CN109167859B - Screen cover plate, method for manufacturing screen cover plate and electronic equipment - Google Patents

Screen cover plate, method for manufacturing screen cover plate and electronic equipment Download PDF

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Publication number
CN109167859B
CN109167859B CN201811365752.2A CN201811365752A CN109167859B CN 109167859 B CN109167859 B CN 109167859B CN 201811365752 A CN201811365752 A CN 201811365752A CN 109167859 B CN109167859 B CN 109167859B
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China
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camera
ink
light
area
layer
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CN109167859A (en
Inventor
王小伟
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Oppo Chongqing Intelligent Technology Co Ltd
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Oppo Chongqing Intelligent Technology Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/026Details of the structure or mounting of specific components
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/026Details of the structure or mounting of specific components
    • H04M1/0264Details of the structure or mounting of specific components for a camera module assembly
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/026Details of the structure or mounting of specific components
    • H04M1/0266Details of the structure or mounting of specific components for a display module assembly

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Cameras Adapted For Combination With Other Photographic Or Optical Apparatuses (AREA)

Abstract

The invention discloses a screen cover plate, a method for manufacturing the screen cover plate and electronic equipment. Specifically, the present invention provides a screen cover plate, including: the camera comprises a substrate, a camera area and a camera frame area, wherein the camera frame area is arranged around the camera area; the camera comprises a camera frame area, an ink layer, a light guide particle and a light source, wherein the ink layer covers the camera frame area, the light transmittance of the ink layer is not more than 10%, and the ink layer is provided with the light guide particle. Therefore, the size of the camera hole can be visually reduced by the ink layer, and the appearance effect of the camera assembly and the electronic equipment is improved.

Description

Screen cover plate, method for manufacturing screen cover plate and electronic equipment
Technical Field
The invention relates to the field of electronic equipment manufacturing, in particular to a screen cover plate, a method for manufacturing the screen cover plate and electronic equipment.
Background
With the increase of the consumption level, consumers have increasingly demanded electronic products with not only diversification of functions but also appearance, texture, and the like. At present, screen electronic equipment comprehensively receives the extensive attention of industry, and screen comprehensively can let electronic equipment seem more to have the science and technology sense to, can show the visual impact effect that promotes electronic equipment, promote electronic product's expressive force. In order to realize the comprehensive screen effect, the camera assembly in the electronic equipment can also be arranged in the display screen, so that a special camera assembly area does not need to be reserved on the electronic equipment, and the visual effect of the electronic equipment is further improved.
However, the current screen covers of full-screen electronic devices and camera assemblies, etc. still need to be improved.
Disclosure of Invention
The present application is based on the discovery and recognition by the inventors of the following facts and problems:
camera subassembly in present screen has camera frame district usually around the camera, and this camera frame district is unfavorable for the integration of camera and display screen to can make the camera hole look very big, be unfavorable for the screen design of camera narrow frame and no frame, reduce the visual impact effect of display screen. At present, an electronic device having an in-screen camera is generally to dig a hole on a display screen, a camera assembly is disposed in the hole, and the camera is exposed on an outer surface of the display screen, in order to shield edges of a camera body and a visible film material around the camera hole, and in order to prevent light leakage and the like caused by digging a hole on the display screen, a screen cover plate is generally disposed above the display screen, and a shielding ink layer is printed and formed on an area (i.e., a camera frame area) corresponding to a periphery of the camera on the screen cover plate, for shielding edges of the camera body and the visible film material below, and preventing light leakage caused by digging a hole on the display screen. In order to play better shielding effect, the printing ink layer in this camera frame district is black usually, and back in the display screen was installed to the camera subassembly, the diameter in camera hole equals camera lens body diameter plus the width of camera frame district printing ink layer to the camera hole looks very big, is unfavorable for the screen design of camera narrow frame and no frame, reduces the visual impact effect of display screen. Therefore, if a screen cover plate which has good visual effect and simple manufacturing process, can reduce the frame of the camera and realize the narrow frame of the camera or even no frame can be provided, the problems can be solved to a great extent.
