CN110167296A

CN110167296A - The processing method of lid, electronic equipment and lid

Info

Publication number: CN110167296A
Application number: CN201910383952.9A
Authority: CN
Inventors: 杨自美; 游胜博
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2019-05-09
Filing date: 2019-05-09
Publication date: 2019-08-23
Anticipated expiration: 2039-05-09
Also published as: CN110167296B

Abstract

This application discloses the processing method of a kind of lid, electronic equipment and lid, the lid includes: substrate, and the substrate includes opposite outer surface and inner surface；Noctilucence layer, the noctilucence layer are located at least one of outer surface and inner surface of the substrate, and the noctilucence layer includes luminescent powder, and the equivalent spherical diameter of the luminescent powder is d₁, the d₁Meet: 60 μm≤d₁≤160μm；Wherein, when the noctilucence layer is located at the inner surface of the substrate, the substrate is Transparent Parts.According to the lid of the application, the luminescent powder of the lid can flash in the dark and form multiple tiny luminous patterns, so as to build the appearance that it was studded with stars, be conducive to be promoted the product texture of lid and watch degree, simultaneously, the luminescent devices such as setting LED light are not needed, can avoid extra power consumption, it is at low cost.

Description

The processing method of lid, electronic equipment and lid

Technical field

This application involves field of electronic devices, more particularly, to the processing method of a kind of lid, electronic equipment and lid.

Background technique

In the related technology, fluorescent ink is printed on substrate, by fluorescent ink in the illumination accumulation of energy such as natural light or light Afterwards, it realizes and generates luminous pattern in a dark environment, however this mode causes the product texture of lid and ornamental degree not high.Or Person is arranged luminescent devices, the luminescent devices such as LED light at substrate and is connected with control device in the related technology, control device control Luminescent device shines in the dark, however this mode increases the power consumption of complete machine, and at high cost.

Summary of the invention

Present applicant proposes the lid of a kind of electronic equipment, the luminescent powder of the lid can be flashed in the dark and be formed more A tiny luminous pattern is conducive to the product texture and sight that promote lid so as to build the appearance that it was studded with stars Reward degree, meanwhile, the luminescent devices such as setting LED light are not needed, can avoid extra power consumption, it is at low cost.

The application also proposed a kind of electronic equipment with above-mentioned lid.

The processing method that the application also proposed the lid of a kind of electronic equipment.

According to the lid of the electronic equipment of the embodiment of the present application, comprising: substrate, the substrate include opposite outer surface and Inner surface；Noctilucence layer, the noctilucence layer are located at least one of outer surface and inner surface of the substrate, the noctilucence layer Including luminescent powder, the equivalent spherical diameter of the luminescent powder is d₁, the d₁Meet: 60 μm≤d₁≤160μm；Wherein, when the night When photosphere is located at the inner surface of the substrate, the substrate is Transparent Parts.

According to the lid of the electronic equipment of the embodiment of the present application, by making the equivalent spherical diameter of luminescent powder be d₁Meet: 60μm≤d₁≤ 160 μm, the luminescent powder of lid can absorb more luminous energy under light as a result, and be flashed in the dark to produce The raw appearance that it was studded with stars is conducive to the product texture for promoting lid and ornamental degree, while the simple process of lid, is not required to LED light is set, and not additional power consumption is at low cost.

According to the electronic equipment of the embodiment of the present application, comprising: above-mentioned lid；Display component, the display component are set to The lid.

According to the electronic equipment of the embodiment of the present application, by the way that above-mentioned lid is arranged, the luminescent powder of lid can be under light Luminous energy is absorbed, and flashes the product texture and sight for being conducive to promote lid to generate the appearance that it was studded with stars in the dark Reward degree, while the simple process of lid do not need setting LED light, not additional power consumption.

According to the processing method of the lid of the electronic equipment of the embodiment of the present application, comprising the following steps: S10: providing a base Plate, the substrate include opposite outer surface and inner surface；S20: noctilucence layer, the noctilucence are sprayed in the outer surface of the substrate Layer includes luminescent powder, and the equivalent spherical diameter of the luminescent powder is d1, and the d1 meets: 60 μm≤d1≤160 μm；S30: described Transparent protective layer is arranged in the side surface away from the substrate of noctilucence layer.

According to the processing method of the lid of the electronic equipment of the embodiment of the present application, by the way that noctilucence layer, the night of noctilucence layer is arranged Light powder can absorb luminous energy under light, and be flashed in the dark to generate the appearance that it was studded with stars, be conducive to promote lid Product texture and ornamental degree, while the simple process of lid, do not need setting LED light, not additional power consumption.

