CN103984045A - Mobile phone screen cover plate preventing blue light and manufacturing method thereof - Google Patents

Abstract

The invention discloses a mobile phone screen cover plate preventing blue light and a manufacturing method of the mobile phone screen cover plate preventing the blue light. According to the mobile phone screen cover plate, multi-layer films are plated on the outer surface and the inner surface of a substrate. According to the manufacturing method of the mobile phone screen cover plate, vapor deposition is performed on film systems on the outer surface and the inner surface of the substrate to form the mobile phone screen cover plate preventing blue light. The manufacturing method includes the following steps that (1), the substrate is cleaned; (2), the cleaned substrate is dried; (3), before the films are plated on the substrate, the substrate is cleaned again in a vacuum cabin of an electronic beam vapor deposition device; (4), film plating on the substrate includes the step of plating the film system on the outer surface of the substrate and plating the film system on the inner surface of the substrate. The manufactured mobile phone screen cover plate preventing the blue light prevents the human body from being hurt by harmful blue light and ultraviolet rays, use of the eyes is safer for a mobile phone user, and eye diseases can be prevented. The mobile phone screen cover plate further has the functions of preventing oil stains and resisting to shock strengthening.

Description

A kind of mobile phone screen cover plate and manufacture method thereof of anti-blue light

Technical field

The present invention relates to a kind of mobile phone screen cover plate and manufacture method thereof of anti-blue light.

Background technology

Along with the generally use of modern life mobile phone, and people's life more and more be unable to do without mobile phone, the result that has the regular use mobile phone of a lot of people to bring is that eyes appearance is sour and astringent, pain, the uncomfortable symptom such as shed tears, more serious appearance visual impairment, these uncomfortable symptoms are for a long time to mobile phone screen because of eyes, due to the harmful light being come out by mobile phone screen, the formidable enemy of the only eyes that mobile phone screen sends, generally mobile phone screen supplier is in order to embody color contrast and the saturation degree of mobile phone screen, can improve mobile phone screen lamplight brightness behind, can make like this screen surface seem and have texture as having filled a sheet glass, improve sharpness, same it also can be as glass reflection ray, but light can increase light reflection while shining to screen, especially when evening consumer in the time using mobile phone, LED light is according to increasing light reflection to mobile phone screen, be easy to like this be hurt eyes by these light, and produce the symptom of visual fatigue, meeting slowly causes the health problem of visual impairment and headache, , our eyes of " uncomfortable light " prolonged exposure that mobile phone screen produces also can cause vision system imbalance, light let us eyes that mobile phone screen sends are uncomfortable is because the high energy shortwave blue light that a large amount of irregular frequencies are contained in these light the insides, these shortwave blue lights have the through retina of eyeglass that energy can penetrate us, shortwave blue light prolonged exposure retina can produce a large amount of radical ions, these radical ions can make amphiblestroid pigment epithelial cell decline, epithelial declining can make photosensory cell lack nutrient and cause vision impairment, these shortwave blue lights are also the main causes that causes macular diseases, we are for a long time in the face of the blue light that mobile phone screen produces stimulates every day, hardly realize that the short energy of blue light wavelength is high, easily cause early onset cataract, the spontaneous macular diseases such as dry and astringent, photophobia on ocular vision, fatigue.Blue light accounts for 50 ~ 60% of visible ray, and blue light is also the one of the main reasons that causes macular diseases, seriously may cause blind.Blue light can stimulate retina to produce a large amount of radical ions, make the atrophy of retinal pigment epithelium, cause again the decline of photaesthesia cell, this be because we residing be the information age, people's work all be unable to do without mobile phone with study, the time of facing mobile phone screen is more and more longer, also more and more higher by the frequency of eye.That eyes start is sour and astringent, pain, shed tears, and what it was plaintive tells us: our eyes have been subjected to injury, need in the time using mobile phone, be protected.They all can damage blue light that at present mobile phone screen sends, electromagnetic wave, free electron eyes; in order to protect eyes; must be filtered; and the method for filtering at present mobile phone screen blue light is at mobile phone screen surface label layer protecting film; after film for mobile phone screen; transmittance tends to decline, and the film pasting easily produces cut affects visual effect, still not ideal enough to anti-blue light effect.The material major part of mobile phone screen cover plate is organic glass (polymethacrylate), and this organic glass is easily broken, and shock resistance is undesirable.