The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.
In one aspect of the invention, a screen cover is provided. According to an embodiment of the present invention, the screen cover includes: the camera comprises a substrate, a camera area and a camera frame area, wherein the camera frame area is arranged around the camera area; the camera comprises a camera frame area, an ink layer, a light guide particle and a light source, wherein the ink layer covers the camera frame area, the light transmittance of the ink layer is not more than 10%, and the ink layer is provided with the light guide particle. From this, when being arranged in electronic equipment with this screen apron, the leaded light particle in this printing ink layer can outwards be led the light that the display screen sent, changes the propagation direction of light and makes light jet out from the top in camera frame district, has reduced the scope of camera frame from the vision to reach the narrow frame of camera and even no frame's outward appearance effect, enlarged the scope of display screen, promoted electronic equipment's visual impact effect and product expressive force.
In another aspect of the present invention, a method of making a screen cover is provided. According to an embodiment of the invention, the method comprises: providing a substrate, wherein a camera area and a camera frame area are limited on the substrate, and the camera frame area is arranged around the camera area; printing ink in the camera frame area of the substrate so as to form an ink layer, wherein the ink layer has a light transmittance of not more than 10%, and light guide particles are arranged in the ink layer. Therefore, when the screen cover plate manufactured by the method is used in electronic equipment, the light guide particles in the ink layer can conduct light emitted by the display screen outwards, and the range of the frame of the camera can be visually reduced, so that the narrow-frame or even frameless appearance effect of the camera is achieved, the range of the display screen is enlarged, and the visual impact effect and the product expressive force of the electronic equipment are improved.
In yet another aspect of the present invention, an electronic device is presented. According to an embodiment of the present invention, the electronic apparatus includes: the device comprises a shell, a power supply and a control circuit, wherein a mainboard and a memory are arranged in the shell; the screen is arranged at the top of the shell and is connected with the main board; the camera assembly is arranged in the screen and comprises a camera and a camera frame; the screen apron, the screen apron covers the screen and camera subassembly, wherein, the camera district of screen apron with the camera corresponds the setting, the camera frame district of screen apron with the camera frame corresponds the setting, just the printing ink layer of screen apron with the camera frame contacts. Therefore, the electronic device has all the features and advantages of the screen cover described above, and will not be described herein again. Generally speaking, the camera assembly of the electronic equipment has the appearance effect of a narrow frame or even no frame, the visual effect of the electronic equipment is good, and the expressive force of the product is strong.
Drawings
FIG. 1 is a schematic diagram of a structure of a screen cover according to an embodiment of the present invention;
FIG. 2 is a schematic view of a structure of a cover plate according to another embodiment of the present invention;
FIG. 3 is a schematic diagram of a structure of a screen cover according to another embodiment of the present invention;
FIG. 4 is a schematic diagram of a structure of a screen cover according to another embodiment of the present invention;
FIG. 5 is a schematic diagram of a structure of a screen cover according to another embodiment of the present invention;
FIG. 6 is a schematic diagram of a structure of a screen cover according to another embodiment of the present invention;
FIG. 7 is a flow chart of a method of making a screen cover according to one embodiment of the present invention;
FIG. 8 is a flow chart of a method of making a screen cover according to another embodiment of the present invention; and
fig. 9 shows a schematic structural diagram of an electronic device according to an embodiment of the invention.
Description of reference numerals:
100: a substrate; 110: a camera area; 120: a camera frame area; 130: a display area; 140: a non-display area; 200: an ink layer; 210: a light directing ink sub-layer; 220: a masking sublayer; 10: light-guiding particles; 1000: a screen cover plate; 1100: an electronic device.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.
