CN212147788U - Decoration film capable of displaying oyster color decoration effect - Google Patents
Decoration film capable of displaying oyster color decoration effect Download PDFInfo
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- CN212147788U CN212147788U CN201820641814.7U CN201820641814U CN212147788U CN 212147788 U CN212147788 U CN 212147788U CN 201820641814 U CN201820641814 U CN 201820641814U CN 212147788 U CN212147788 U CN 212147788U
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Abstract
The utility model provides a decorative film for displaying oyster color decorative effect, which comprises a product body and a film layer group arranged on the product body, wherein the product body comprises a wire drawing pattern layer obtained by wire drawing treatment; the product body is made of a non-conductive material; the membrane layer group is arranged on the wire drawing pattern layer and sequentially comprises a first medium layer, a second medium layer, a third medium layer, a light absorption layer, a fourth medium layer and a fifth medium layer from the wire drawing pattern layer to the outside. Use the utility model discloses a panel, the effect is: the structure is simplified; through the combination setting of wire drawing pattern layer and membrane layer group, the preparation of the product that the full use of light wave was interfered the principle each other, was realized showing oyster look decorative effect, and the practicality is strong.
Description
Technical Field
The utility model relates to an electronic product processing technology field especially relates to a show oyster look decorative film of decoration effect and preparation method thereof.
Background
At present, the surfaces of electronic products in the market have decorative effects with different colors. The oyster color dazzling decoration effect can show the nobility and elegance of the product, and no electronic product with the effect exists in the market at present.
In order to meet the demands and cravings of customers for market products, the shortage of urgent supply of the market, the special requirements of customers for the surface functions of the products, and the urgent needs of customers for supply and demand, the development of an electronic product with oyster color-developing decoration effect and a manufacturing method thereof are of great significance.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a decoration membrane that the structure is retrencied and shows oyster look decorative effect, the concrete scheme is:
a decorative film for displaying oyster color decorative effect comprises a product body and a film layer group arranged on the product body;
the product body comprises a wire drawing pattern layer obtained through wire drawing treatment, and the product body is a non-metal light-transmitting base material;
the membrane layer group is arranged on the wire drawing pattern layer and sequentially comprises a first medium layer, a second medium layer, a third medium layer, a light absorption layer, a fourth medium layer and a fifth medium layer from the wire drawing pattern layer to the outside; the light absorption layer is made of at least one of indium, tin and chromium, and the first dielectric layer, the second dielectric layer, the third dielectric layer, the fourth dielectric layer and the fifth dielectric layer are all at least one of silicon dioxide, trititanium pentoxide, tantalum pentoxide, zirconium oxide, titanium dioxide and niobium pentoxide.
In the above technical solution, preferably, the first dielectric layer is made of silicon dioxide, and the thickness of the first dielectric layer is 1nm to 50 nm; the second dielectric layer is made of titanium pentoxide and/or silicon dioxide, and the thickness of the second dielectric layer is 1nm-45.0 nm; the third dielectric layer is made of at least one of silicon dioxide, titanium pentoxide, tantalum pentoxide, titanium dioxide and zirconium oxide, and the thickness of the third dielectric layer is 5nm-55 nm; the light absorption layer is made of indium, and the thickness of the light absorption layer is 15nm-95 nm; the fourth dielectric layer is made of at least one of titanium pentoxide, tantalum pentoxide, titanium dioxide and zirconium oxide, and the thickness of the fourth dielectric layer is 15nm-95 nm; the fifth dielectric layer is made of silicon dioxide and is 1nm-35nm thick.
Preferably, in the above technical solution, the film layer group sequentially includes, from the wire drawing pattern layer to the outside, a first dielectric layer of 15nm, a second dielectric layer of 18nm, a third dielectric layer of 25nm, an indium material layer of 57.6nm, a fourth dielectric layer of 72nm, and a fifth dielectric layer of 12 nm;
the light absorption layer is made of indium, the fourth dielectric layer is made of titanium pentoxide, and the fifth dielectric layer is made of silicon dioxide.
