CN108494898A - Electronic device - Google Patents

Abstract

This application discloses a kind of electronic devices, including：Glass cover-plate, including viewing area and non-display area；Shell is located at glass cover-plate side；Display screen, between glass cover-plate and shell, display screen includes luminous zone and the transparent area positioned at luminous zone marginal position, and transparent area is at least partly Chong Die with non-display area；Sensor module, shell is fixed on the surface of glass cover-plate side, and the light-receiving surface of sensor module includes photosensitive area and non-photo-sensing area, photosensitive area, transparent area and non-display area are least partially overlapped so that ambient light reaches the photosensitive area by the non-display area and the transparent area.Using the structure, ambient light is injected by the transparent area of non-display area and display screen, it is received by the sensor module inside electronic device, so that electronic device can be according to the brightness of display screen of the brightness regulation electronic device of ambient light, so that the screen accounting of electronic device can do more.

Description

Electronic device

Technical field

This application involves technical field of electronic equipment, more particularly to a kind of electronic device.

Background technology

With technology trends, the screen accounting of electronic device is increasing at present, and the top of electronic device has not had Unthreaded hole is opened to open up in enough positions so that ambient light can pass through light hole to reach the sensor group being arranged in interior of mobile phone Part, to realize the display brightness for changing display screen according to the brightness of ambient light.

Invention content

The application provides a kind of electronic device, and the not extra position in top that can improve electronic device opens up light hole The problem of to pass through ambient light.

The application use a technical solution be：A kind of electronic device is provided, including：

Glass cover-plate, including viewing area and non-display area；

Shell is located at the glass cover-plate side；

Display screen, the glass cover-plate are covered on the display screen, and the display location is in the glass cover-plate and institute Between stating shell, the display screen includes luminous zone and the transparent area positioned at the luminous zone marginal position；

Sensor module is fixed on the shell on the surface of the glass cover-plate side, and the sensor group The light-receiving surface of part includes photosensitive area and non-photo-sensing area, and the photosensitive area, the transparent area and the non-display area are at least partly Overlapping so that ambient light reaches the photosensitive area by the non-display area and the transparent area.

Electronic device is by being arranged sensor module between shell and display screen in the application, and glass cover-plate includes Viewing area and non-display area, display screen include luminous zone and the transparent area positioned at luminous zone marginal position, sensor module by Smooth surface includes photosensitive area and non-photo-sensing area, and photosensitive area, transparent area and non-display area are least partially overlapped.Using above this Structure, ambient light can be injected by the transparent area of non-display area and display screen, by the sensor module inside electronic device It is received, so that electronic device can be according to the brightness of display screen of the brightness regulation electronic device of ambient light.This structure Design can be located at the sensor module inside electronic device and still can in the case where the screen accounting of electronic device is increasing Ambient light is enough received, to realize the display brightness for changing display screen according to the brightness of ambient light.

Description of the drawings

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present application, for For those of ordinary skill in the art, without creative efforts, other are can also be obtained according to these attached drawings Attached drawing.

Fig. 1 is the structural schematic diagram of one embodiment of the application electronic device；

Fig. 2 is section one example structure schematic diagram of the electronic device shown in Fig. 1 along the directions A-A；

Fig. 3 is the structural schematic diagram of non-display area shown in Fig. 2；

Fig. 4 is the structural schematic diagram of sensor module light-receiving surface in one embodiment of the application；

Fig. 5 is another example structure schematic diagram of section of the electronic device shown in Fig. 1 along the directions A-A；

Fig. 6 is the diagrammatic cross-section of one embodiment shell of the application；

Fig. 7 is the another example structure schematic diagram of section of the electronic device shown in Fig. 1 along the directions A-A；

Fig. 8 is section another embodiment structural schematic diagram of the electronic device shown in Fig. 1 along the directions A-A；

Fig. 9 is section one example structure schematic diagram of the electronic device shown in Fig. 1 along the directions A-A；

Figure 10 is provided with cross-sectional view of the electronic device along the directions A-A shown in FIG. 1 of two sensor modules；

Figure 11 is the structural schematic diagram of sensor module light-receiving surface in another embodiment of the application；

Figure 12 is the structural schematic diagram of sensor module light-receiving surface in the application another embodiment；

The cross-section structure that Figure 13 is provided in one embodiment of electronic device of case ring along the directions A-A shown in FIG. 1 shows Meaning.