In one aspect of the invention, a screen cover is provided. Referring to fig. 1 and 2 (fig. 2 is a cross-sectional view along direction AA' of fig. 1), the screen cover 1000 includes: the image sensor includes a substrate 100 and an ink layer 200, where the substrate 100 defines a camera area 110 and a camera frame area 120, the camera frame area 120 is disposed around the camera area 110, the ink layer 200 covers the camera frame area 120 (for example, referring to fig. 2, the ink layer 200 covers the camera frame areas 120A and 120B), a light transmittance of the ink layer 200 is not greater than 10%, and the ink layer 200 has light guide particles 10. Therefore, when the screen cover 1000 is used in an electronic device, on one hand, the ink layer 200 can shield the edges of the camera body and the visible film material around the camera hole, and prevent light leakage caused by hole digging on the display screen, and on the other hand, the light guide particles 10 in the ink layer 200 can guide light emitted by the display screen outwards, change the light propagation direction and enable the light to be emitted from the upper side of the camera frame area 120, so that the range of the camera frame is visually reduced, the appearance effect of a narrow frame or even no frame of the camera assembly is achieved, the range of the display screen is expanded, and the visual impact effect and the product expressive force of the electronic device are improved (even the light emitted by the display screen near the camera frame area 120A or 120B is directed to the camera area).
For convenience of understanding, the following describes the principle that the screen cover according to the embodiment of the present invention can achieve the above technical effects:
as mentioned above, in the current electronic device with an in-screen camera, a screen cover plate is usually disposed above a display screen, and a shielding ink layer is printed on the screen cover plate in an area corresponding to a camera frame to shield the edges of a camera body and a visible film material below the screen cover plate and prevent light leakage caused by hole digging on the display screen. The back in the display screen is installed to the camera subassembly, and from the vision, the diameter in camera hole equals transparent camera lens body diameter and the width on camera frame district printing ink layer to the camera hole looks very big, is unfavorable for the screen design of camera narrow frame and no frame, reduces the visual impact effect of display screen. According to the screen cover plate provided by the embodiment of the invention, through designing the ink layer of the screen cover plate, on one hand, the light transmittance of the ink layer is not more than 10%, namely, the ink layer can better shield the camera main body around the camera hole and the edge of the visible film material, and prevent light leakage and the like caused by hole digging on the display screen; on the other hand, when the screen cover 1000 is used in an electronic device (the display screen of the electronic device can be located below the substrate 100 shown in fig. 2), referring to fig. 2, the light-guiding particles 10 in the ink layer 200 can guide the light emitted from the display screen (not shown) outwards (i.e. when the light near the edge of the display screen of the camera frame is incident on the light-guiding particles 10, the light can be diffused in all directions, the outward conduction refers to the light emitted from the edge of the display screen near the camera frame is emitted from the direction far away from the display screen on the substrate 100, i.e. from the camera frame area 120), the light propagation direction is changed and the light is emitted from the top of the screen cover (the light propagation direction refers to the directions shown by the dotted lines and arrows in fig. 2), so that the light and the image at the edge of the display screen seen by the user can be extended outwards from the view, even if the range of the display screen is expanded to the camera frame areas 120A and 120B, the range of the display screen is visually expanded, and the range of the camera frame (namely the range of the camera frame area 120) is reduced, so that the appearance effect of a camera assembly with a narrow frame or even no frame is achieved, the visual impact effect and the product expressive force of electronic equipment are improved, and the method is simple in manufacturing process and does not influence the use performance of the camera and the reliability of the display screen.
According to an embodiment of the present invention, the substrate 100 is formed of a transparent material, and particularly, may be formed of glass, transparent plastic, or the like. According to the embodiment of the present invention, the substrate 100 defines the camera area 110 and the camera frame area 120, the camera frame area 120 is disposed around the camera area 110, when the screen cover is used in an electronic device, the camera hole is exposed on the outer surface of the display screen of the electronic device, that is, the transparent camera area 110 on the substrate 100 is disposed above the camera hole, so that the camera hole can shoot through the transparent camera area 110 above, and the camera frame area 120 can shield the edges of the camera body and the visible film material, and prevent light leakage caused by the hole digging on the display screen.