Preferably, in the above technical scheme, the film layer group sequentially includes, from the wire drawing pattern layer to the outside, a first dielectric layer of 18nm, a second dielectric layer of 16nm, a third dielectric layer of 30nm, an indium material layer of 52nm, a fourth dielectric layer of 75nm, and a fifth dielectric layer of 10 nm;
the light absorption layer is made of zirconium oxide, the second dielectric layer is made of titanium oxide, the third dielectric layer is made of silicon dioxide, the light absorption layer is made of indium, the fourth dielectric layer is made of titanium oxide, and the fifth dielectric layer is made of silicon dioxide.
Preferably, in the above technical scheme, the film layer group sequentially includes, from the wire drawing pattern layer to the outside, a 12nm first dielectric layer, a 20nm second dielectric layer, a 22nm third dielectric layer, a 60nm indium material layer, a 78nm fourth dielectric layer, and a 30nm fifth dielectric layer;
the light absorption layer is made of indium, the fourth dielectric layer is made of zirconium oxide, and the fifth dielectric layer is made of silicon dioxide.
Preferably, in the above technical scheme, the film layer group sequentially includes, from the wire drawing pattern layer to the outside, a first dielectric layer of 16nm, a second dielectric layer of 17nm, a third dielectric layer of 35nm, an indium material layer of 59nm, a fourth dielectric layer of 73nm, and a fifth dielectric layer of 12 nm;
the light absorption layer is made of indium, the fourth dielectric layer is made of tantalum pentoxide, and the fifth dielectric layer is made of silicon dioxide.
Preferably, in the above technical scheme, the film layer group sequentially includes, from the wire drawing pattern layer to the outside, a 13nm first dielectric layer, a 15nm second dielectric layer, a 33nm third dielectric layer, a 57nm indium material layer, an 80nm fourth dielectric layer, and a 45nm fifth dielectric layer;
the light absorption layer is made of indium, the fourth dielectric layer is made of titanium dioxide, and the fifth dielectric layer is made of silicon dioxide.
Preferably, in the above technical solution, the film layer group is provided with a protective layer, and the protective layer is disposed on the fifth dielectric layer.
Preferably, in the above technical scheme, the protective layer is an ink protective layer arranged in a screen printing manner.
Preferably, the product body is made of at least one of glass, resin, sapphire and phenanthrene.
In the above technical solution, preferably, the material of the product body is glass, resin or film.
Use the technical scheme of the utility model, the effect is:
1. the utility model discloses a decorative film for displaying oyster color decoration effect, which comprises a product body and a film layer group arranged on the product body, wherein the product body comprises a wire drawing pattern layer obtained by wire drawing treatment; the product body is a non-metal light-transmitting substrate. The panel structure is simple; through the combination setting of wire drawing pattern layer and membrane layer group, the preparation of the product that the full use of light wave was interfered the principle each other, was realized showing oyster look decorative effect, and the practicality is strong.
2. The utility model discloses a sequencing of each layer material, thickness selection and each layer in the membrane layer group combines the setting on wire drawing pattern layer, can successfully obtain the decorative membrane that shows oyster color decorative effect.
3. The utility model discloses the setting of well protective layer can effectively protect extension panel life to rete group.
In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail below with reference to the accompanying drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:
FIG. 1 is a schematic view showing a partial structure of a decorative film exhibiting a oyster color decorative effect in example 1.
Detailed Description
The embodiments of the invention will be described in detail hereinafter with reference to the accompanying drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.
Example 1:
a decoration film for displaying oyster color decoration effect, as shown in detail in figure 1, comprises a product body 1, a film layer group 2 and a protection layer 3, and specifically comprises:
the product body 1 comprises a wire drawing pattern layer 1.1 obtained through wire drawing treatment; the product body 1 is a non-metal light-transmitting base material, preferably glass, sapphire, transparent resin or film.