Summary of the invention

The object of the present invention is to provide a kind of mobile phone screen cover plate and manufacture method thereof of anti-blue light, the produced mobile phone screen cover plate of the method has and prevents the injury of harmful blue light to human body, and this mobile phone screen cover plate also has the function of oil-stain-preventing simultaneously.

For achieving the above object, the present invention is by the following technical solutions:

A kind of mobile phone screen cover plate of anti-blue light, it comprises the substrate by poly-sour carbon fat moulding, the outside surface of described substrate and inside surface are equipped with film system, and the film system of the outside surface of described substrate sequentially comprises shock resistance strengthening rete, anti-blue light rete, conductive film layer and oil-stain-preventing rete from the inside to surface; The film system of the inside surface of described substrate sequentially comprises shock resistance strengthening rete and conductive film layer from the inside to surface.

Described substrate is by gathering the moulding of sour carbon fat.

A manufacture method for the mobile phone screen cover plate of a kind of anti-blue light as claimed in claim 1, described manufacture method specifically comprises the following steps:

1) substrate is cleaned;

2) being dried after base-plate cleaning: by de-dry the substrate isopropyl alcohol after cleaning, the substrate after de-doing adopts isopropyl alcohol to draw slowly dry;

3) cleaning again in the vacuum chamber of electron beam evaporation plating machine before substrate film coating: draw slowly dried substrate to be placed in the vacuum chamber of electron beam evaporation plating machine isopropyl alcohol, when the vacuum values in vacuum chamber is less than or equal to 2.0 × 10 ^-3handkerchief, starts ion gun substrate is cleaned;

4) plated film of substrate: the plated film of substrate is included in the outside surface plated film system of substrate and the inside surface plated film system at substrate;

The outside surface plated film of A, substrate

A1, plating shock resistance strengthening rete: when the vacuum values in vacuum chamber is less than or equal to 2.0 × 10 ^-3handkerchief, adopts electron gun, and after the film material that shock resistance is strengthened to rete evaporates, under ionogenic effect, described film material is deposited on outer surface of substrate with nanoscale molecular form, forms shock resistance strengthening rete, and the thickness of shock resistance strengthening rete is 0.1-600 nanometer; Described shock resistance strengthening rete

Film material comprise the potpourri of the component of following percentage by weight: monox 20%-80%; Zirconia 20%-80%;

A2, plating anti-blue light rete: after adopting electron gun that the film material of anti-blue light rete is evaporated, under ionogenic effect, described film material is deposited on the surface of shock resistance strengthening rete in steps A 1 with nanoscale molecular form, form anti-blue light rete, the thickness of anti-blue light rete is 0.1-600 nanometer; The film material of described anti-blue light rete comprises the potpourri of the component of following percentage by weight: tin oxide 30%-60%; Rubidium 10%-40%; Platinum 10%-40%;

A3, plating conductive film layer: after adopting electron gun that the film material of conductive film layer is evaporated, under ionogenic effect, described film material is deposited on the surface of anti-blue light rete in steps A 2 with nanoscale molecular form, form conductive film layer, the thickness of conductive film layer is 0.1-600 nanometer; The film material of described conductive film layer is tin indium oxide;

A4, plating oil-stain-preventing rete: after adopting electron gun that the film material of oil-stain-preventing rete is evaporated, under ionogenic effect, described film material is deposited on the surface of conductive film layer in steps A 3 with nanoscale molecular form, form oil-stain-preventing rete, the thickness of oil-stain-preventing rete is 0.1-600 nanometer; The film material of described oil-stain-preventing rete comprises the potpourri of the component of following percentage by weight: magnesium fluoride 60%-80%; Tin indium oxide 20%-40%;

Oil-stain-preventing rete plated film completes, and after the outside surface plated film of substrate has been, proceeds to the inside surface plated film system of substrate;

The inside surface plated film of B, substrate;