Specific implementation mode

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation describes.It is understood that specific embodiment described herein is only used for explaining the application, rather than the limit to the application It is fixed.It also should be noted that illustrating only for ease of description, in attached drawing and the relevant part of the application and not all knot Structure.Based on the embodiment in the application, those of ordinary skill in the art are obtained without creative efforts Every other embodiment, shall fall in the protection scope of this application.

Term " first " in the application, " second ", " third " are used for description purposes only, and should not be understood as instruction or dark Show relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " second ", " are defined as a result, Three " feature can explicitly or implicitly include at least one of the features.In the description of the present application, the meaning of " plurality " is extremely It is two few, such as two, three etc., unless otherwise specifically defined.The directional instruction of institute is (all in the embodiment of the present application Such as up, down, left, right, before and after ...) it is only used for explaining the phase under a certain particular pose (as shown in the picture) between each component To position relationship, motion conditions etc., if the particular pose changes, directionality instruction also correspondingly changes therewith Become.In addition, term " comprising " and " having " and their any deformations, it is intended that cover and non-exclusive include.Such as comprising The step of process of series of steps or unit, method, system, product or equipment are not limited to list or unit, and It further includes the steps that optionally not listing or unit to be, or further includes optionally for these processes, method, product or equipment Intrinsic other steps or unit.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments It is contained at least one embodiment of the application.Each position in the description occur the phrase might not each mean it is identical Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and Implicitly understand, embodiment described herein can be combined with other embodiments.

Referring to Fig. 1-Fig. 4, electronic device 100 provided by the present application can be mobile phone, IPad, intelligent wearable device, number Audio/video player, electronic reader, handheld game machine and vehicle electronic device, digital camera, printer and flash disk etc.. The electronic device 100 include glass cover-plate 10, positioned at 10 side of glass cover-plate shell 20, be located at glass cover-plate 10 and shell 20 Between display screen 40, and the sensor module 50 between display screen 40 and shell 20.

Specifically, in an embodiment, glass cover-plate 10 includes viewing area 12 and non-display area 14.Glass cover-plate 10 is by light transmission Material is made, specifically, the translucent material of the application is the material that visible light of the wavelength within the scope of 350-800nm can penetrate Material so that ambient light can be penetrated by the non-display area 14 of glass cover-plate and be projected on sensor module 50, such as by sub- gram Dead-wood material is made.Viewing area 12 corresponds to the display area of electronic device 100, is located on display screen 40, as electronic device 100 Upper surface, non-display area 14 is located at the edge of viewing area 12, extended to the outside and formed far from center by viewing area 12.It is non-aobvious Show area 14 for the non-display area of electronic device, in different embodiments, non-display area 14 can surround viewing area 12 1 weeks, or It is provided only on the upper end and/or lower end of electronic device 100.

In the present embodiment, viewing area 12 and non-display area 14 are in the same plane.Furthermore, it is to be understood that, it is non-display Area 14 is strip, and the electronic device 100 is to shield electronic equipment comprehensively, therefore the width of non-display area 14 is very small.It is optional Ground, the width a ranges of non-display area 14 are between 0.6-2.5mm in different embodiments.It should be understood that non-display area 14 includes Entering light area 142 and alternatively non-transparent district 144, as shown in figure 3, and entering light area 142 area be less than alternatively non-transparent district 144 area.Wherein Alternatively non-transparent district 144 is to be coated with the region of ink, for shutting out the light, avoids the user of service of electronic device 100 from non-transparent See the internal component or structural member of electronic device 100 in area 144.Energy acceptance sense answers the surface of light on sensor module 50 Include photosensitive region 522 and non-photo-sensing region 524 for light-receiving surface 52, on light-receiving surface 52, photosensitive region 522 is that can receive induction The region of light luminance, as shown in Figure 4.Wherein photosensitive region 522 is at least partly arranged with respect to non-display area 14, i.e. photosensitive region 522 are oppositely arranged with the entering light area 142 of non-display area 14.