According to the embodiment of the invention, the light transmittance of the ink layer 200 is not more than 10%, so that the ink layer 200 can better shield the edges of the camera main body and the visible film material, prevent light leakage and the like caused by hole digging on the display screen, and improve the appearance and the service performance of the display screen. Specifically, the light transmittance of the ink layer 200 may be not greater than 8%, may be not greater than 5%, may be not greater than 2%, and the like. According to an embodiment of the present invention, the ink layer 200 may be formed of a shielding ink, that is, an ink having a small light transmittance (for example, a light transmittance of not more than 10%), and specifically, the color of the shielding ink is not particularly limited, and may be black, or may be gray, white, or the like. Specifically, after the light of the display screen is emitted from the upper side of the camera frame area 120 through the scattering of the light guide particles 10, when the ink layer 200 is formed by white shielding ink, the white shielding ink does not interfere with the emitted light and the extended image at the edge of the display screen, thereby further improving the visual effect of the electronic device.
According to the embodiment of the present invention, the ink layer 200 has the light-guiding particles 10, and specifically, the specific type and size of the light-guiding particles 10 are not particularly limited as long as the good "light-guiding" effect can be achieved, i.e., the propagation direction of light incident from the edge of the display screen to the light-guiding particles can be changed, and light can be emitted from the upper side of the camera frame area 120. Specifically, the light guide particles 10 may be transparent light guide powder, such as silicone resin particles, and after the light guide particles formed from the transparent light guide powder are added into the shielding ink to form the ink layer 200, the light guide particles 10 are colorless, transparent or translucent, so that the overall color and appearance of the ink layer 200 are not affected by the incorporation of the light guide particles 10, and the appearance integrity of the electronic device is further improved. Specifically, the light guide particles 10 may have a particle size of several nanometers to several micrometers, so that the light guide particles have a better use effect. According to the embodiment of the present invention, the content of the light guide particles 10 in the shielding ink may be 1 to 30 wt%, specifically, 2 wt%, 5 wt%, 8 wt%, 10 wt%, 12 wt%, 15 wt%, 20 wt%, 25 wt%, or the like, and thus, when the addition ratio of the light guide particles 10 (i.e., the weight percentage of the light guide particles 10 in the shielding ink) is within the above range, a good light guide effect may be obtained, and the appearance effect of the ink layer 200 itself may not be affected.
According to an embodiment of the present invention, the arrangement manner of the light-guiding particles 10 in the ink layer 200 is not particularly limited, and for example, as described above, the light-guiding particles 10 may be directly added to the shielding ink so as to form the ink layer 200. Specifically, referring to fig. 3, the ink layer 200 may further include a light-guiding ink sublayer 210 disposed on one side of the substrate 100 (i.e., disposed below the substrate 100), and a shielding sublayer 220 disposed on one side of the light-guiding ink sublayer 210 away from the substrate 100 (i.e., disposed below the light-guiding ink sublayer 210) having the light-guiding particles 10 therein. Therefore, the shielding sublayer 220 can better shield the edges of the camera body and the visual film material, and prevent light leakage and the like caused by hole digging on the display screen, the light guide ink sublayer 210 with the light guide particles 10 can guide light emitted from the edges of the display screen outwards, change the light propagation direction and enable light rays to be emitted from the upper part of the camera frame area 120, and visually reduce the range of the camera frame, so that the appearance effect of the camera assembly with a narrow frame or even no frame is achieved, the range of the display screen is expanded, and the visual impact effect and the product expressive force of electronic equipment are improved.
According to the embodiment of the present invention, the specific material and the forming manner of the shielding sublayer 220 are not particularly limited as long as the light transmittance of the shielding sublayer 220 is low (for example, the light transmittance is not more than 10%), which can better shield the edges of the camera body and the visible film material, and prevent light leakage caused by hole digging on the display screen, and the like. Specifically, the shielding sub-layer 220 may be formed of shielding ink or a shielding film. That is, the shielding sublayer 220 may be formed by printing shielding ink on the surface of the light guide ink sublayer 210 away from the substrate 100, or may be formed by directly adhering a shielding film material to the surface of the light guide ink sublayer 210 away from the substrate 100, specifically, the shielding film material may be a film material on which shielding ink and the like are printed in advance, and when the screen cover according to the embodiment of the present invention is manufactured, the shielding film material may be directly adhered to the surface of the light guide ink sublayer 210 away from the substrate 100. Specifically, the light transmittance of the shielding sublayer 220 may be not more than 10%, and the color of the shielding sublayer 220 may be black, or gray, white, or the like.
