CN2803691Y - Material nano protective film structure - Google Patents

Abstract

The utility model provides a material nanometer protection film structure, it is the organic membrane that coats on the substrate at least one deck nanometer or micron, organic membrane contains organic resin such as PU or UV resin and nanometer or micron colouring material and forms a pigment layer, it has nanometer inorganic membrane to coat on its organic membrane surface, nanometer inorganic membrane contains nanometer inorganic films such as titanium dioxide, silica dioxide or alumina, it contains organic resin such as PU or UV resin and filler in order to form the basic unit to coat at least one deck between substrate and organic membrane, organic membrane surface still can coat has transparent bright layer again. The inorganic protective film and the organic protective film are coated, so that the protective film with the effects of corrosion resistance, oxidation resistance, fingerprint resistance, hardness increase, static resistance, filtering, glossiness increase and surface smoothness is formed, the protective film has various colors, and the usability of the protective film is improved; the coated base material is widely suitable for base materials made of nonmetal materials such as metal, alloy or plastic, and has a protective film structure with high gloss and various required colors.

Description

Material nano protective film structure

technical field

The utility model relates to a material nano protective film structure, which is mainly coated with at least one layer of nanometer or micrometer organic film on the substrate, and coated with nanometer inorganic film on the surface of the nanometer or micrometer organic film. The base material of the cloth is widely applicable to the base materials of non-metallic materials such as metal, alloy or plastic, and can make a protective film structure with high gloss.

Background technique

At present, the known material protective film structure mainly has an inorganic protective film structure and an organic protective film structure. The organic protective film structure, such as the protective film formed by paint, will change color and crack under ultraviolet radiation, and has capillary pores to make it Poor waterproof and weather resistance, and high static electricity and easy leakage lead to high risk. Although compounds containing metals such as titanium, zirconium, zinc, silicon, vanadium, and aluminum are added to the resin, and then coated on the metal surface to form an anti-corrosion film, the substrate of the formed inorganic protective film is limited to the metal material, and The high cost also affects the original luster of the metal, which is a fly in the ointment. As for coating the base material with a layer of protective film by chemical vapor deposition (Chemical Vapor Deposition; CVD) and physical vapor deposition (Physical Vapor Deposition) and other vacuum evaporation technologies, the coating process must be carried out in a vacuum, and its production equipment and production The process is complicated and costly, and it is mostly used in places with high conductivity and high electromagnetic shielding efficiency, and the color is mostly metallic or the primary color of inorganic materials, and the color has no variability, resulting in limited applications and other defects.

This shows that above-mentioned article in common use still has many defectives, and needs to be improved urgently.

Contents of the invention

The utility model aims at improving and innovating the shortcomings derived from the above-mentioned conventional material nano-protective film structure, thereby providing a material protective film structure, which is coated with an inorganic protective film and an organic protective film on the base material. , so as to form a protective film with corrosion resistance, anti-oxidation, anti-fingerprint, increased hardness, anti-static, filtering, increased gloss, surface smoothness, etc., and can also make the protective film have various colors to improve its usability; The base material of the cloth is widely applicable to the base materials of non-metallic materials such as metal, alloy or plastic, and can make a protective film structure with high gloss and various required colors.

The purpose of this utility model is achieved through the following technical solutions. The material protective film structure provided by this utility model is mainly coated with at least one layer of nanometer or micrometer organic film on the substrate, and nanometer or micrometer organic film is coated on it. The surface of the micron organic film is coated with a nanometer inorganic film. Since the inorganic protective film is coated on the previously coated organic film, and since the nano or micro organic film contains coloring material, the nano inorganic film is a colorless thin film, which can form corrosion resistance, anti-oxidation, anti-fingerprint, increase Hardness, anti-static, filtering, increased gloss, surface smoothness and other effects of the protective film can also make the protective film have various colors to improve its usability; the coated substrate is widely used in non-metallic materials such as metals, alloys or plastics. Metal substrates, and can make a protective film structure with high gloss.

Another preferred embodiment of the present utility model is that the substrate is coated with a nanometer or micrometer organic film, and the surface of the nanometer or micrometer organic film is coated with a nanometer inorganic membrane structure. The film contains pigments, and its nano-inorganic film is a colorless film, which can form a protective film with effects such as corrosion resistance, anti-oxidation, anti-fingerprint, increased hardness, anti-static, filtering, increased gloss, and surface smoothness. , its organic protective film has pigments of various colors to enhance its usability; and the coated substrate can be widely applied to non-metallic substrates such as metal, alloy or plastic.

Another embodiment of the present invention is that a transparent bright layer is coated on the surface of the nanometer or micrometer organic film. To form a high surface gloss and enhance its usability.