Intelligible, the light transmittance of non-display area 14 is not 100%, and in an embodiment, non-display area is far from shell 20 1 The surface of side and/or the subregion setting anti-reflection film 70 on the surface of 202 side of shell.It is arranged in entering light area 142 and increases Permeable membrane 70,100% caused influence cannot be reached by the one hand making up the light transmittance of non-display area 14 so that sensor module 50 Light luminance of the light luminance of reception closer to true environment light.It should be understood that not having on the surface of non-display area 14 It is arranged in the embodiment of anti-reflection film 70, caused by can not will being 100% due to 142 light transmittance of entering light area by software algorithm The part for the environmental light brightness loss that sensor module 50 receives, which increases, returns, this is not specifically limited.On the other hand, anti-reflection Predetermined color can be presented in film 70, and the user for reducing electronic device 100 sees the sensing inside electronic device by entering light area 142 Device assembly 50.

Referring to Fig. 5, in another embodiment, the non-display area 14 of glass cover-plate 10 includes body part 146 and extension 148, In the same plane with viewing area 12, extension 148 is extended to form by body part 146 towards 20 direction of shell body part 146, is extended Portion 148 is connect with shell 20.Extension 148 is located at the side of 100 thickness direction of electronic device, as 100 thickness of electronic device A part for direction upper side edge has the function of protecting electronic device 100.Specifically, the company of extension 148 and body part 146 Connect position at right angles or arc transition, this is not specifically limited.The light-receiving surface 52 of sensor module 50 is with shell 20 close to lid The surface of 10 side of glass sheet is arranged in parallel, and enables to part to be injected from 100 side of electronic device using such setting On project ambient light to the light-receiving surface 52 of sensor module 50, that is, component environment light is injected by extension 148.Another implementation In example, in order to enable the ambient light for the more perspective injected from extension 148 to beat on light-receiving surface 52, other implementations In example, the deviation of sensor module 50 is obliquely installed equipped with 148 side of extension.

Optionally, in an embodiment, skewed slot 22 is opened up close to 40 side of display screen in shell 20, as shown in fig. 6, shell Support portion 26 is arranged close to the surface of 40 side of display screen in body 20, as shown in figure 8, sensor module 50 is fixed in skewed slot 24 On (as shown in Figure 7) or support portion 26, so that the light-receiving surface 52 of sensor module 50 is biased to be equipped with the inclination of extension 148 1 Tiltedly setting.Make it possible to receive the light come in from body part 146 and the projection of extension 148 simultaneously.Using the above structure, it senses The light-receiving surface 52 of device assembly 50 is biased to the side equipped with extension 148 and is obliquely installed, the ring that a part of angle can be avoided to inject Border light is beaten on the side of sensor module 50 so that the ambient light of more perspective can beat sensor module 50 by In smooth surface 52.

Referring to Fig. 9, further, in an embodiment, extension 148 is from close to 12 center one end of viewing area to close shell 20 The other end, thickness is gradually thinning to form the structure of similar prism.Using such structure, electronic device 100 is enabled to External ambient light changes light path after through extension 148, is incident on the light-receiving surface 52 of sensor module 50, so that Sensor module 50 can receive the ambient light of the injection of more perspective.

Shell 20 is located at the side of glass cover-plate 10, as carrier for carrying display screen 40, circuit board, electronic component 50 and numerous electronic components etc..Specifically, in different embodiments, shell 20 can be the center of electronic device, battery cover Or one in dorsal shield, this is not specifically limited.

Display screen 40 is set between shell 20 and glass cover-plate 10, glass cover-plate 10 covers for showing the pictures such as picture On display screen 40, and display screen 40 includes luminous zone 42 and the transparent area 44 positioned at luminous zone marginal position.In the application The non-display area 14 of the photosensitive area 522 of light-receiving surface 52, the transparent area 44 of display screen 40 and glass cover-plate 10 is least partially overlapped Setting, the 142 least partially overlapped setting of transparent area of specifically above-mentioned the above two and non-display area 14 so that ambient light is led to successively It crosses non-display area 14 and transparent area 44 reaches photosensitive area 522.Using such structure so that ambient light can utilize glass cover-plate The narrow non-display area 14 of 10 marginal positions injects ambient light, that is, is injected from entering light area 142, so that ambient light passes through The transparent area 44 of display screen 40 is beaten on the light-receiving surface 52 of sensor module 50.Sensor module 50 passes through the ambient light that receives Brightness, that is, adjustable display screen 40 to luminous zone 42 display brightness.The width a ranges of non-display area 14 in this application Between 0.6-2.5mm, the very narrow screen accounting for enabling electronic device 100 of the width does more.