According to the processing method of the lid of the electronic equipment of the embodiment of the present application, comprising the following steps: A1: providing a base Plate, the substrate include opposite outer surface and inner surface, and the substrate is Transparent Parts；A2: it is sprayed in the inner surface of the substrate Noctilucence layer is applied, the noctilucence layer includes luminescent powder, and the equivalent spherical diameter of the luminescent powder is d₁, the d₁Meet: 60 μm≤d₁≤ 160μm。

The additional aspect and advantage of the application will be set forth in part in the description, and will partially become from the following description It obtains obviously, or recognized by the practice of the application.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the application will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the structural schematic diagram according to the lid of some embodiments of the application；

Fig. 2 is the structural schematic diagram according to the lid of the application other embodiments；

Fig. 3 is the structural schematic diagram according to the lid of the application still other embodiments；

Fig. 4 is the structural schematic diagram according to the lid of the application still other embodiments；

Fig. 5 is the structural schematic diagram according to the lid of the application still other embodiments；

Fig. 6 is the structural schematic diagram according to the lid of the application still other embodiments；

Fig. 7 is the structural schematic diagram according to the lid of the application still other embodiments；

Fig. 8 is the structural schematic diagram according to the lid of the application still other embodiments；

Fig. 9 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 10 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 11 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 12 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 13 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 14 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 15 is the structural schematic diagram according to the lid of the application still other embodiments；

Figure 16 is the flow diagram according to the processing method of the lid of the electronic equipment of some embodiments of the application；

Figure 17 is the flow diagram according to the processing method of the lid of the electronic equipment of the application other embodiments；

Figure 18 is the flow diagram according to the processing method of the lid of the electronic equipment of the application still other embodiments；

Figure 19 is the flow diagram according to the processing method of the lid of the electronic equipment of the application still other embodiments；

Figure 20 is the structural schematic diagram according to the electronic equipment of the application.

Appended drawing reference:

Electronic equipment 100；

Lid 10；

Substrate 1；Outer surface 11；Inner surface 12；Noctilucence layer 2；Flash layer 3；Color gradient layer 4；Light oil reservoir 5；Light reflection Layer 6；Background color layer 7；Protective layer 8；

Ring frame 10a；Lid ontology 10b；

Display component 20.

Specific embodiment

Embodiments herein is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the application, and should not be understood as the limitation to the application.

Below with reference to the accompanying drawings the lid 10 of electronic equipment 100 according to the embodiment of the present application is described.

Shown in referring to Fig.1, according to the lid 10 of the electronic equipment 100 of the embodiment of the present application, comprising: substrate 1 and noctilucence layer 2, substrate 1 includes opposite outer surface 11 and inner surface 12, and noctilucence layer 2 is located in the outer surface 11 and inner surface 12 of substrate 1 On at least one, in other words, as shown in Figure 1, noctilucence layer 2 is located on the outer surface 11 of substrate 1；Alternatively, as shown in figure 9, noctilucence Layer 2 is located on the inner surface 12 of substrate 1；Or noctilucence layer 2 is respectively provided on the outer surface 11 and inner surface 12 of substrate 1.

Wherein, referring to shown in Fig. 9, when noctilucence layer 2 is located at the inner surface 12 of substrate 1, substrate 1 is Transparent Parts.It can manage Solution, it is transparent to mean property of the substance by light, that is to say, that substrate 1 have translucency, acrylic board, glass or Crystalline ceramics etc. is transparent or trnaslucent materials belongs to Transparent Parts described herein.Optionally, the light transmittance of Transparent Parts exists 30% or more.1 light-permeable of substrate as a result, advantageously ensures that noctilucence layer 2 can absorb luminous energy and may be implemented at dark and shines.

Further, when substrate 1 be acrylic board when, substrate 1 with a thickness of 0.5mm-0.7mm；When substrate 1 is 2D glass When, substrate 1 with a thickness of 0.7mm；When substrate 1 be 2.5D glass when, substrate 1 with a thickness of 0.55mm-0.65mm；When substrate 1 When for 3D glass, substrate 1 with a thickness of 0.5mm-0.7mm.

Wherein, 2D glass is flat glass plate, and 2.5D glass refers to that there is the area of a plane at the center of glass board material Domain, periphery is then excessive with cambered surface, that is, has carried out radian processing to edge on the basis of flat glass plate, and 3D glass refers to Be that radian processing has been carried out to the center and peripheral of glass board material.Preferably, substrate 1 be 2.5D glass or 3D glass, by This, can be improved the appearance power of substrate 1, so that lid 10 has more three-dimensional sense.

When substrate 1 is made by non-transparent materials such as plastic cement, ceramics or metals, as shown in Figure 1, noctilucence layer 2 is located at substrate 1 Outer surface 11, can avoid noctilucence layer 2 as a result, by 1 shading of substrate, convenient for noctilucence layer 2 absorb luminous energy and at dark it is luminous.

Specifically, noctilucence layer 2 includes luminescent powder, and the equivalent spherical diameter of luminescent powder is d₁, d₁Meet: 60 μm≤d₁≤160μ M, for example, d₁Can with value be 61 μm, 70 μm, 80 μm, 90 μm, 100 μm, 110 μm, 12 μm, 130 μm, 140 μm, 150 μm or 159μm。

For example, luminescent powder can be formed as spherical, elliposoidal or the polygon bodily form, the calculation of equivalent spherical diameter is: first First, aspherical volume is measured or is calculated, then, calculates the diameter of spherical shape corresponding to the volume, which is etc. Imitate bulb diameter.When pearl powder is formed as spheroidal, equivalent spherical diameter is identical as actual diameter.