According to the embodiment of the present invention, the light guide ink sub-layer 210 may be transparent, that is, the light transmittance of the light guide ink sub-layer 210 may be not less than 90%, may be not less than 95%, and the like, so that, on one hand, the light guide ink sub-layer 210 may better enable incident light at the edge of the display screen to be emitted from above the camera frame region 120, thereby improving the visual effect of the display screen; on the other hand, the transparent light-guiding ink sub-layer 210 does not interfere with the color, appearance and the like of the lower shielding sub-layer 220, and the appearance effect of the electronic device is further improved. According to an embodiment of the present invention, the light guiding ink sub-layer 210 may have a thickness of 2 to 20 μm, for example, 5 μm, 10 μm, 15 μm, etc., and the shielding sub-layer 220 may have a thickness of 4 to 40 μm, for example, 5 μm, 10 μm, 15 μm, 20 μm, 25 μm, 30 μm, 35 μm, etc. Therefore, the light guide ink sublayer 210 and the shielding sublayer 220 with the thickness can better shield the edges of the camera main body and the visible film material, prevent light leakage and the like caused by hole digging on the display screen, and enable light rays at the edges of the display screen to be emitted from the upper side of the camera frame area 120, so that the range of the camera frame area 120 is visually reduced, the narrow frame or even frameless design of the camera assembly is realized, and the visual effect of the electronic equipment is improved. According to an embodiment of the present invention, the content of the light-guiding particles in the light-guiding ink sub-layer 210 may be 30 to 80 wt%, for example, may be 40 wt%, may be 50 wt%, may be 60 wt%, may be 70 wt%, and the like. Therefore, when the ink layer comprises the light guide ink sub-layer and the shielding sub-layer, the content of light guide particles in the ink layer can be higher, so that the light guide performance is further improved, the range of the camera frame area is further smaller visually, and the visual effect of the electronic equipment is improved.
According to an embodiment of the present invention, the orthographic projection of the shielding sublayer 220 on the substrate 100 may cover the camera frame region 120, the light-guiding ink sublayer 210 may cover the camera frame region 120 (as shown in fig. 3), and the light-guiding ink sublayer 210 may also cover at most a portion of the camera frame region 120 away from the camera region 110 (as shown in reference to fig. 4). Specifically, the light guide ink sublayer 210 only covers at most a part of the area of the camera frame area 120 far from the camera area 110, that is, the light guide particles are not disposed on the camera frame area 120 close to the camera area 110, so that, on one hand, the area of the light guide ink sublayer 210 is covered on the camera frame area 120, and the light guide particles 10 therein can better conduct the light on the screen edge close to the camera frame area 120, so as to visually reduce the range of the camera frame area 120 and improve the visual effect of the display screen; on the other hand, the area of the camera frame area 120 not covered by the light guide ink sublayer does not contain light guide particles, so that the light guide intensity of the area is not large (i.e., the amount of light emitted from the area at the edge of the screen is not large), and therefore, the imaging effect of the camera is not affected, i.e., the imaging is not affected by external light, and the use performance of the camera assembly using the screen cover plate and the electronic device is further improved.