In one embodiment, the transparent area 44 of display screen 40 is on the surface of close 10 side of glass cover-plate and/or close to shell Anti-reflection film 70a (as shown in Figure 2) is set on the surface of 20 sides.The setting of anti-reflection film 70a and the entering light in glass cover-plate 10 The effect that anti-reflection film 70a is arranged in area 142 is consistent, this is not repeated.

Sensor module 50 is arranged in shell 20 on the surface of 40 side of display screen, in this implementation, sensor module 50 are located at the top of electronic device 100, top as shown in Figure 1, and the ambient light positioned at 50 outside of sensor module is not easy by hand It blocks.Under normal circumstances, the bottom of electronic device 100 is provided with home keys, therefore may have time in the bottom of electronic device 100 Between for being arranged sensor module 50, but the bottom of electronic device be user hand often in contact with position, be easy to be lived by stick shift, And this problem is then not present in the application.

Specifically, in different embodiments, sensor module 50 can be light sensitive component.In other embodiment, sensor group Part 50 can also be the comprehensive sensor part for having gathered light sensitive component and other sensors two-in-one or three one, this is not Do concrete restriction.

Simultaneously with continued reference to Fig. 4, specifically, sensor module 50 is cuboid in the present embodiment, it is fixed on shell 20 and leans on On the surface of nearly 40 side of display screen.Sensor module 50 is light-receiving surface 52, the present embodiment close to the surface of 40 side of display screen In, light-receiving surface 52 is parallel to the contact surface of sensor module 50 and shell 20.Specifically, on light-receiving surface 52 be not whole surface all It is that can receive light, includes photosensitive region 522 and the non-photo-sensing region 524 that can receive light on light-receiving surface 52.

In the present embodiment, in order to enable the photosensitive region 522 of sensor module 50 to receive the ring of more perspective Border light, the photosensitive region 522 that light is received on light-receiving surface 52 are all distributed in the length direction of light-receiving surface 52, the photosensitive region 522 be rectangle, as shown in Figure 4.Optionally, in different embodiments, the 52 width b of light-receiving surface of sensor module 50 is 0.5- A numerical value within the scope of 0.15mm, wherein the width c of photosensitive region 522 are less than or equal to 0.3mm.It is optional in other embodiment Ground, photosensitive region 522 can be irregular strip, ellipse, circle or semicircle etc., this is not specifically limited.

Referring to Figure 10, further, in an embodiment, the width of non-display area 14 is more than the width of 40 transparent area 44 of display screen Degree, therefore in the embodiment, the non-display area 14 of glass cover-plate 10 includes the overlay region 1422 Chong Die with transparent area 44 and non-heavy Folded area 1424.It can also enter ambient light, therefore the embodiment using the position in opposite entering light area 142 of the non-overlapping area 1424 In, sensor module 50 includes two, one of them is oppositely arranged with overlay region 1422, another is opposite with non-overlapping area 1424 Setting, it is possible to understand that, the entering light corresponding with non-overlapping area 1424 of another sensor module 50 area 142 is oppositely arranged.

While Figure 11 and Figure 12 are participated in, in another embodiment, photosensitive region 522 includes cross one another two parts.Using The light-receiving surface 52 of such structure, entire sensor module 50 can receive ambient light in length direction and width direction, make Obtaining the ambient light that more perspective is injected can be received by photosensitive region 522.Optionally, in an embodiment, photosensitive region 522 Two parts it is arranged in a crossed manner at a right angle.