It is understood that luminescent powder be can in dark at automatic luminous material, main component is rare earth, is belonged to inorganic Class material.Luminescent powder first absorbs various light and heats, is converted into luminous energy storage, then automatic luminous in the dark, each by absorbing Kind of visible light realizes light-emitting function, and can unlimited number be recycled, especially to 450 nanometers of shortwave lights below, sunlight There is very strong absorbability with ultraviolet.The ingredient of current main noctilucence powder material is (SrAl₂O₄: Eu, Dy --- it is yellow Green) or (Sr₂MgSi2O₇: Eu, Dy --- blue), (Y₂O₂S:Eu, Mg, Ti --- it is red) etc. ingredients, according to it not Co-wavelength start electron transition release energy it is luminous, to issue the light of different colours.Its luminescent color have yellow green, yellow, Red, blue, grey, white, purple etc..It can be selected according to luminescent powder of the different design requirements to different luminescent colors Or this is no longer described in detail in combination, the application.

Specifically, by making noctilucence layer 2 include the biggish luminescent powder of equivalent spherical diameter, the luminescent powder of lid 10 can be More luminous energy is absorbed under light, and is flashed in the dark to generate the appearance that it was studded with stars, is conducive to promote lid 10 Product texture and ornamental degree, while the simple process of lid 10, do not need setting LED light, and not additional power consumption is at low cost.

According to the lid 10 of the electronic equipment 100 of the embodiment of the present application, by making the equivalent spherical diameter of luminescent powder be d₁ Meet: 60 μm≤d₁≤ 160 μm, the luminescent powder of lid 10 can absorb more luminous energy under light as a result, and flash in the dark To generate the appearance that it was studded with stars, be conducive to the product texture for promoting lid 10 and ornamental degree, while the technique of lid 10 Simply, setting LED light is not needed, not additional power consumption is at low cost.

Referring to Fig.1 and shown in Fig. 9, noctilucence layer 2 can also include pearl powder and/or silver powder.The noctilucence of noctilucence layer 2 as a result, Powder can absorb luminous energy under light, and be flashed in the dark to generate the appearance that it was studded with stars, meanwhile, on noctilucence layer 2 Pearl powder and/or silver powder can be reflective under the irradiation of light, so that lid 10 can be improved in the appearance power on daytime.For example, night Photosphere 2 is formed by the mixing paint spraying with luminescent powder and pearl powder；For another example, noctilucence layer 2 is by with luminescent powder and silver powder Mixing paint spraying is formed；For another example, noctilucence layer 2 is formed by the mixing paint spraying with luminescent powder, pearl powder and silver powder.

Referring to shown in Fig. 2 and Figure 10, lid 10 further includes flash layer 3, and flash layer 3 includes pearl powder and/or silver powder, changes speech It, flash layer 3 includes that perhaps flash layer 3 includes silver powder to pearl powder or flash layer 3 includes pearl powder and silver powder.Such as Fig. 2 institute Show, when noctilucence layer 2 is located at the outer surface 11 of substrate 1, flash layer 3 is located between noctilucence layer 2 and substrate 1；As shown in Figure 10, when When noctilucence layer 2 is located at the inner surface 12 of substrate 1, flash layer 3 is located at the side surface away from substrate 1 of noctilucence layer 2.As a result, just In the spraying for realizing flash layer 3, technology difficulty is advantageously reduced.For example, when flash layer 3 includes pearl powder and silver powder, silver powder The flicker effect of pearl powder can be enhanced, under the irradiation of light, be advantageously implemented the visual effect of starry sky flashing.

Referring to Fig.1 and shown in Fig. 9, the equivalent spherical diameter of pearl powder is d₂, d₂Meet: 30 μm≤d₂≤100μm.Lead to as a result, Cross the equivalent spherical diameter d for increasing pearl powder₂, the reflecting power for being conducive to enhance each pearl powder is conducive under the irradiation of light Realize the visual effect of starry sky flashing, while convenient for pearl powder is blended into mixing paint to spray to lid 10, so as to drop Low technology difficulty.For example, d₂It can be 31 μm, 40 μm, 50 μm, 60 μm, 70 μm, 80 μm, 90 μm or 100 μm, about d₂It is specific Numerical value can be according to required visual effect adjusted design.

Specifically, quality accounting of the pearl powder in flash layer 3 is k₂, k₂Meet: 0.05%≤k₂≤ 0.2%.As a result, It advantageously ensures that the reflecting power of pearl powder, under the irradiation of light, is advantageously implemented the visual effect of starry sky flashing, is convenient for simultaneously Pearl powder is blended into mixing paint to spray to lid 10, so as to reduce technology difficulty.For example, k₂Can for 0.06%, 0.1%, 0.15% or 0.19%, about k₂Specific value can be according to required visual effect adjusted design.

It is understood that the equivalent spherical diameter of silver powder is d₃, d₃Meet: 5 μm≤d₃≤25μm.Pearly-lustre can be enhanced as a result, The flicker effect of powder is advantageously implemented the visual effect of starry sky flashing, while mixed convenient for silver powder to be blended under the irradiation of light Paint is closed to spray to lid 10, so as to reduce technology difficulty.For example, k₂Can for 0.06%, 0.1%, 0.15% or 0.19%, about k₂Specific value can be according to required visual effect adjusted design.

Quality accounting of the above-mentioned silver powder in flash layer 3 is k₃, k₃Meet: 0.001%≤k₃≤ 0.01%.As a result, may be used Enhance the flicker effect of pearl powder, under the irradiation of light, is advantageously implemented the visual effect of starry sky flashing, while being convenient for silver powder Mixing paint is blended into spray to lid 10, so as to reduce technology difficulty.For example, k₃Can for 0.002%, 0.005%, 0.008% or 0.009%, about k₃Specific value can be according to required visual effect adjusted design.

