a resin layer.

The eco-friendly functional film removes harmful substances in the air and has a deodorizing and antibacterial function, and can be applied to the surface of an article to give an environmentally friendly product to the applied article.

1 illustrates an environmentally friendly functional film 100 according to an embodiment of the present invention. Specifically, the environmentally friendly functional film 100 includes a structure in which the barrier layer 120 and the photocatalytic coating layer 110 are laminated. Since the barrier layer includes the inorganic oxide layer 122 and the resin layer 121, the surface of the article to which the film is applied is prevented from being denatured by the photocatalytic coating layer 110, thereby imparting excellent durability to the article , And can improve the efficiency of the photocatalytic coating layer 110.

FIG. 2 illustrates an eco-friendly functional film 200 according to another embodiment of the present invention. Specifically, the environmentally friendly functional film 200 may include a pressure sensitive adhesive layer 130 under the barrier layer 120, and may further include a release layer 140 under the pressure sensitive adhesive layer. The eco-friendly functional film may be attached to various interior-related articles such as flooring material and wallpaper, and may be manufactured to include a pressure-sensitive adhesive layer 130 and a release layer 140 to ensure the flowability.

After the environmentally friendly functional film 200 is manufactured and distributed including the pressure-sensitive adhesive layer 130 and the release layer 140, the release layer 140 is removed to apply the pressure-sensitive adhesive layer 130 to the article So that the eco-friendly functional film 200 can secure excellent flowability and workability.

The green functional film may include a barrier layer including an inorganic oxide layer and a resin layer. The barrier layer serves to prevent the surface of the article to which the environmentally friendly functional film is attached from being deformed by the photocatalytic coating layer. In addition, the barrier layer can increase the efficiency of removing the harmful substances in the air by the photocatalytic coating layer.

Specifically, the inorganic oxide layer may be formed of a dense film of an inorganic oxide. In addition, the inorganic oxide layer may include at least one selected from the group consisting of silica, alumina, zirconia, titania, and combinations thereof. For example, the inorganic oxide layer may include alumina. In this case, the inorganic oxide layer has excellent adhesion to the photocatalytic coating layer and may be advantageous in terms of durability.

The resin layer may include at least one selected from the group consisting of polyethylene terephthalate (PET), polyvinyl chloride (PVC), polycarbonate (PC), and combinations thereof. For example, the resin layer may include polyethylene terephthalate (PET). In this case, excellent heat resistance can be ensured in the process of forming the inorganic oxide layer on one side of the resin layer.

The thickness of the inorganic oxide layer may be from about 100 nm to about 1000 nm, for example, from about 300 nm to about 500 nm. By having the thickness of the inorganic oxide layer within the above range, the surface of the lower article can be effectively protected from the photocatalytic coating layer without increasing the thickness of the environmentally friendly functional film as a whole.

The thickness of the resin layer may be from about 10 탆 to about 200 탆, for example, from about 10 탆 to about 100 탆. Since the resin layer has the thickness in the above range, excellent durability and heat resistance can be ensured in the process of forming the inorganic oxide layer on one side, and the eco-friendly functional film is not entirely thickened, It can have an excellent barrier performance that effectively protects the surface.

The eco-friendly functional film includes a photocatalytic coating layer, and the photocatalytic coating layer removes harmful substances in the indoor air by photoactivating. In addition, the photocatalytic coating layer may remove harmful substances emitted from the interior article itself. In order to effectively remove harmful substances from the photocatalytic coating layer, the eco-friendly functional film may be present at the top of the finished interior product.

The photocatalytic coating layer may include a photocatalyst material and an inorganic binder. The photocatalyst material is a material capable of decomposing volatile organic compounds (VOCs) or the like by generating peroxide anions or hydroxy radicals from electrons and holes generated from the energy obtained by absorbing light to perform air cleaning, deodorization and antibacterial action And the inorganic binder provides an adhesion force for firmly bonding the photocatalytic coating layer on the inorganic oxide layer. Specifically, the photocatalyst material can have an absorption rate with respect to visible light, and can exhibit excellent efficiency even in an indoor light source.