The membrane layer group 2 is arranged on the product body 1, preferably on the wiredrawing pattern layer 1.1. The film layer group sequentially comprises a first medium layer 2.1 of 1nm-50nm, a second medium layer 2.2 of 1nm-45.0nm, a third medium layer 2.3 of 5nm-55nm, an indium material layer 2.4 of 15nm-95nm, a fourth medium layer 2.5 of 15nm-95nm and a fifth medium layer 2.6 of 1nm-35nm from the drawing pattern layer 1.1 outwards, and the preferable conditions are as follows: the film layer group sequentially comprises a first dielectric layer 2.1 with the thickness of 15nm, a second dielectric layer 2.2 with the thickness of 18nm, a third dielectric layer 2.3 with the thickness of 25nm, an indium material layer 2.4 with the thickness of 57.6nm, a fourth dielectric layer 2.5 with the thickness of 72nm and a fifth dielectric layer 2.6 with the thickness of 12nm from the wire drawing pattern layer 1.1 to the outside; the first dielectric layer 2.1, the third dielectric layer 2.3 and the fifth dielectric layer 2.6 are made of the same material, and silicon dioxide is preferred. The material of the second dielectric layer 2.2 is the same as that of the fourth dielectric layer 2.5, and titanium pentoxide is preferred here.
The protective layer 3 is arranged on the fifth medium layer 2.6, and preferably, the protective layer 3 is an ink protective layer arranged in a silk-screen printing mode.
The manufacturing method of the decorative film for displaying the oyster color decorative effect comprises the following steps:
the first step is as follows: the product body pretreatment specifically comprises the following steps: cleaning the product body, preferably vacuum surface degassing by RF source ion cleaning, wherein the vacuum degree of vacuum surface degassing is 1.0 × 10-3Pa-6.0×10-4Pa;
The second step is that: carrying out wire drawing treatment on the pretreated product body to obtain a product body with a wire drawing pattern layer;
the third step: depositing a film layer group on the wire drawing pattern layer of the product body in a sputtering/evaporation mode to obtain a product with the oyster color decoration effect;
the fourth step: and a step of silk-screen printing of a protective layer, which specifically comprises the following steps: and (3) carrying out silk-screen printing ink protective layer treatment on the product with the oyster color decoration effect to obtain the decoration film with the protective layer and the oyster color decoration effect.
The film layer group deposition in the second step is realized through a correction baffle plate, the preferable shape is similar to the shape of a tea tree leaf, and the film layer group is convenient to form a uniform film (a correction plate jig is fixed between an evaporation source and substrate glass and is used for shielding evaporation airflow);
the deposited film layer group specifically comprises: putting the product body with the wire drawing pattern layer into a vacuum coating machine; vacuumizing the vacuum coating machine to 0.8 multiplied by 10-3-2.5×10-3Pa; placing the metal target for forming the film layer, and introducing oxygen into the vacuum coating machine; sequentially depositing the metal oxide film layers on the surface of the base material to obtain a product with the oyster color decoration effect; or, the metal oxide film layers are sequentially deposited on the surface of the product body with the wire drawing pattern layer through an evaporation plating machine, and the decorative film with the oyster color decorative effect is obtained.
The panel obtained by the embodiment can display the oyster color decoration effect and has a large application market.
The application of the utility model discloses a manufacturing method, the effect is: the steps are simplified, and the process parameters are convenient to control; the photochromic decorative film is deposited in a sputtering/evaporation mode, at least one of high-purity silicon oxide, metal oxide and metal oxide in a sub-oxidation state (controlled by controlling the flow of oxygen and the metal simple substance of the metal oxide film layer to be formed) can be formed, so that the optical performance of each film layer is exerted to the best, the photochromic film layer is obtained, and the practical requirements are met; the protective film layer is arranged for protecting and/or assisting in displaying the color of the film layer, so that the service life is prolonged, the color brightness is improved and the like; the utility model discloses in handle through RF ion radio frequency source and play cleanness and wire drawing and handle, can improve the surface tension of carrier, make the surface of carrier bigger with the cohesion of rete, the adhesion of rete is more firm, is difficult for falling the membrane.
Example 2 to example 5
Example 2 differs from example 1 in that: the film layer group sequentially comprises a first dielectric layer 2.1 with the thickness of 18nm, a second dielectric layer 2.2 with the thickness of 16nm, a third dielectric layer 2.3 with the thickness of 30nm, an indium material layer 2.4 with the thickness of 52nm, a fourth dielectric layer 2.5 with the thickness of 75nm and a fifth dielectric layer 2.6 with the thickness of 10nm from the drawing pattern layer 1.1 to the outside, and the preferable structure is that: the first dielectric layer 2.1 is made of silicon dioxide, the second dielectric layer is made of titanium pentoxide, the third dielectric layer is made of silicon dioxide, the light absorption layer is made of indium, the fourth dielectric layer is made of titanium pentoxide, and the fifth dielectric layer is made of silicon dioxide.