Above-mentioned lid 10 further includes color gradient layer 4, referring to shown in Fig. 3, when noctilucence layer 2 is located at the outer surface of substrate 1 When 11, color gradient layer 4 is located between noctilucence layer 2 and substrate 1；Referring to Fig.1 shown in 1, when noctilucence layer 2 is located at the interior table of substrate 1 When face 12, color gradient layer 4 is located at the side that noctilucence layer 2 deviates from substrate 1.As a result, by the way that 2 He of noctilucence layer is arranged on substrate 1 Color gradient layer 4 may make lid 10 while have the effect of noctilucence and color gradient, to can further improve lid 10 Appearance power.

It is understood that the essence of color gradient layer 4 is a kind of color slurry, color gradient effect can be by gradually The technique for becoming spraying is realized, sparse from being intensively gradient to by changing the density of spraying when spraying, is formed from the gradual change having to nothing Effect.For example, it may be a kind of pearl powder gradual change of color sprays, the pearl powder for being also possible to two kinds of colors carries out gradual change and hits color There is color can reflect corresponding color light, the particle of transitional region can be effectively reduced for spraying, pearl powder inherently particle Sense, certainly, the application is without being limited thereto, common pigment ink also can be used, the concrete type of pigment can be according to realization need Want adjusted design.

For example, lid 10 includes that substrate 1, noctilucence layer 2, flash layer 3 and color gradient layer 4 work as noctilucence referring to shown in Fig. 8 When layer 2 is located at the outer surface 11 of substrate 1, flash layer 3 is located between noctilucence layer 2 and substrate 1, and color gradient layer 4 is located at flash layer 3 Between substrate 1；Referring to Fig.1 shown in 5, when noctilucence layer 2 is located at the inner surface 12 of substrate 1, flash layer 3 is located at noctilucence layer 2 Away from a side surface of substrate 1, color gradient layer 4 is located at the side surface that flash layer 3 deviates from substrate 1.

Lid 10 further includes light reflecting layer 6, referring to shown in Fig. 4, when noctilucence layer 2 is located at the outer surface 11 of substrate 1, and light Line reflection layer 6 is located between color gradient layer 4 and substrate 1；Referring to Fig.1 shown in 2, when noctilucence layer 2 is located at the inner surface 12 of substrate 1 When, light reflecting layer 6 is located at the side surface that color gradient layer 4 deviates from substrate 1.It is understood that anti-by setting light To penetrate layer 6 can obtain color needed for us, the reflective lid 10 that can show of the corresponding color of 6 bands in light reflecting layer Color, light reflecting layer 6 are presented bright full, may make the color change of lid 10 cleverer under shadow effect It is dynamic.

Further, light reflecting layer 6 is optical film layer, and the color needed for us can be obtained by the design of optical film Or texture, and the reflective color that can express entire lid 10 for passing through the corresponding color of optical film layer institute band.It can manage Light can be reflected into color gradient layer 4 by solution, optical film layer, so that the color of optical film layer and color gradient layer 4 Color generate Overlay, further improve the aesthetics of lid 10.

Specifically, light reflecting layer 6 is indium layer or indium stannum alloy layer.Indium layer or indium stannum alloy layer have reflectivity high Advantage, most of light can be reflected in indium layer or indium stannum alloy layer, so as to improve the gorgeous of color gradient layer 4 Degree, further improves the aesthetics of lid 10.

Referring to shown in Fig. 4 and Figure 12, the thickness in above-mentioned light reflecting layer 6 can be 0.1um-0.3um, light reflecting layer 6 can be designed as fade effect, may be designed in monochromatic effect.For example, light reflecting layer 6 can be formed by optical coating, The reflection and refraction effect of light are amplified by the superposition (high+low+high+low) of different refractivity substance conducive to the principle of interference used up Should be to enhance interference effect, and different light paths are formed to specific wavelength by control laminated thickness and refractive index Light progress is constructive or destructive, is formed specific color.For another example, light reflecting layer 6 is formed by progressive optical film plating layer, is led to Crossing the mode that jig blocks makes two parts film thickness difference to keep Film color different, so that light emission layer 6 is presented gradually Color changeable effect.

It is appreciated that above-mentioned light reflecting layer 6 can be UV texture layer, wherein UV can be printed by UV transfer technique Texture layer, UV transfer technique is more mature, and processing cost is lower, the structural strength for the texture printed using UV transfer technique is big, Hardness is strong, wearability is good, and can be realized changeable grain effect.

Referring to shown in Fig. 5 and Figure 13, above-mentioned lid 10 further includes light oil reservoir 5, and light oil reservoir 5 is located at 4 He of color gradient layer Between light reflecting layer 6.Color gradient layer 4 and light reflecting layer 6 can be isolated in light oil reservoir 5 as a result, to prevent color gradient layer Binding force risk occurs between 4 and light reflecting layer 6, color gradient layer 4 and light reflecting layer 6 is avoided to be mixed.