The photocatalyst material may include a porous metal oxide and metal particles formed on the surface of the porous metal oxide. Specifically, the photocatalyst material may be a porous metal oxide carrying metal particles.

The porous metal oxide may include at least one selected from the group consisting of titanium oxide, tungsten oxide, zinc oxide, niobium oxide, and combinations thereof.

Further, the metal particles may be a metal that imparts optical activity to visible light, for example, a transition metal or a noble metal. Specifically, the metal particles may be selected from the group consisting of tungsten, chromium, vanadium, molybdenum, copper, iron, cobalt, manganese, nickel, platinum, gold, silver, cerium, cadmium, zinc, magnesium, calcium, strontium, ≪ RTI ID = 0.0 > and / or < / RTI >

For example, the photocatalyst material may be a photocatalyst material (WO ₃ -Pt) containing platinum particles formed on the surfaces of tungsten oxide and tungsten oxide. In this case, the photocatalyst material exhibits excellent efficiency against visible light, It can be advantageous to secure excellent deodorizing and antibacterial functions, and the amount of platinum to be used is relatively reduced, which is advantageous in cost.

The porous metal oxide may have a porosity of from about 5% by volume to about 50% by volume, and the specific surface area may be from about 50 m 2 / g to about 500 m 2 / g. When the porous metal oxide has the porosity and specific surface area in the above range, the photocatalyst material can secure an excellent efficiency with respect to visible light, and the adsorption of harmful substances can be efficiently carried out, thereby further improving air purification, deodorization and antibacterial function .

The photocatalyst material may include about 90 wt.% To about 99.9 wt.% Of the porous metal oxide and about 0.1 wt.% To about 10 wt.% Of the metal particles. The metal particles are doped on the surface of the porous metal oxide by a photo-evaporation method. By controlling the content of the porous metal oxide and the metal particles in the deposition process, an excellent catalytic effect can be realized under visible light.

Specifically, in the WO ₃ -Pt photocatalyst material, the tungsten oxide (WO ₃ ) may be contained in an amount of about 90% by weight to about 99.9% by weight, and the platinum (Pt) % ≪ / RTI > by weight.

More specifically, when the porous metal oxide is contained in an amount exceeding about 99.9% by weight, and the metal particles are contained in an amount of less than 0.1% by weight, separation of the electron holes becomes difficult, and sufficient photocatalytic activity may not be exhibited. If the porous metal oxide is contained in an amount of less than about 90 wt% and the metal particles are contained in an amount of more than about 10 wt%, the number of electrons transferred from the porous metal oxide can not be sufficiently secured, have.

The inorganic binder may provide at least one selected from the group consisting of silica sol, titanium oxide (TiO ₂ ) sol, zirconia sol, and combinations thereof in order to provide an adhesive force in forming the photocatalytic coating layer.

For example, the inorganic binder may include a silica sol, and in this case, an advantage of securing excellent durability can be obtained.

The photocatalytic coating layer may have a thickness of about 50 nm to about 500 nm, for example, about 100 nm to about 300 nm. The photocatalytic coating layer is coated on the inorganic oxide layer. Specifically, the photocatalytic coating layer can be coated by a method using a spray or a bar. At this time, when the thickness of the photocatalytic coating layer is less than about 50 nm, it is impossible to sufficiently realize an eco-friendly function such as air cleaning, deodorization and antibacterial. When the thickness exceeds about 500 nm, the production cost is excessively increased, It is possible to deteriorate the inherent function of the attached article.

The barrier layer is formed by depositing the inorganic oxide layer on one surface of the resin layer, so that the inorganic oxide layer has a dense structure, thereby achieving excellent barrier performance. Specifically, the inorganic oxide layer may be deposited on one side of the resin layer by chemical vapor deposition (CVD). In order to deposit the inorganic oxide layer by chemical vapor deposition, a relatively high temperature is required. When the resin layer includes polyethylene terephthalate (PET), the inorganic oxide layer is effectively deposited on the basis of the excellent heat resistance of the PET And can be advantageous for forming a dense structure.

That is, when the resin layer contains polyethylene terephthalate (PET) and the inorganic oxide layer is formed on one side of the resin layer by chemical vapor deposition (CVD), good workability is imparted to the formation of the inorganic oxide layer And it is possible to ensure an excellent barrier performance that effectively prevents deformation of the surface of the lower article by the photocatalytic coating layer.