B1, plating shock resistance strengthening rete: adopt electron gun, after the film material that shock resistance is strengthened to rete evaporates, under ionogenic effect, described film material is deposited on substrate inside surface with nanoscale molecular form, forms shock resistance strengthening rete, and the thickness of shock resistance strengthening rete is 0.1-600 nanometer; The film material of described shock resistance strengthening rete comprises the potpourri of the component of following percentage by weight: monox 20%-80%; Zirconia 20%-80%;

B2, plating conductive film layer: after adopting electron gun that the film material of conductive film layer is evaporated, under ionogenic effect, described film material is deposited on the surface of shock resistance strengthening rete in step B1 with nanoscale molecular form, form conductive film layer, the thickness of conductive film layer is 0.1-600 nanometer; The film material of described conductive film layer comprises the component of following percentage by weight: the film material of described conductive film layer is tin indium oxide.

In described step 1), as follows to the cleaning concrete steps of substrate:

A, employing organic cleaning solvent clean substrate, and clean so that ultrasound wave is auxiliary;

B, employing aqueous cleaning agent clean the substrate cleaning through step a, and clean so that ultrasound wave is auxiliary;

C, the substrate that step b is processed sequentially carry out tap water rinsing and distilled water rinsing.

The effect of the shock resistance strengthening rete of outer surface of substrate and inside surface: 1, can make the impact resistance of substrate improve, substrate is not easy fragmentation and avoids injuring eyes; 2, improve the adhesion of substrate, the medium that can be used as the lower skim layer of plating has fine cohesive action to make to be not easy between rete delamination.

The effect of the anti-blue light rete of outer surface of substrate: anti-blue light rete is that the transparent rete of a kind of white (platinum rete) can unique effective filtering noxious blue light and ultraviolet ray and various harmful rays; The blue light absorption rate that is 380-500nm for wavelength reaches more than 33%, makes vision light, thereby and then alleviate visual fatigue can enter desirable visual state.

The effect of the oil-stain-preventing rete of outer surface of substrate: mobile phone screen lid surface is coated with after multilayer film, cover plate film surface especially easily produces spot, and spot can be destroyed rete effect.Under the microscope, we can find that rete is cavernous structure, so greasy dirt especially easily infiltrates to rete.The method solving is on rete, to plate one deck again and have the rete of oil rub resistance and water resistance, and this rete not only can not change the optical property of other retes, and also has oil rub resistance, wear-resisting wiping and conductive effect; Oil-stain-preventing rete covers the rete that plates lid surface, and can reduce with oil and the contact area of mobile phone screen cover plate by Jiang Shui, makes oil and water droplet be difficult for adhering to mobile phone screen lid surface.

The present invention adopts the principle of electron beam vacuum evaporation, after utilizing charged particle to accelerate, there is the feature of certain kinetic energy in electric field, ion is guided into and wanted the electrode made by the substrate of plated film, and bombard high purity metal oxide component by electron gun with high temperature, the nano molecular being evaporated makes its method that moves to substrate and finally deposit film forming on substrate along certain direction.This invention technology is in conjunction with the trajectory of electron motion utilizing in the special distribution control electric field in magnetic field, and the technique of improving plated film with this, makes coating film thickness and homogeneity controlled, and the rete compactness of preparation is good, cohesive force strong and high purity.

The present invention has the feature of certain kinetic energy after utilizing charged particle to accelerate in electric field, ion is guided into and wanted the electrode (negative electrode) made by the substrate of plated film, and bombard high purity metal oxide component (anode) by electron gun with high temperature, the nano molecular being evaporated makes its method that moves to substrate surface and finally deposit film forming on substrate surface along certain direction.This invention technology is in conjunction with the trajectory of electron motion utilizing in the special distribution control electric field in magnetic field, and the technique of improving plated film with this, makes coating film thickness and homogeneity controlled, and the rete compactness of preparation is good, cohesive force strong and high purity.

The present invention is coated with stratified film on the substrate of mobile phone screen cover plate, the rete being formed by technique for vacuum coating by multiple compound substance, coordinating between rete and rete finally forms the transparent rete (platinum film) of a kind of white, the effectively more than 3% harmful blue light of filter 23 of rete (platinum rete) that white is transparent, transmittance keeps more than 79% sharpness and the authenticity for vision to have good contribution, it is light that transparent rete (platinum rete) effect of white faces toward luminescent screen vision, by effectively alleviating visual fatigue to the filtration of harmful blue light.