Above-mentioned lid 10 further includes background color layer 7, referring to shown in Fig. 6, when noctilucence layer 2 is located at the outer surface 11 of substrate 1, Background color layer 7 is located between light reflecting layer 6 and substrate 1；Referring to Fig.1 shown in 4, when noctilucence layer 2 is formed in the inner surface 12 of substrate 1 When, background color layer 7 is located at the side surface away from substrate 1 in light reflecting layer 6.The noctilucence effect of noctilucence layer 2 is advantageously ensured that as a result, Fruit.For example, background color layer 7 is priming paint, priming paint refers to that the coating for being directly applied to body surface as finishing coat solid foundation, priming paint are used for The adhesive force for improving finishing coat, the richness for increasing finishing coat, offer alkali resistance, offer anti-corrosion function etc., while can guarantee finishing coat Uniform pickup, make paint system play optimum efficiency.

Further, the absorptance of background color layer 7, from there through the low background color layer 7 of selection absorptance, can be reduced less than 20% Light-absorbing ability and the influence of illumination effect in the dark to luminescent powder, to advantageously ensure that the appearance of lid 10 Expressive force is advantageously implemented the visual effect that it was studded with stars.For example, background color layer 7 can be by the light colors such as white or grey oil Ink sprays, and the thickness of background color layer 7 can be 4um-8um.

For example, above-mentioned lid 10 includes substrate 1, noctilucence layer 2, flash layer 3, color gradient layer 4,6 and of light reflecting layer Background color layer 7, referring to shown in Fig. 8, when noctilucence layer 2 is located at the outer surface 11 of substrate 1, flash layer 3 is located at noctilucence layer 2 and substrate 1 Between, color gradient layer 4 is located between flash layer 3 and substrate 1, and light reflecting layer 6 is located between color gradient layer 4 and substrate 1, Background color layer 7 is located between light reflecting layer 6 and substrate 1；Referring to Fig.1 shown in 5, when noctilucence layer 2 is located at the inner surface 12 of substrate 1 When, flash layer 3 is located at the side surface away from substrate 1 of noctilucence layer 2, and color gradient layer 4 is located at flash layer 3 away from substrate 1 One side surface, light reflecting layer 6 are located at the side surface away from substrate 1 of color gradient layer 4, and background color layer 7 is located at light reflection The side surface away from substrate 1 of layer 6.As a result, by setting background color layer 7, advantageously allows color gradient layer 4 and light is anti- The reflective color for penetrating layer 6 reaches optimal effect.

Referring to shown in Fig. 7, when noctilucence layer 2 is located at the outer surface 11 of substrate 1, above-mentioned lid 10 further includes protective layer 8, Protective layer 8 is located at the side surface away from substrate 1 of noctilucence layer 2.Wherein, protective layer 8 is made by transparent material.It protects as a result, Layer 8 can protect noctilucence layer 2 directly to contact with external impurities to avoid noctilucence layer 2, be conducive to extend the physical life of lid 10.Example Such as, protective layer 8 can realize that the thickness of protective layer 8 can be 2um-4um by the Surface hardening treatment in noctilucence layer 2.

Referring to shown in Fig. 8 and Figure 15, above-mentioned luminescent powder is k in the quality accounting of noctilucence layer 2₁, k₁Meet: 3%≤k₁≤ 10%.The luminescent powder for advantageously allowing lid 10 as a result, can absorb more luminous energy under light, and be flashed in the dark to generate The appearance that it was studded with stars is conducive to the product texture for promoting lid 10 and ornamental degree.For example, k₁Can for 4%, 5%, 6%, 7%, 8% or 9%, about k₁Specific value can be according to required visual effect adjusted design.

Further, luminescent powder can be blended into gloss oil, then by spray gun by luminescent powder even application to substrate 1 with shape At noctilucence layer 2, to be conducive to enhance the adusk flicker effect of luminescent powder, it is advantageously implemented the vision of similar stellar scintillation Effect.

Referring to shown in Figure 20, according to the electronic equipment 100 of the embodiment of the present application, including according to the above embodiments of the present application Lid 10 and display component 20, display component 20 are set to lid 10.For example, as shown in figure 20, lid 10 include ring frame 10a and The lid ontology 10b being located in ring frame, display component 20 are set in ring frame 10a.Certainly, the application is without being limited thereto, lid 10 can also be formed directly as the rear cover of 3D, as a result, user ring frame 10a not visible from outside, to improve electronic equipment The aesthetics of appearance.

In other examples, lid 10 can also be 2.5D or 2D lid.

According to the electronic equipment 100 of the embodiment of the present application, by being arranged above-mentioned lid 10, the luminescent powder of lid 10 can be Luminous energy is absorbed under light, and flashes the product for being conducive to promote lid 10 to generate the appearance that it was studded with stars in the dark Texture and ornamental degree, while the simple process of lid 10, do not need setting LED light, not additional power consumption.