Another embodiment of the utility model is that a filling layer is coated between the nanometer or micrometer organic film and the base material. To form a smooth surface, easily improve the surface gloss of the protective film, effectively improve production efficiency and reduce production costs.

The following are detailed descriptions and accompanying drawings of preferred embodiments of the present utility model, so that the technical content of the present utility model and its purpose and effect can be further understood.

Description of drawings

Fig. 1 is the schematic diagram of material nano protective film of the present utility model;

Fig. 2 is the schematic diagram of the material protective film containing base layer of the present utility model;

Fig. 3 is a schematic diagram of a material protective film containing a bright layer of the present invention;

FIG. 4 is a schematic diagram of another embodiment of the material protection film containing the base layer of the bright layer of the present invention.

Description of main component symbols: 1 base material; 2 organic film; 3 nanometer inorganic film; 4 base layer; 5 bright layer.

Detailed ways

The main technical content of the material nano-protective film structure of the present invention is properly disclosed in the preferred embodiments listed below, and the main technical content of the present utility model is properly implemented by using the preferred embodiment.

First of all, referring to Fig. 1 and Fig. 2, what is shown is a structure diagram of the material nano-protective film of a preferred embodiment of the present utility model, and the structure of the material nano-protective film includes:

A base material 1, which can be a base material such as plastic, metal or alloy;

Organic film 2, at least one layer of nano or micron organic film 2 is coated on the above-mentioned base material. At least one layer of base layer 4 (as shown in Figure 2) containing PU or UV resin and a filler can be coated between the substrate 1 and the organic film 2, and the filler can be talcum powder, calcium carbonate powder pigment, etc.;

The nano-inorganic film 3 is coated on the surface of the above-mentioned nano- or micro-organic film 2, and it mainly contains a film of nano-inorganic components such as titanium dioxide, silicon dioxide or aluminum oxide;

According to the material nano protective film structure composed of the above, it is possible to form a protective film with effects such as corrosion resistance, anti-oxidation, anti-fingerprint, increase hardness, anti-static, filter, increase gloss, surface smoothness, etc., and also make the protective film have various Various colors to enhance its usability.

Next, please refer to Fig. 3 and Fig. 4 again, what shown is another preferred embodiment of the utility model material nano-protective film structure diagram, this material nano-protective film structure includes:

a substrate 1;

Organic film 2 is to be coated on the above-mentioned base material 1, and this organic film 2 contains PU or UV resin and the pigment of nanometer or micron, if its base material 1 surface is not smooth when then can be on base material 1 and nanometer or micron Coating at least one layer of base layer 4 (as shown in Figure 4) containing PU or UV resin and filler between the organic film 2;

The bright layer 5 is transparently coated on the surface of the nanometer or micrometer organic film 2;

The nano-inorganic film 3 is coated on the surface of the bright layer 5, and it is a thin film containing nano-inorganic materials such as titanium dioxide, silicon dioxide or aluminum oxide.

The material nano-inorganic protective film structure composed of the above can form a protective film with effects such as corrosion resistance, anti-oxidation, anti-fingerprint, increased hardness, anti-static, filtering, increased gloss, surface smoothness, etc., and it is coated with inorganic The protective film is an organic protective film that is coated in advance. It can be applied not only to metal materials, but also to alloy or plastic substrates, and can be widely used in various substrates.

The above detailed description is a specific description of the feasible embodiment of the utility model, and the embodiment is not used to limit the patent scope of the utility model, and any equivalent implementation or change made without departing from the technical spirit of the utility model, For example: equivalent embodiments with changes, etc., should be included in the scope of patents claimed in this application.

To sum up, the utility model is not only truly innovative in terms of system frame and operation mode, but also can achieve the purpose of the utility model and improve the above-mentioned multiple functions compared with conventional items.

Claims (7)

1. A material nano protective film structure, characterized in that it comprises: a substrate, an organic film and an inorganic film; wherein At least one layer of nanometer or micrometer organic film is coated on the substrate; At least one layer of nano inorganic film is coated on the surface of the nano or micro organic film. 2. The material nano protective film structure according to claim 1, characterized in that the base material is a plastic base material, a metal base material or an alloy base material. 3. The material nano protective film structure according to claim 1, characterized in that the nanometer or micrometer organic film contains PU or UV resin and nanometer or micrometer color material layer. 4. The material nano protective film structure according to claim 1, characterized in that at least one base layer of PU or UV resin and filler is coated between the nanometer or micrometer organic film and the substrate. 5. The material nano protective film structure according to claim 1, characterized in that at least one layer of transparent light is coated on the surface of the organic film. 6. The material nano protective film structure according to claim 4, characterized in that the surface of the organic film is coated with at least one transparent bright layer. 7. The material nano protective film structure according to claim 1, characterized in that the nano inorganic film is a thin film containing titanium dioxide, silicon dioxide or aluminum oxide.

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