Eco-friendly functional goods

Another embodiment of the present invention provides an eco-friendly functional article wherein the eco-friendly functional film is adhered to a surface.

For example, the eco-friendly functional article may be one having the eco-friendly functional film attached to a surface of an article used for indoor or outdoor decoration, and specifically, the article may be a wallpaper, a flooring material, an interior film, or the like. The interior film refers to a sheet or a film which is attached to a wall or a floor to implement indoor or outdoor decoration and interior related functions. The wallpaper, the flooring material, or the interior film may have a multi-layer or single-layer structure, and the environmentally friendly functional film may be attached to the surface of the article to provide the environmentally-friendly functional article.

As described above, the eco-friendly functional article can be manufactured by a simple operation of attaching the eco-friendly functional film to the surface of the article, so that it can have excellent deodorizing and antibacterial functions in addition to the original function of wallpaper, flooring or interior film.

For example, the eco-friendly functional film may include a pressure-sensitive adhesive layer on the lower part of the barrier layer, and may include a release layer on the lower side of the pressure-sensitive adhesive layer. After removing the release layer, .

The eco-friendly functional article may include a thermoplastic resin on one side to which the eco-friendly functional film is adhered. As described above, the eco-friendly functional film includes a barrier layer, and the barrier layer protects the surface of the article based on excellent barrier performance, and the surface of the article to which the eco-friendly functional film is attached is coated with the photocatalytic coating layer It is possible to prevent deformation. That is, one side of the surface on which the environmentally friendly functional film is adhered is maximized in the barrier performance and eco-friendly function of the environmentally friendly functional film by including the thermoplastic resin having excellent workability but weak heat resistance.

For example, the thermoplastic resin may be selected from the group consisting of polyvinyl chloride (PVC), polyvinylidene chloride (PVDC), polyvinylidene fluoride (PVF), chlorinated polyvinyl chloride (CPVC), polyvinyl alcohol (PVA) (PV), polyvinyl butyrate (PVB), polyethylene (PE), polypropylene (PP), and combinations thereof, and specifically includes polyvinyl chloride .

For example, the eco-friendly functional article may be an interior film attached to one side of the eco-friendly functional film, and the interior film may be a multi-layer structure, and the layer of the surface to which the eco- It can be an interior film. Such a PVC interior film can have excellent air cleaning function, deodorization and antibacterial function in addition to its original function by attaching the above-mentioned eco-friendly functional film, securing excellent processability in the process of manufacturing it, .

Hereinafter, specific embodiments of the present invention will be described. However, the embodiments described below are only intended to illustrate or explain the present invention, and thus the present invention should not be limited thereto.

Example  And Comparative Example

Example

A polyethylene terephthalate (PET) resin layer having a thickness of 12 占 퐉 was provided on the surface of the substrate, and alumina was chemically vapor-deposited (CVD) on one surface thereof with a chemical vapor deposition apparatus to a thickness of 400 nm to form a barrier layer having a resin layer and an inorganic oxide layer laminated thereon . On the other hand, a PVC interior film including an outermost layer of PVC was prepared, and an outermost layer of the interior film was attached to the other surface of the resin layer using an adhesive. Then, a photocatalytic coating solution containing 5 wt% of silica sol and 5 wt% of WO ₃ -Pt photocatalyst as an inorganic binder was prepared and coated on the inorganic oxide layer through a bar coating device to form a 100 nm thick To prepare a photocatalytic coating layer. Specifically, the PVC interior film has a laminated structure of a PVC film, a printing layer, and a substrate layer from above. Thus, an eco-friendly functional article having a photocatalytic coating layer, an inorganic oxide layer, a resin layer, and a PVC interior film laminated from above was produced.

Comparative Example  One

In Example 1, a PVC interior film on which the photocatalytic coating layer, the inorganic oxide layer and the resin layer were not laminated was provided on the top.