Referring to Fig.1 shown in 6, according to the processing method of the lid 10 of the electronic equipment 100 of the embodiment of the present application, may include Following steps:

S10: a substrate 1 is provided, substrate 1 includes opposite outer surface 11 and inner surface 12.For example, substrate 1 can be non- The nontransparent part such as bright plastic cement, metal or ceramics；

S20: noctilucence layer 2 is sprayed in the outer surface of substrate 1, noctilucence layer 2 includes luminescent powder, and the equivalent spherical diameter of luminescent powder is d₁, d₁Meet: 60 μm≤d₁≤160μm.The luminescent powder of noctilucence layer 2 can absorb luminous energy under light as a result, and dodge in the dark It sparkles to generate the appearance that it was studded with stars；

S30: transparent protective layer 8 is set in the side surface away from substrate 1 of noctilucence layer 2.Protective layer 8 can be prevented as a result, Shield noctilucence layer 2 is directly contacted with external impurities to avoid noctilucence layer 2, is conducive to extend the physical life of lid 10, is passed through simultaneously So that 8 light transmission of protective layer, advantageously ensures that noctilucence layer 2 can absorb luminous energy and may be implemented at dark and shines.

According to the processing method of the lid 10 of the electronic equipment 100 of the embodiment of the present application, by the way that noctilucence layer 2, noctilucence is arranged The luminescent powder of layer 2 can absorb luminous energy under light, and be flashed in the dark to generate the appearance that it was studded with stars, be conducive to mention It rises the product texture of lid 10 and watches degree, while the simple process of lid 10, do not need setting LED light, not additional function Consumption.

It further include following steps between step S10 and step S20 referring to Fig.1 shown in 7: S11: in the outer surface of substrate 1 1 setting background color layer 7 of the absorptance less than 20%, wherein background color layer 7 is located between the outer surface and noctilucence layer 2 of substrate 1.As a result, By making the absorptance of background color layer 7 less than 20%, can reduce to the light-absorbing ability of the luminescent powder of noctilucence layer 2 and black The influence of illumination effect in the dark, to be conducive to improve the appearance power of lid 10；

Further include following steps between step S11 and step S20 referring to Fig.1 shown in 7:

S12: light reflecting layer 6 is set in the side surface away from substrate 1 of background color layer 7.By the way that light reflecting layer 6 is arranged It can obtain the color needed for us, the reflective color that can show lid 10 of the corresponding color of 6 bands in light reflecting layer, Light reflecting layer 6 is presented bright full, may make the color change of lid 10 more agile under shadow effect；

S13: light oil reservoir 5 is set in the side surface away from substrate 1 in light reflecting layer 6.Light oil reservoir 5 can be isolated as a result, Color gradient layer 4 and light reflecting layer 6, thus prevent that binding force risk occurs between color gradient layer 4 and light reflecting layer 6, Color gradient layer 4 and light reflecting layer 6 is avoided to be mixed；

S14: color gradient layer 4 is set in the side surface away from substrate 1 of light oil reservoir 5.Lid 10 may make to have as a result, There is the effect of color gradient, to can further improve the aesthetics of lid 10.

Further include following steps between step S14 and step S20 referring to Fig.1 shown in 7:

S15: flash layer 3 is set in the side surface away from substrate 1 of color gradient layer 4, flash layer 3 is located at color gradient Between layer 4 and noctilucence layer 2, wherein flash layer 3 includes pearl powder and/or silver powder.Under the irradiation of light, flash layer 3 can dodge It is bright, it is advantageously implemented the visual effect that it was studded with stars.

Referring to Fig.1 shown in 8, according to the processing method of the lid 10 of the electronic equipment 100 of the embodiment of the present application, including it is following Step:

A1: providing a substrate 1, and substrate 1 includes opposite outer surface 11 and inner surface 12, and substrate 1 is Transparent Parts；

A2: noctilucence layer 2 is sprayed in the inner surface 11 of substrate 1, noctilucence layer 2 includes luminescent powder, the equivalent spherical diameter of luminescent powder For d₁, d₁Meet: 60 μm≤d₁≤160μm.The luminescent powder of noctilucence layer 2 can absorb luminous energy under light as a result, and in the dark Flashing is to generate the appearance that it was studded with stars.

Referring to Fig.1 shown in 9, the processing method of the lid 10 of electronic equipment 100 is further comprised the steps of:

A3: being arranged flash layer 3 away from a side surface of substrate 1 in noctilucence layer 2, wherein flash layer 3 include pearl powder and/ Or silver powder.Under the irradiation of light, flash layer 3 can flash, and be advantageously implemented the visual effect that it was studded with stars.

A4: color gradient layer 4 is set in the side surface away from substrate 1 of flash layer 3.This, may make lid 10 to have The effect of color gradient, to can further improve the aesthetics of lid 10；

A5: light oil reservoir 5 is set in the side surface away from substrate 1 of color gradient layer 4.Face can be isolated in light oil reservoir 5 as a result, Color graded bedding 4 and light reflecting layer 6 are kept away to prevent that binding force risk occurs between color gradient layer 4 and light reflecting layer 6 Exempt from color gradient layer 4 and light reflecting layer 6 is mixed；

A6: light reflecting layer 6 is set in the side surface away from substrate 1 of light oil reservoir 5.By the way that light reflecting layer 6 is arranged It can obtain the color needed for us, the reflective color that can show lid 10 of the corresponding color of 6 bands in light reflecting layer, Light reflecting layer 6 is presented bright full, may make the color change of lid 10 more agile under shadow effect；

A7: background color layer 7 of the absorptance less than 20% is set in the side surface away from substrate 1 in light reflecting layer 6.Pass through It is setting background color layer 7, the reflective color for advantageously allowing the light reflecting layer 6 of 4 sum of color gradient layer reaches optimal effect, together When background color layer 7 absorptance less than 20%, can reduce to the light-absorbing ability of the luminescent powder of noctilucence layer 2 and send out in the dark The influence of light effect, to be conducive to improve the appearance power of lid 10.