Brief description of the drawings

below in conjunction with the drawings and specific embodiments, the present invention is described in further details:

Fig. 1 is exploded view of the present invention.

Embodiment

As shown in Figure 1, a kind of mobile phone screen cover plate of anti-blue light, it comprises the substrate 1 by poly-sour carbon fat moulding, the outside surface of described substrate 1 and inside surface are equipped with film system, and the film system of the outside surface of described substrate 1 sequentially comprises shock resistance strengthening rete 2, anti-blue light rete 3, conductive film layer 4 and oil-stain-preventing rete 5 from the inside to surface; The film system of the inside surface of described substrate 1 sequentially comprises shock resistance strengthening rete 6 and conductive film layer 7 from the inside to surface.

Described substrate 1 is by poly-sour carbon fat moulding.

A manufacture method for the mobile phone screen cover plate of a kind of anti-blue light as claimed in claim 1, described manufacture method specifically comprises the following steps:

1) substrate 1 is cleaned;

2) dry after cleaning of substrate 1: by de-the substrate 1 use isopropyl alcohol after cleaning dry, it is dry that de-substrate 1 after dry adopts isopropyl alcohol to draw slowly;

3) cleaning again in the vacuum chamber of electron beam evaporation plating machine before substrate 1 plated film: draw slowly dried substrate 1 to be placed in the vacuum chamber of electron beam evaporation plating machine isopropyl alcohol, when the vacuum values in vacuum chamber is less than or equal to 2.0 × 10 ^-3handkerchief, starts ion gun substrate 1 is cleaned;

4) plated film of substrate 1: the plated film of substrate 1 is included in the outside surface plated film system of substrate 1 and the inside surface plated film system at substrate 1;

The outside surface plated film of A, substrate 1

A1, plating shock resistance strengthening rete 2: when the vacuum values in vacuum chamber is less than or equal to 2.0 × 10 ^-3handkerchief, adopt electron gun, after the film material that shock resistance is strengthened to rete 2 evaporates, under ionogenic effect, described film material is deposited on substrate 1 outside surface with nanoscale molecular form, form shock resistance strengthening rete 2, the thickness of shock resistance strengthening rete 2 is 0.1-600 nanometer; The film material of described shock resistance strengthening rete 2 comprises the potpourri of the component of following percentage by weight: monox 20%-80%; Zirconia 20%-80%;

A2, plating anti-blue light rete 3: after adopting electron gun that the film material of anti-blue light rete 3 is evaporated, under ionogenic effect, described film material is deposited on the surface of shock resistance strengthening rete 2 in steps A 1 with nanoscale molecular form, form anti-blue light rete 3, the thickness of anti-blue light rete 3 is 0.1-600 nanometer; The film material of described anti-blue light rete 3 comprises the potpourri of the component of following percentage by weight: tin oxide 30%-60%; Rubidium 10%-40%; Platinum 10%-40%;

A3, plating conductive film layer 4: after adopting electron gun that the film material of conductive film layer 4 is evaporated, under ionogenic effect, described film material is deposited on the surface of anti-blue light rete 3 in steps A 2 with nanoscale molecular form, form conductive film layer 4, the thickness of conductive film layer 4 is 0.1-600 nanometer; The film material of described conductive film layer 4 is tin indium oxide;

A4, plating oil-stain-preventing rete 5: after adopting electron gun that the film material of oil-stain-preventing rete 5 is evaporated, under ionogenic effect, described film material is deposited on the surface of conductive film layer 4 in steps A 3 with nanoscale molecular form, form oil-stain-preventing rete 5, the thickness of oil-stain-preventing rete 5 is 0.1-600 nanometer; The film material of described oil-stain-preventing rete 5 comprises the potpourri of the component of following percentage by weight: magnesium fluoride 60%-80%; Tin indium oxide 20%-40%;

Oil-stain-preventing rete 5 plated films complete, and after the outside surface plated film of substrate 1 has been, proceed to the inside surface plated film system of substrate 1;