Comparative Example  2

The photocatalytic coating solution was prepared in the same manner as in Example 1 and directly coated on the outermost layer of the PVC interior film through a bar coating device so that the photocatalytic coating layer and the PVC interior film were stacked from above without the barrier layer Lt; / RTI >

evaluation

Experimental Example : Evaluation of Formaldehyde Removal Performance

In the examples and comparative examples, specimens each having a size of width X length (165 mm x 165 mm) were prepared and placed in a 20 L small chamber (ADTEC), and then 0.08 ppm concentration of formaldehyde Was continuously flown at a flow rate of 167 cc / min so that the number of times of ventilation was 0.5 times / hr. The LED 20W module was used as the light source. The formaldehyde removal rate is calculated by measuring the concentration of formaldehyde in the air before entering the chamber (hereinafter referred to as a first concentration) and the concentration of formaldehyde in air after passing through the chamber (hereinafter referred to as a second concentration) Respectively. Concentrations were quantified using a DNPH (2,4-dinitrophenylhydrazine) cartridge and quantitated for 10 L volumes and analyzed via HPLC (Agilent). The results are shown in Table 1 below.

[Formula 1]

Formaldehyde removal rate (%) = {(first concentration - second concentration) / first concentration} X 100

division Formaldehyde Removal Rate (%) Example 82% Comparative Example 1 0% Comparative Example 2 0%

As shown in Table 1, Comparative Example 1 was a PVC interior film without an environmentally friendly functional film, and almost no formaldehyde was removed. On the contrary, the formaldehyde removal rate of the example was higher than 80%, and it was found that the environmentally functional functional film was included on one side of the PVC interior film, thereby realizing excellent air cleaning and deodorizing function as compared with Comparative Example 1 .

In Comparative Example 2, a photocatalytic coating layer was formed directly on the surface including PVC without the barrier layer, and the photocatalytic coating layer functions to decompose the surface of the PVC directly facing the barrier layer. Therefore, it was found that the photocatalytic coating layer can not exhibit the effect of decomposing harmful substances in the air, and does not exhibit the formaldehyde removal effect in the air at all.

That is, the eco-friendly functional film includes a layered structure of a barrier layer and a photocatalytic coating layer, and attaches the barrier layer and the photocatalytic coating layer to an article such as an interior film to remove harmful substances from the room air, there was.

100, 200: Eco-friendly functional film
110: Photocatalytic coating layer
120: barrier layer
121: resin layer
122: inorganic oxide layer
130: pressure-sensitive adhesive layer
140:

Claims (17)

Thermoplastic resin;
A print layer disposed under the thermoplastic resin;
A base layer disposed under the print layer; And
And an environmentally friendly functional film disposed on the thermoplastic resin and attached to the thermoplastic resin,
Wherein the environmentally friendly functional film includes a structure in which a pressure-sensitive adhesive layer, a polyethylene terephthalate resin layer, an alumina vapor deposition layer, and a photocatalytic coating layer are laminated in a direction away from the thermoplastic resin,
Wherein the pressure-sensitive adhesive layer is directly attached to the thermoplastic resin,
Wherein the polyethylene terephthalate resin layer is directly attached to the pressure-sensitive adhesive layer and has a thickness of 10 [mu] m to 100 [
Wherein the alumina vapor deposition layer is formed directly on the polyethylene terephthalate resin layer and has a thickness of 300 nm to 500 nm,
Wherein the photocatalytic coating layer is formed directly on the alumina deposition layer and has a thickness of 100 nm to 300 nm,
Wherein the photocatalytic coating layer comprises a photocatalyst material and an inorganic binder,
Wherein the photocatalyst comprises WO ₃ -Pt,
The content of WO ₃ in WO ₃ -Pt is 90% by weight to 99.9% by weight, the content of Pt is 0.1% by weight to 10% by weight,
WO ₃ has a porosity of 5 vol% to 50 vol% and a specific surface area of 50 m ² / g to 500 m ² / g,
Eco-functional functional interior film.
delete delete delete delete delete delete delete delete delete delete The method according to claim 1,
Wherein the inorganic binder includes at least one selected from the group consisting of silica sol, titanium oxide (TiO ₂ ) sol, zirconia sol, and combinations thereof
Eco-functional functional interior film. delete delete delete delete delete

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