As shown in Fig. 8 and Figure 17, according to the processing method of the lid 10 of the electronic equipment 100 of the embodiment of the present application, including Following steps:

S11: background color layer 7 is set on the outer surface of substrate 1 11.As a result, by setting background color layer 7, face is advantageously allowed The reflective color in the light reflecting layer 6 of 4 sum of color graded bedding reaches optimal effect.For example, the absorptance of background color layer 7 is less than 20%, from there through the low background color layer 7 of selection absorptance, can reduce to the light-absorbing ability of the luminescent powder of noctilucence layer 2 and The influence of illumination effect in the dark, to be conducive to improve the appearance power of lid 10；

S14: color gradient layer 4 is set in the side surface away from substrate 1 of light oil reservoir 5.Lid 10 may make to have as a result, There is the effect of color gradient, to can further improve the aesthetics of lid 10；

S15: flash layer 3 is set in the side surface away from substrate 1 of color gradient layer 4, wherein flash layer 3 includes pearly-lustre Powder and/or silver powder.Under the irradiation of light, flash layer 3 can flash, and be advantageously implemented the visual effect that it was studded with stars；

S20: noctilucence layer 2 is sprayed in the outer surface of substrate 1, that is to say, that in the side table away from substrate 1 of flash layer 3 Noctilucence layer 2 is arranged in face, and noctilucence layer 2 includes luminescent powder, and the equivalent spherical diameter of luminescent powder is d₁, d₁Meet: 60 μm≤d₁≤160μm。 The luminescent powder of noctilucence layer 2 can absorb luminous energy under light as a result, and be flashed in the dark to generate the appearance effect that it was studded with stars Fruit；

According to the processing method of the lid 10 of the electronic equipment 100 of the embodiment of the present application, on the one hand pass through setting noctilucence layer 2, the luminescent powder of noctilucence layer 2 can absorb luminous energy under light, and be flashed in the dark to generate the appearance that it was studded with stars, have Conducive to the product texture for promoting lid 10 and degree is watched, while the simple process of lid 10, setting LED light is not needed, without volume Outer power consumption, on the other hand by setting flash layer 3, flash layer 3 can be reflective under the irradiation of light, exists so that lid 10 can be improved The appearance power on daytime.

As shown in Figure 15 and Figure 19, according to the processing method of the lid 10 of the electronic equipment 100 of the embodiment of the present application, including Following steps:

A2: noctilucence layer 2 is sprayed in the inner surface 11 of substrate 1, noctilucence layer 2 includes luminescent powder, the equivalent spherical diameter of luminescent powder For d₁, d₁Meet: 60 μm≤d₁≤160μm.The luminescent powder of noctilucence layer 2 can absorb luminous energy under light as a result, and in the dark Flashing is to generate the appearance that it was studded with stars；

A3: being arranged flash layer 3 away from a side surface of substrate 1 in noctilucence layer 2, wherein flash layer 3 include pearl powder and/ Or silver powder.Under the irradiation of light, flash layer 3 can flash, and be advantageously implemented the visual effect that it was studded with stars；

A7: background color layer 7 is set in the side surface away from substrate 1 in light reflecting layer 6.Pass through setting background color as a result, Layer 7, the reflective color for advantageously allowing the light reflecting layer 6 of 4 sum of color gradient layer reaches optimal effect.For example, background color layer 7 Absorptance less than 20%, from there through the low background color layer 7 of selection absorptance, the luminescent powder to following noctilucence layers 2 can be reduced The influence of light-absorbing ability and in the dark illumination effect, to be conducive to improve the appearance power of lid 10.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the application.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that embodiments herein, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle and objective of the application, this The range of application is defined by the claims and their equivalents.

Claims

1. the lid of a kind of electronic equipment characterized by comprising

Substrate, the substrate include opposite outer surface and inner surface；

Noctilucence layer, the noctilucence layer are located at least one of outer surface and inner surface of the substrate, the noctilucence layer packet Luminescent powder is included, the equivalent spherical diameter of the luminescent powder is d₁, the d₁Meet: 60 μm≤d₁≤160μm；

Wherein, when the noctilucence layer is located at the inner surface of the substrate, the substrate is Transparent Parts.

2. the lid of electronic equipment according to claim 1, which is characterized in that the noctilucence layer include pearl powder and/or Silver powder.

3. the lid of electronic equipment according to claim 1, which is characterized in that it further include flash layer, the flash layer packet Pearl powder and/or silver powder are included,

When the noctilucence layer is located at the outer surface of the substrate, the flash layer be located at the noctilucence layer and the substrate it Between；

When the noctilucence layer is located at the inner surface of the substrate, the flash layer be located at the noctilucence layer away from the substrate A side surface.

4. the lid of electronic equipment according to claim 3, which is characterized in that the equivalent spherical diameter of the pearl powder is d₂, The d₂Meet: 30 μm≤d₂≤100μm。

5. the lid of electronic equipment according to claim 3, which is characterized in that the pearl powder is in the flash layer Quality accounting is k₂, the k₂Meet: 0.05%≤k₂≤ 0.2%.