Example 3 differs from example 1 in that: the film layer group sequentially comprises a first dielectric layer 2.1 with the thickness of 12nm, a second dielectric layer 2.2 with the thickness of 20nm, a third dielectric layer 2.3 with the thickness of 22nm, an indium material layer 2.4 with the thickness of 60nm, a fourth dielectric layer 2.5 with the thickness of 78nm and a fifth dielectric layer 2.6 with the thickness of 30nm from the drawing pattern layer 1.1 to the outside, and the preferable structure is that: the first dielectric layer 2.1 is made of silicon dioxide, the second dielectric layer is made of titanium pentoxide, the third dielectric layer is made of silicon dioxide, the light absorption layer is made of indium, the fourth dielectric layer is made of titanium pentoxide, and the fifth dielectric layer is made of silicon dioxide.
Example 4 differs from example 1 in that: the film layer group comprises a first dielectric layer 2.1 with the thickness of 16nm, a second dielectric layer 2.2 with the thickness of 17nm, a third dielectric layer 2.3 with the thickness of 35nm, an indium material layer 2.4 with the thickness of 59nm, a fourth dielectric layer 2.5 with the thickness of 73nm and a fifth dielectric layer 2.6 with the thickness of 12nm from the drawing pattern layer 1.1 to the outside in sequence, and the preferable conditions are as follows: the first dielectric layer 2.1 is made of silicon dioxide, the second dielectric layer is made of tantalum pentoxide, the third dielectric layer is made of silicon dioxide, the light absorption layer is made of indium, the fourth dielectric layer is made of tantalum pentoxide, and the fifth dielectric layer is made of silicon dioxide.
Example 5 differs from example 1 in that: the film layer group sequentially comprises a first dielectric layer 2.1 with the thickness of 13nm, a second dielectric layer 2.2 with the thickness of 15nm, a third dielectric layer 2.3 with the thickness of 33nm, an indium material layer 2.4 with the thickness of 57nm, a fourth dielectric layer 2.5 with the thickness of 80nm and a fifth dielectric layer 2.6 with the thickness of 45nm from the drawing pattern layer 1.1 to the outside, and the preferable structure is that: the first dielectric layer 2.1 is made of silicon dioxide, the second dielectric layer is made of titanium dioxide, the third dielectric layer is made of silicon dioxide, the light absorption layer is made of indium, the fourth dielectric layer is made of titanium dioxide, and the fifth dielectric layer is made of silicon dioxide.
Examples 2 to 5 were all successful in obtaining a decorative film exhibiting an oyster color decorative effect.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. The utility model provides a show decorating film of oyster look decorative effect which characterized in that: comprises a product body (1) and a membrane layer group (2) arranged on the product body (1);
the product body (1) comprises a wire drawing pattern layer (1.1) obtained through wire drawing treatment, and the product body is a non-metal light-transmitting base material;
the membrane layer group (2) is arranged on the wire drawing pattern layer (1.1), and sequentially comprises a first medium layer (2.1), a second medium layer (2.2), a third medium layer (2.3), a light absorption layer (2.4), a fourth medium layer (2.5) and a fifth medium layer (2.6) from the wire drawing pattern layer (1.1) to the outside; the light absorption layer is made of one of indium, tin and chromium, and the first dielectric layer (2.1), the second dielectric layer (2.2), the third dielectric layer (2.3), the fourth dielectric layer (2.5) and the fifth dielectric layer (2.6) are made of one of silicon dioxide, trititanium pentoxide, tantalum pentoxide, zirconium oxide, titanium dioxide and niobium pentoxide.
2. The decoration film for developing a decoration effect of an oyster color according to claim 1, wherein: the first dielectric layer is made of silicon dioxide, and the thickness of the first dielectric layer is 1nm-50 nm; the second dielectric layer is made of titanium pentoxide or silicon dioxide, and the thickness of the second dielectric layer is 1nm-45.0 nm; the third dielectric layer is made of one of silicon dioxide, titanium pentoxide, tantalum pentoxide, titanium dioxide and zirconium oxide, and the thickness of the third dielectric layer is 5nm-55 nm; the light absorption layer is made of indium, and the thickness of the light absorption layer is 15nm-95 nm; the fourth dielectric layer is made of one of titanium pentoxide, tantalum pentoxide, titanium dioxide and zirconium oxide, and the thickness of the fourth dielectric layer is 15nm-95 nm; the fifth dielectric layer is made of silicon dioxide and is 1nm-35nm thick.