Referring to Figure 13, in an embodiment, the electronic device of the application further includes case ring 30, specifically, case ring 30 presss from both sides Between the non-display area 14 and shell 20 of glass cover-plate 10.Specifically, in different embodiments, case ring 30 can surround glass Glass cover board 10 1 weeks only can also be partly arranged, such as only be arranged on the top of electronic device 100 and/or bottom end, or surround 10 1 weeks subsection setups of glass cover-plate.Further include colloid 60 in the present embodiment, the non-display area 14 of glass cover-plate 10 passes through colloid 60 are fixedly connected with case ring 30, as shown in Figure 4.In other embodiment, non-display area 14 and the case ring 30 of glass cover-plate 10 It can also be by being integrally formed, this is not specifically limited.Similarly, in different embodiments, case ring 30 and shell 20 Connection can be glued or be molded, and position limiting structure can also be arranged on the housing 20 to fix case ring 30, this does not do specifically It limits.Specifically, non-display area 14 and case ring 30 are made of transparent or trnaslucent materials in the application, using this structure Ambient light can be injected into from non-display area 14 and case ring 30 inside electronic device 100, and be beaten on sensor module 50.Make The sensor module 50 obtained in electronic device 100 can receive to obtain the ambient light of more perspective.

Specifically, in different embodiments, non-display area 14 and/or case ring 30 are made of translucent material, specially wave The material that the visible light within the scope of 350-800nm can penetrate is grown, it can be from non-display area 14 using this structural environment light It is injected into inside electronic device 100, and is beaten on sensor module 50 with case ring 30.So that the sensing in electronic device 100 Device assembly 50 can receive the ambient light of more perspective from the side of electronic device 100.Optionally, in different embodiments, decoration The light transmittance of circle 30 and/or non-display area 14 is more than or equal to 30%.It should be understood that optionally, non-display area 14 and case ring 30 can be made of same material, can also be made from a variety of materials respectively, this is not specifically limited.Specifically, different Embodiment in, non-display area 14 and/or case ring 30 can be by acrylic, polycarbonate resin, transparent or translucent potteries Any one material in porcelain is made, this is not specifically limited, as long as non-display area 14 and case ring 30 can allow ambient light to wear It crosses.It further,, can be in the interior table of case ring 30 in the application since the light transmittance of case ring 30 is not 100% Anti-reflection film 70a is arranged in face and/or outer surface, as shown in figure 12, is influenced caused by case ring 30 light transmittance difference with making up so that Light of the light that sensor module 50 receives closer to true environment light.It should be understood that not having on the surface of case ring 30 In the embodiment for having setting anti-reflection film 70b, can by software algorithm will due to 30 light transmittance of case ring is not 100% by cause Sensor module 50 receive environmental light brightness loss part increase return, this is not specifically limited.Other embodiment In, case ring 30 can also be made to the shape of convex lens, that is to say, that case ring 30 is where display screen 40 in the horizontal direction The shape of convex lens is presented in the cross section of in-plane, enables to utilize when ambient light is incident by case ring 30 in this way There is case ring 30 shape of convex lens to increase light transmittance of the ambient light by case ring 30.

Optionally, in an embodiment, it is possible to understand that, pre-set color is presented in the outer surface of case ring 30 so that electronics fills The side for setting 100 has more good-looking appearance.Optionally, the material of pre-set color can be added inside the making material of case ring 30 Material, can also plate a thin layer of pre-set color coating, this does not do specifically on the outer surface of case ring 30 or inner surface It limits.

It should be understood that in the embodiment that non-display area 14 is fixedly connected by colloid 60 with case ring 30, colloid 60 For transparent or translucent material, so that ambient light can also be incident on the biography inside electronic device 100 by colloid 60 On sensor component 50.

Optionally, spaced apart between sensor module 50 and case ring 30, so that sensor module 50 can The ambient light injected from non-display area 14 and case ring 30 is received simultaneously.In different embodiments, the pre-determined distance it is specific Size is not specifically limited here, mainly the height according to case ring 30 and non-display area 14 on 40 thickness direction of display screen It is set.

The application uses this structure, by being arranged sensor module 50 between shell 20 and glass cover-plate 10, and The entering light area 142 of the photosensitive area 522 of sensor module 50, the transparent area 44 of display screen 40 and glass cover-plate 10 is at least partly heavy It is folded.So that the ambient light outside electronic device 100 can be injected by entering light area 142, that is, pass through the top blind flange glass of electronic device 100 The edge of glass 10 is injected, and the sensor module 50 inside electronic device 100 is got to by the transparent area of display screen 40 44 Light-receiving surface 52 on so that electronic device 100 can be according to the display screen 40 of the brightness regulation electronic device 100 of ambient light Brightness.This structure design enables to the screen accounting of electronic device 100 increasing, while in electronic device 100 The sensor module 50 in portion can still receive ambient light.In addition, in the embodiment for being provided with case ring 30, ambient light also may be used To be injected from case ring 30, the ambient light of more perspective is made to be injected from the side of electronic device 100.