6. the lid of electronic equipment according to claim 3, which is characterized in that the equivalent spherical diameter of the silver powder is d₃, institute State d₃Meet: 5 μm≤d₃≤25μm。

7. the lid of electronic equipment according to claim 3, which is characterized in that matter of the silver powder in the flash layer Amount accounting is k₃, the k₃Meet: 0.001%≤k₃≤ 0.01%.

8. the lid of electronic equipment according to claim 1, which is characterized in that it further include color gradient layer,

When the noctilucence layer is located at the outer surface of the substrate, the color gradient layer is located at the noctilucence layer and the substrate Between；

When the noctilucence layer is located at the inner surface of the substrate, the color gradient layer is located at the noctilucence layer away from the base The side of plate.

9. the lid of electronic equipment according to claim 8, which is characterized in that it further include light reflecting layer,

When the noctilucence layer is located at the outer surface of the substrate, the light reflecting layer is located at the color gradient layer and described Between substrate；

When the noctilucence layer is located at the inner surface of the substrate, the light reflecting layer is located at the color gradient layer away from institute State a side surface of substrate.

10. the lid of electronic equipment according to claim 9, which is characterized in that further include light oil reservoir, the light oil reservoir is set Between the color gradient layer and the light reflecting layer.

11. the lid of electronic equipment according to claim 9, which is characterized in that it further include background color layer,

When the noctilucence layer is located at the outer surface of the substrate, the background color layer is located at the light reflecting layer and the substrate Between；

When the noctilucence layer is formed in the inner surface of the substrate, the background color layer be located at the light reflecting layer away from institute State a side surface of substrate.

12. the lid of electronic equipment according to claim 9, which is characterized in that when the noctilucence layer is located at the substrate Outer surface when,

The lid further includes transparent protective layer, and the protective layer is located at the side table away from the substrate of the noctilucence layer Face.

13. the lid of electronic equipment according to claim 11, which is characterized in that the absorptance of the background color layer is less than 20%.

14. the lid of electronic equipment according to claim 1 to 13, which is characterized in that the luminescent powder is in institute The quality accounting for stating noctilucence layer is k₁, the k₁Meet: 3%≤k₁≤ 10%.

15. a kind of electronic equipment characterized by comprising

Lid described in any one of -14 according to claim 1；

Display component, the display component are set to the lid.

16. the processing method of the lid of a kind of electronic equipment, which comprises the following steps:

S10: a substrate is provided, the substrate includes opposite outer surface and inner surface；

S20: noctilucence layer is sprayed in the outer surface of the substrate, the noctilucence layer includes luminescent powder, the equivalent sphere of the luminescent powder Diameter is d₁, the d₁Meet: 60 μm≤d₁≤160μm；

S30: transparent protective layer is set in the side surface away from the substrate of the noctilucence layer.

17. the processing method of the lid of electronic equipment according to claim 16, which is characterized in that in step S10 and step Further include following steps between rapid S20:

S11: background color layer of the absorptance less than 20% is set in the outer surface of the substrate, wherein the background color layer is located at described Between the outer surface of substrate and the noctilucence layer.

18. the processing method of the lid of electronic equipment according to claim 17, which is characterized in that in step S11 and step Further include following steps between rapid S20:

S12: light reflecting layer is set in the side surface away from the substrate of the background color layer；

S13: light oil reservoir is set in the side surface away from the substrate in the light reflecting layer；

S14: color gradient layer is set in the side surface away from the substrate of the light oil reservoir, wherein the color gradient Layer is between the light oil reservoir and the noctilucence layer.

19. the processing method of the lid of electronic equipment according to claim 18, which is characterized in that in the step S14 Further include following steps between the step S20:

S15: flash layer is set in the side surface away from the substrate of the color gradient layer, the flash layer is located at described Between color gradient layer and the noctilucence layer, wherein the flash layer includes pearl powder and/or silver powder.

20. the processing method of the lid of a kind of electronic equipment, which comprises the following steps:

A1: providing a substrate, and the substrate includes opposite outer surface and inner surface, and the substrate is Transparent Parts；

A2: noctilucence layer is sprayed in the inner surface of the substrate, the noctilucence layer includes luminescent powder, and the equivalent sphere of the luminescent powder is straight Diameter is d₁, the d₁Meet: 60 μm≤d₁≤160μm。

21. the processing method of the lid of electronic equipment according to claim 20, which is characterized in that further comprise the steps of:

A3: flash layer is set in the side surface away from the substrate of the noctilucence layer, wherein the flash layer includes pearly-lustre Powder and/or silver powder.

22. the processing method of the lid of electronic equipment according to claim 21, which is characterized in that further comprise the steps of:

A4: color gradient layer is set in the side surface away from the substrate of the flash layer.

23. the processing method of the lid of electronic equipment according to claim 22, which is characterized in that further comprise the steps of:

A5: light oil reservoir is set in the side surface away from the substrate of the color layers；

A6: light reflecting layer is set in the side surface away from the substrate of the light oil reservoir.

24. the processing method of the lid of electronic equipment according to claim 23, which is characterized in that further comprise the steps of:

A7: background color layer of the absorptance less than 20% is set in the side surface away from the substrate in the light reflecting layer.