According to an embodiment of the present invention, referring to fig. 5 and fig. 6 (fig. 6 is a schematic cross-sectional structure along the direction BB' in fig. 5), a display area 130 and a non-display area 140 may be further defined on the substrate 100, the non-display area 140 is disposed around the display area 130, the camera area 110 and the camera frame area 120 are disposed in the display area 130, and the ink layer 200 covers the camera frame area 120 and the non-display area 140. Therefore, when the screen cover 1000 is used in an electronic device, on one hand, as described above, the ink layer 200 disposed in the camera frame region 120 (refer to the camera frame regions 120A and 120B shown in fig. 6) can not only shield the edges of the camera body and the visible film material around the camera hole, and prevent light leakage and the like caused by hole digging on the display screen, but also the light guide particles 10 in the ink layer 200 can guide light emitted by the display screen outward, change the light propagation direction, and make light emit from above the camera frame region 120, so as to visually reduce the range of the camera frame, thereby achieving the appearance effect of the camera assembly being a narrow frame or even a frame-less frame, expanding the range of the display screen, and improving the visual impact effect and product expressive force of the electronic device; on the other hand, the ink layer 200 disposed in the non-display area 140 (refer to the non-display areas 140A and 140B shown in fig. 6) can shield the driving circuit routing, the package frame, and the like around the display screen, and the light guide particles 10 in the ink layer 200 can guide the light emitted by the display screen outwards, change the propagation direction of the light, and emit the light from above the non-display area 140, so that the frame range of the screen is visually reduced, thereby achieving the appearance effect of a narrow frame or even no frame of the display screen, and further improving the visual impact effect and the product expressive force of the electronic device.
In another aspect of the present invention, a method of making a screen cover is provided. According to an embodiment of the present invention, the screen cover manufactured by the method may be the screen cover described above, and thus, the screen cover manufactured by the method has all the features and advantages of the screen cover described above, and will not be described herein again. In general, when the screen cover plate manufactured by the method is used in electronic equipment, the range of a camera frame of a camera assembly in a screen can be visually reduced, so that the appearance effect of a narrow frame or even no frame of the camera assembly is achieved, the range of a display screen is expanded, and the visual impact effect and the product expressive force of the electronic equipment are improved. Specifically, referring to fig. 7, the method includes:
s100: providing a substrate
In this step, a substrate is provided. According to an embodiment of the present invention, a specific type of the substrate is not particularly limited, and the substrate may be formed of a transparent material, specifically, glass, transparent plastic, or the like. According to the embodiment of the invention, the substrate defines the camera area and the camera frame area, the camera frame area is arranged around the camera area, when the screen cover plate is used in the electronic equipment, the camera is exposed on the outer surface of the display screen, and the camera frame area can shield the edges of the camera main body and the visible film material and prevent light leakage caused by holes dug in the display screen.
S200: printing ink on a substrate to form an ink layer
In this step, ink is printed in the camera frame area of the substrate described previously so as to form an ink layer. According to the embodiment of the invention, the light transmittance of the ink layer is not more than 10%, and the ink layer is provided with the light guide particles. Therefore, the light guide particles can guide light emitted by the display screen outwards, change the light propagation direction and enable the light to be emitted from the upper side of the camera frame area, the range of the camera frame is visually reduced, the appearance effect of a camera narrow frame or even no frame is achieved, the range of the display screen is expanded, and the visual impact effect and the product expressive force of electronic equipment are improved. According to the embodiment of the present invention, the method for making the ink layer is not particularly limited, for example, the light guide particles may be added to the masking ink to form a raw material for making the ink layer, and then the masking ink with the light guide particles added thereto may be printed on the camera frame area of the substrate, specifically, the ink may be printed on the substrate by screen printing. Specifically, the specific type, size, and addition ratio of the light-guiding particles may be the same as those described above, and will not be described herein again, for example, the addition ratio of the light-guiding particles (i.e., the weight percentage of the light-guiding particles in the shielding ink) may be 1-30 wt%.
According to further embodiments of the present invention, referring to fig. 8, printing an ink layer on a substrate may also include the steps of:
s210: forming a light-guiding ink sub-layer
In this step, the light-directing ink is printed in the camera frame area of the previously described substrate to form a light-directing ink sub-layer. Specifically, the light guide ink sub-layer may be formed by a screen printing method. According to an embodiment of the present invention, the light-guiding ink has the light-guiding particles described above therein. Therefore, the light guide ink sublayer can enable incident light at the edge of the display screen to be emitted from the upper side of the camera frame area well, and the visual effect of the display screen is improved. Specifically, the specific type of the light guide ink sublayer may be the same as that described above, and is not described herein again, specifically, the light guide ink sublayer may be transparent, the light transmittance of the light guide ink sublayer may be not less than 90%, the thickness of the light guide ink sublayer may be 2 to 20 μm, and the light guide ink sublayer may only cover a part of the region of the camera frame region away from the camera region, and the like. According to embodiments of the present invention, the light-guiding particles may be present in the light-guiding ink sub-layer in an amount of 30 to 80 wt%.