It is Chong Die with display screen 40 if sensor module 50 is arranged at the back side of electronic device 100 in the prior art, display A part for screen 40 can block the light path that sensor module 50 obtains ambient light.Such as when electronic device 100 is kept flat on the table When, the sensor module 50 at 40 back side of display screen can not then obtain ambient light.If in addition sensor module 50 is arranged in electronics The back side of device 100, then sensor module 50 is very easy is blocked by hand or other articles, causes to be arranged in electronic device The sensor module 50 at 100 back sides is easy that ambient light can not be obtained so that the screen of electronic device 100 is according to the brightness of ambient light The function using effect for adjusting screen intensity is bad.

The structure design of the application can be located at electronics and fill in the case where electronic device 100 is with more large-size screen monitors accounting Ambient light can still be received by setting the sensor module 50 inside 100, and injected from side non-display area 14 or case ring 30 Ambient light is opposite during 100 use of electronic device, and sensor module 50 is arranged the back side of electronic device 100 the case where, It improves sensor module 50 and is easily blocked the problem of being difficult to obtain ambient light.

The foregoing is merely presently filed embodiments, are not intended to limit the scope of the claims of the application, every to utilize this Equivalent structure or equivalent flow shift made by application specification and accompanying drawing content, it is relevant to be applied directly or indirectly in other Technical field includes similarly in the scope of patent protection of the application.

Claims (11)

1. a kind of electronic device, which is characterized in that including：

Glass cover-plate, including viewing area and non-display area；

Shell is located at the glass cover-plate side；

Display screen, the glass cover-plate are covered on the display screen, and the display location is in the glass cover-plate and the shell Between body, the display screen includes luminous zone and the transparent area positioned at the luminous zone marginal position；

Sensor module is fixed on the shell on the surface of the glass cover-plate side, and the sensor module Light-receiving surface includes photosensitive area and non-photo-sensing area, and the photosensitive area, the transparent area and the non-display area are least partially overlapped, So that ambient light reaches the photosensitive area by the non-display area and the transparent area.

2. electronic device according to claim 1, which is characterized in that surface of the non-display area far from shell side And/or anti-reflection film is set on the surface of the shell side.

3. electronic device according to claim 1, which is characterized in that the close glass cover-plate of the transparent area of the display screen Anti-reflection film is set on the surface of the surface of side and/or the close shell side.

4. electronic device according to claim 1, which is characterized in that the photosensitive area includes cross one another two parts.

5. electronic device according to claim 4, which is characterized in that two parts of the photosensitive area intersect at a right angle to be set It sets.

6. electronic device according to claim 1, which is characterized in that the non-display area includes and the light transmission area overlapping Overlay region and non-overlapping area, the sensor module include two, one of them is oppositely arranged with the overlay region, another It is oppositely arranged with the non-overlapping area.

7. electronic device according to claim 1, which is characterized in that the viewing area and the non-display area are same flat On face.

8. electronic device according to claim 1, which is characterized in that the non-display area includes body part and extension, In the same plane with the viewing area, the extension extends shape to the body part by the body part towards the housing direction At the extension is connect with the shell, and the light-receiving surface of the sensor module is with the shell close to the cover-plate glass The surface of side is in horizontally disposed, or is biased to be obliquely installed equipped with the extension side.

9. the electronic device stated according to claim 8, which is characterized in that the shell opens up to be set on skewed slot or the shell Support portion is set, the sensor module is fixed in the skewed slot or on the support portion, so that the sensor module Light-receiving surface be biased to glass cover-plate extension be obliquely installed.

10. the electronic device stated according to claim 8, which is characterized in that further include case ring, be located in the glass cover-plate Between extension and the shell, the sensor module is located at the case ring close to display screen center side, with institute Stating has pre-determined distance between case ring, and the case ring is made of translucent material.

11. the electronic device stated according to claim 8, which is characterized in that the extension from close to display screen center one end to Close to the other end of the shell, thickness is gradually thinning to form the structure of similar prism.