3. The decoration film for developing a decoration effect of an oyster color according to claim 2, wherein: the film layer group sequentially comprises a first dielectric layer with the thickness of 15nm, a second dielectric layer with the thickness of 18nm, a third dielectric layer with the thickness of 25nm, an indium material layer with the thickness of 57.6nm, a fourth dielectric layer with the thickness of 72nm and a fifth dielectric layer with the thickness of 12nm from the wire drawing pattern layer to the outside;
the light absorption layer is made of indium, the fourth dielectric layer is made of titanium pentoxide, and the fifth dielectric layer is made of silicon dioxide.
4. The decoration film for developing a decoration effect of an oyster color according to claim 2, wherein: the membrane layer group sequentially comprises a first dielectric layer with the thickness of 18nm, a second dielectric layer with the thickness of 16nm, a third dielectric layer with the thickness of 30nm, an indium material layer with the thickness of 52nm, a fourth dielectric layer with the thickness of 75nm and a fifth dielectric layer with the thickness of 10nm from the wire drawing pattern layer to the outside;
the light absorption layer is made of indium, the fourth dielectric layer is made of titanium pentoxide, and the fifth dielectric layer is made of silicon dioxide.
5. The decoration film for developing a decoration effect of an oyster color according to claim 2, wherein: the membrane layer group sequentially comprises a first dielectric layer with the thickness of 12nm, a second dielectric layer with the thickness of 20nm, a third dielectric layer with the thickness of 22nm, an indium material layer with the thickness of 60nm, a fourth dielectric layer with the thickness of 78nm and a fifth dielectric layer with the thickness of 30nm from the wire drawing pattern layer to the outside;
the light absorption layer is made of indium, the fourth dielectric layer is made of zirconium oxide, and the fifth dielectric layer is made of silicon dioxide.
6. The decoration film for developing a decoration effect of an oyster color according to claim 2, wherein: the membrane layer group sequentially comprises a first dielectric layer with the thickness of 16nm, a second dielectric layer with the thickness of 17nm, a third dielectric layer with the thickness of 35nm, an indium material layer with the thickness of 59nm, a fourth dielectric layer with the thickness of 73nm and a fifth dielectric layer with the thickness of 12nm from the wire drawing pattern layer to the outside;
the light absorption layer is made of indium, the fourth dielectric layer is made of tantalum pentoxide, and the fifth dielectric layer is made of silicon dioxide.
7. The decoration film for developing a decoration effect of an oyster color according to claim 2, wherein: the membrane layer group sequentially comprises a first dielectric layer with the thickness of 13nm, a second dielectric layer with the thickness of 15nm, a third dielectric layer with the thickness of 33nm, an indium material layer with the thickness of 57nm, a fourth dielectric layer with the thickness of 80nm and a fifth dielectric layer with the thickness of 45nm from the wire drawing pattern layer to the outside;
the light absorption layer is made of indium, the fourth dielectric layer is made of titanium dioxide, and the fifth dielectric layer is made of silicon dioxide.
8. The decorative film for developing an oyster color decorative effect according to any one of claims 1 to 7, wherein: and a protective layer (3) is arranged on the membrane layer group (2), and the protective layer (3) is arranged on the fifth medium layer (2.6).
9. The decoration film for developing a decoration effect of an oyster color according to claim 8, wherein: and the protective layer (3) is an ink protective layer arranged in a silk-screen printing mode.
10. The decoration film for developing a decoration effect of an oyster color according to claim 8, wherein: the product body (1) is made of one of glass, resin, sapphire and phenanthrene forest.
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CN201820641814.7U CN212147788U (en) | 2018-05-02 | 2018-05-02 | Decoration film capable of displaying oyster color decoration effect |
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CN201820641814.7U CN212147788U (en) | 2018-05-02 | 2018-05-02 | Decoration film capable of displaying oyster color decoration effect |
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