The inside surface plated film of B, substrate 1;

B1, plating shock resistance strengthening rete 6: adopt electron gun, after the film material that shock resistance is strengthened to rete 6 evaporates, under ionogenic effect, described film material is deposited on substrate 1 inside surface with nanoscale molecular form, form shock resistance strengthening rete 6, the thickness of shock resistance strengthening rete 6 is 0.1-600 nanometer; The film material of described shock resistance strengthening rete 6 comprises the potpourri of the component of following percentage by weight: monox 20%-80%; Zirconia 20%-80%;

B2, plating conductive film layer 7: after adopting electron gun that the film material of conductive film layer 7 is evaporated, under ionogenic effect, described film material is deposited on the surface of shock resistance strengthening rete 6 in step B1 with nanoscale molecular form, form conductive film layer 7, the thickness of conductive film layer 7 is 0.1-600 nanometer; The film material of described conductive film layer 7 comprises the component of following percentage by weight: the film material of described conductive film layer 7 is tin indium oxide.

In described step 1), as follows to the cleaning concrete steps of substrate 1:

A, employing organic cleaning solvent clean substrate 1, and clean so that ultrasound wave is auxiliary;

B, employing aqueous cleaning agent clean the substrate 1 cleaning through step a, and clean so that ultrasound wave is auxiliary;

C, the substrate 1 that step b is processed sequentially carry out tap water rinsing and distilled water rinsing.

In coating process of the present invention, the light wave that adopts the full spectrum end point analysis technology of multi-wavelength to monitor between 280 nanometer to 760 nanometers changes and perspective rate, adopt quartz crystal monitoring system, utilize measure of the change, the monitoring Coating Materials velocity of evaporation frequency of quartz crystal oscillation frequency, velocity of evaporation frequency resolution is 0.01 nanometer per second, the brilliant film thickness sensors of 6 Rotary Water of quartz crystal monitoring system, can improve the precision of coating film thickness, make the trueness error of thickness between 0.1 nanometer.

The embodiment of the film system of substrate 1 outside surface:

The embodiment of shock resistance strengthening rete 2 components of substrate 1 outside surface:

Embodiment 1: monox 20%, zirconia 80%.

Embodiment 2: monox 80%, zirconia 20%.

Embodiment 3: monox 50%, zirconia 50%.

The embodiment of anti-blue light rete 3 components of substrate 1 outside surface:

Embodiment 1: tin oxide 30%; Rubidium 40%; Platinum 40%.

Embodiment 2: tin oxide 60%, rubidium 10%; Platinum 30%.

Embodiment 3: tin oxide 55%, rubidium 35%; Platinum 10%.

The embodiment of oil-stain-preventing rete 5 components of substrate 1 outside surface:

Embodiment 1: magnesium fluoride 60%; Tin indium oxide 40%.Embodiment 2: magnesium fluoride 80%; Tin indium oxide 20%.

Embodiment 3: magnesium fluoride 50%; Tin indium oxide 50%.

The embodiment of substrate 1 inner surface film system:

The embodiment of shock resistance strengthening rete 6 components of substrate 1 inside surface:

Embodiment 1: monox 20%, zirconia 80%.

Embodiment 2: monox 80%, zirconia 20%.

Embodiment 3: monox 50%, zirconia 50%.

Claims (4)

1. the mobile phone screen cover plate of an anti-blue light, it comprises substrate, the outside surface of described substrate and inside surface are equipped with film system, it is characterized in that: the film system of the outside surface of described substrate sequentially comprises shock resistance strengthening rete, anti-blue light rete, conductive film layer and oil-stain-preventing rete from the inside to surface; The film system of the inside surface of described substrate sequentially comprises shock resistance strengthening rete and conductive film layer from the inside to surface.

2. the mobile phone screen cover plate of a kind of anti-blue light according to claim 1, is characterized in that: described substrate is by gathering the moulding of sour carbon fat.