S220: forming the shielding sublayer in this step, a shielding sublayer is formed on the side of the light-guiding ink sublayer away from the substrate as described above. Specifically, as described above, a shielding ink may be printed on the surface of the light-guiding ink sub-layer on the side away from the substrate, so as to form a shielding sub-layer; or directly sticking a pre-manufactured shielding film material on the surface of the light guide ink sub-layer far away from the substrate so as to form a shielding sub-layer. Specifically, the masking film may be a film on which masking ink or the like is printed in advance, and may be, for example, a polyethylene terephthalate (PET) film on which masking ink is printed in advance. Specifically, the shielding sub-layer may be formed by a screen printing method. The specific type of the obscuring sublayer may be the same as described above according to embodiments of the present invention and will not be described further herein. For example, the light transmittance of the shielding sub-layer may be not more than 10%, the shielding sub-layer may be black or white, and the thickness of the shielding sub-layer may be 4 to 40 μm.
In summary, when the screen cover plate manufactured by the method is used in electronic equipment, the light guide particles in the ink layer can conduct light emitted by the display screen outwards, and the range of the camera frame can be visually reduced, so that the narrow frame or even no frame appearance effect of the camera assembly in the screen is achieved, the range of the display screen is enlarged, and the visual impact effect and the product expressive force of the electronic equipment are improved.
In yet another aspect of the present invention, an electronic device is presented. Referring to fig. 9, an electronic device 1100 includes, according to an embodiment of the present invention: casing, screen, camera subassembly (not shown in the figure) and preceding screen apron 1000, wherein, be provided with mainboard and memory (not shown in the figure) in the casing, the screen setting is at the top of casing and links to each other with the mainboard, the camera subassembly sets up in the screen, the camera subassembly includes camera and camera frame, screen apron 1000 covers screen and camera subassembly, wherein, camera district 110 and the camera of screen apron 1000 correspond the setting, camera frame district 120 and the corresponding setting of camera frame of screen apron 1000, and the printing ink layer (not shown in the figure) and the camera frame of screen apron 1000 contact. Therefore, the electronic device has all the features and advantages of the screen cover described above, and will not be described herein again. Generally speaking, the camera assembly of the electronic equipment has the appearance effect of a narrow frame or even no frame, the visual effect of the electronic equipment is good, and the expressive force of the product is strong.
For example, the electronic device may be any of various types of computer system devices that are mobile or portable and that perform wireless communications. In particular, the electronic device may be a mobile or smart phone (e.g., iPhone-based, Android-based phone), a portable gaming device (e.g., Nintendo DS, playstatio portable, Gameboy Advance, iPhone), a laptop, a PDA, a portable internet device, a music player, and a data storage device, other handheld devices, and a headset such as a watch, an in-ear headphone, a pendant, a headset, etc., and other wearable devices (e.g., a Head Mounted Device (HMD) such as electronic necklace, electronic garment, electronic bracelet, electronic necklace, electronic tattoo, electronic device, or smart watch).
The electronic device may also be any of a number of electronic devices including, but not limited to, cellular phones, smart phones, other wireless communication devices, personal digital assistants, audio players, other media players, music recorders, video recorders, cameras, other media recorders, radios, medical devices, vehicle transportation equipment, calculators, programmable remote controllers, pagers, laptop computers, desktop computers, printers, netbook computers, Personal Digital Assistants (PDAs), Portable Multimedia Players (PMPs), moving picture experts group (MPEG-1 or MPEG-2) audio layer 3(MP3) players, portable medical devices, and digital cameras and combinations thereof.
In some cases, the electronic device may perform a variety of functions (e.g., playing music, displaying videos, storing pictures, and receiving and sending telephone calls). If desired, the electronic device may be a portable device such as a cellular telephone, media player, other handheld device, wristwatch device, pendant device, earpiece device, or other compact portable device.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.
Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (14)

1. A screen cover, comprising:
the camera comprises a substrate, a camera area and a camera frame area, wherein the camera frame area is arranged around the camera area;
the camera frame area is covered by the ink layer, the light transmittance of the ink layer is not more than 10%, and light guide particles are arranged in the ink layer; the ink layer is formed by adding the light guide particles to the shielding ink, and the light guide particles are used for changing the propagation direction of light entering the light guide particles from the edge of the display screen and enabling the light to be emitted from the upper part of the camera frame area.
2. The screen cover according to claim 1, wherein the light-guiding particles are present in an amount of 1-30 wt%.
3. The screen cover of claim 1, wherein the ink layer further comprises:
a light guide ink sub-layer disposed on one side of the substrate, the light guide ink sub-layer having the light guide particles therein;
a shielding sublayer disposed on a side of the light-directing ink sublayer distal from the substrate.
4. The screen cover of claim 3, wherein the light-directing ink sub-layer covers at most a portion of the area of the camera bezel area remote from the camera area, and wherein an orthographic projection of the obscuring sub-layer on the substrate covers the camera bezel area.
5. The screen cover of claim 3, wherein the light-directing ink sub-layer has a light transmission of not less than 90%.
6. The screen cover of claim 3, wherein the light-guiding particles in the light-guiding ink sub-layer are present in an amount of 30-80 wt%.
7. The screen cover of claim 3, wherein the obscuring sublayer is black or white in color.
8. The screen cover according to claim 3, wherein the obscuring sublayer is formed from a obscuring ink or a obscuring film.
9. The screen cover sheet of claim 3, wherein the light directing ink sub-layer has a thickness of 2-20 μm and the obscuring sub-layer has a thickness of 4-40 μm.
10. The screen cover according to claim 1, wherein a display area and a non-display area are further defined on the substrate, the non-display area being disposed around the display area, the camera area and the camera bezel area being disposed in the display area;
the ink layer covers the camera frame area and the non-display area.
11. A method of making a screen cover, comprising:
providing a substrate, wherein a camera area and a camera frame area are limited on the substrate, and the camera frame area is arranged around the camera area;
adding light-guiding particles to a masking ink to form the ink; the light guide particles are used for changing the propagation direction of light incident to the light guide particles from the edge of the display screen and enabling light rays to be emitted from the upper part of the camera frame area;
printing ink in the camera frame area of the substrate so as to form an ink layer, wherein the ink layer has a light transmittance of not more than 10%, and light guide particles are arranged in the ink layer.
12. The method of claim 11, wherein prior to printing ink in the camera bezel area of the substrate to form an ink layer, the method further comprises:
the content of the light guide particles is 1-30 wt%.
13. The method of claim 11, wherein the printing ink in the camera bezel area of the substrate to form an ink layer further comprises:
printing light guide ink on one side of the substrate so as to form a light guide ink sub-layer, wherein the light guide ink is provided with the light guide particles, the content of the light guide particles is 30-80 wt%, and the light guide ink sub-layer covers at most a part of the camera frame area far away from the camera area;
and printing shielding ink or arranging a shielding film material on one side of the light guide ink sub-layer far away from the substrate so as to form a shielding sub-layer, wherein the orthographic projection of the shielding sub-layer on the substrate covers the camera frame area.
14. An electronic device, comprising:
the device comprises a shell, a power supply and a control circuit, wherein a mainboard and a memory are arranged in the shell;
the screen is arranged at the top of the shell and is connected with the main board;
the camera assembly is arranged in the screen and comprises a camera and a camera frame;
the screen overlay of any of claims 1-10, the screen overlay covering the screen and the camera assembly, wherein,
the camera district of screen apron with the camera corresponds the setting, the camera frame district of screen apron with the camera frame corresponds the setting, just the printing ink layer of screen apron with the camera frame contacts.
CN201811365752.2A 2018-11-16 2018-11-16 Screen cover plate, method for manufacturing screen cover plate and electronic equipment Active CN109167859B (en)

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