3. a manufacture method for the mobile phone screen cover plate of a kind of anti-blue light as claimed in claim 1, is characterized in that: described manufacture method specifically comprises the following steps:

1) substrate is cleaned;

2) being dried after base-plate cleaning: by de-dry the substrate isopropyl alcohol after cleaning, the substrate after de-doing adopts isopropyl alcohol to draw slowly dry;

3) cleaning again in the vacuum chamber of electron beam evaporation plating machine before substrate film coating: draw slowly dried substrate to be placed in the vacuum chamber of electron beam evaporation plating machine isopropyl alcohol, when the vacuum values in vacuum chamber is less than or equal to 2.0 × 10 ^-3handkerchief, starts ion gun substrate is cleaned;

4) plated film of substrate: the plated film of substrate is included in the outside surface plated film system of substrate and the inside surface plated film system at substrate;

The outside surface plated film of A, substrate

A1, plating shock resistance strengthening rete: when the vacuum values in vacuum chamber is less than or equal to 2.0 × 10 ^-3handkerchief, adopts electron gun, and after the film material that shock resistance is strengthened to rete evaporates, under ionogenic effect, described film material is deposited on outer surface of substrate with nanoscale molecular form, forms shock resistance strengthening rete, and the thickness of shock resistance strengthening rete is 0.1-600 nanometer; Described shock resistance strengthening rete

Film material comprise the potpourri of the component of following percentage by weight: monox 20%-80%; Zirconia 20%-80%;

A2, plating anti-blue light rete: after adopting electron gun that the film material of anti-blue light rete is evaporated, under ionogenic effect, described film material is deposited on the surface of shock resistance strengthening rete in steps A 1 with nanoscale molecular form, form anti-blue light rete, the thickness of anti-blue light rete is 0.1-600 nanometer; The film material of described anti-blue light rete comprises the potpourri of the component of following percentage by weight: tin oxide 30%-60%; Rubidium 10%-40%; Platinum 10%-40%;

A3, plating conductive film layer: after adopting electron gun that the film material of conductive film layer is evaporated, under ionogenic effect, described film material is deposited on the surface of anti-blue light rete in steps A 2 with nanoscale molecular form, form conductive film layer, the thickness of conductive film layer is 0.1-600 nanometer; The film material of described conductive film layer is tin indium oxide;

A4, plating oil-stain-preventing rete: after adopting electron gun that the film material of oil-stain-preventing rete is evaporated, under ionogenic effect, described film material is deposited on the surface of conductive film layer in steps A 3 with nanoscale molecular form, form oil-stain-preventing rete, the thickness of oil-stain-preventing rete is 0.1-600 nanometer; The film material of described oil-stain-preventing rete comprises the potpourri of the component of following percentage by weight: magnesium fluoride 60%-80%; Tin indium oxide 20%-40%;

Oil-stain-preventing rete plated film completes, and after the outside surface plated film of substrate has been, proceeds to the inside surface plated film system of substrate;

The inside surface plated film of B, substrate;

B1, plating shock resistance strengthening rete: adopt electron gun, after the film material that shock resistance is strengthened to rete evaporates, under ionogenic effect, described film material is deposited on substrate inside surface with nanoscale molecular form, forms shock resistance strengthening rete, and the thickness of shock resistance strengthening rete is 0.1-600 nanometer; The film material of described shock resistance strengthening rete comprises the potpourri of the component of following percentage by weight: monox 20%-80%; Zirconia 20%-80%;

B2, plating conductive film layer: after adopting electron gun that the film material of conductive film layer is evaporated, under ionogenic effect, described film material is deposited on the surface of shock resistance strengthening rete in step B1 with nanoscale molecular form, form conductive film layer, the thickness of conductive film layer is 0.1-600 nanometer; The film material of described conductive film layer comprises the component of following percentage by weight: the film material of described conductive film layer is tin indium oxide.

4. the manufacture method of the mobile phone screen cover plate of a kind of anti-blue light according to claim 3, is characterized in that: in described step 1), as follows to the cleaning concrete steps of substrate:

A, employing organic cleaning solvent clean substrate, and clean so that ultrasound wave is auxiliary;

B, employing aqueous cleaning agent clean the substrate cleaning through step a, and clean so that ultrasound wave is auxiliary;

C, the substrate that step b is processed sequentially carry out tap water rinsing and distilled water rinsing.