CN108418918A - Electronic equipment - Google Patents
Electronic equipment Download PDFInfo
- Publication number
- CN108418918A CN108418918A CN201810171186.5A CN201810171186A CN108418918A CN 108418918 A CN108418918 A CN 108418918A CN 201810171186 A CN201810171186 A CN 201810171186A CN 108418918 A CN108418918 A CN 108418918A
- Authority
- CN
- China
- Prior art keywords
- electronic equipment
- sensor
- transmittance section
- function element
- display module
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
- H04M1/0266—Details of the structure or mounting of specific components for a display module assembly
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
- H04M1/0264—Details of the structure or mounting of specific components for a camera module assembly
Landscapes
- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Devices For Indicating Variable Information By Combining Individual Elements (AREA)
Abstract
This application provides a kind of electronic equipment, electronic equipment includes functional unit, functional unit includes display module, function element, optical device and sensor, display module has non-display area and the viewing area adjacent with non-display area, display module is equipped with transmittance section in non-display area, function element is fixed on display module side, and opposite transmittance section is arranged, function element obtains function signal through transmittance section, sensor and function element are side by side, and it is located in viewing area in the orthographic projection of display module, optical device is located at sensor side, optical device is fixed between transmittance section and function element, through transmittance section by light signal transduction to sensor.Said modules realize that function element and sensor share transmittance section, advantageously reduce the area of non-display area, promote the appearance of electronic equipment.
Description
Technical field
This application involves technical field of electronic equipment, and in particular to a kind of electronic equipment.
Background technology
A large amount of electronic device, the wherein electronic devices such as receiver, microphone has been used to be arranged in display in mobile phone at present
The non-display area of screen causes the area of the non-display area of display screen excessive, influences the appearance of mobile phone.
Invention content
This application provides a kind of electronic equipment.
This application provides a kind of electronic equipment, the electronic equipment includes functional unit, and the functional unit includes aobvious
Show module, function element, optical device and sensor, the display module has non-display area and adjacent with the non-display area
The viewing area connect, the display module are equipped with transmittance section in the non-display area, and the function element is fixed on the display mould
Group side, and transmittance section setting relatively, the function element obtain function signal through the transmittance section, the sensor with
The function element side by side, and is located in the orthographic projection of the display module in the viewing area, and the optical device is located at institute
Sensor side is stated, the optical device is fixed between the transmittance section and the function element, through the transmittance section by light
Signal transduction is to the sensor.
Electronic equipment provided by the present application, side by side by the sensor and the function element, wherein the effector
The transmittance section of the relatively described non-display area of part is arranged, and the sensor is located at the display in the orthographic projection of the display module
In area, to which the sensor does not have to the space for occupying the non-display area, the optical device is recycled to be fixed on described
Between light portion and the function element, through the transmittance section by light signal transduction to the sensor, to be located at the function
The sensor of device side can receive optical signal by the optical device, realize the function element and the sensing
Device shares the transmittance section, advantageously reduces the area of non-display area, promotes the electronic equipment appearance of the above-mentioned functional unit of application.
Description of the drawings
It, below will be to needed in the embodiment attached in order to illustrate more clearly of the technical solution of the embodiment of the present application
Figure is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present application, for this field
For those of ordinary skill, without creative efforts, other drawings may also be obtained based on these drawings.
Fig. 1 is the structural schematic diagram one for the functional unit that embodiment one provides;
Fig. 2 is the structural schematic diagram two for the functional unit that embodiment one provides;
Fig. 3 is the enlarged diagram at A in Fig. 1;
Fig. 4 is the structural schematic diagram three for the functional unit that embodiment one provides;
Fig. 5 is the enlarged diagram at B in Fig. 4;
Fig. 6 is the structural schematic diagram four for the functional unit that embodiment one provides;
Fig. 7 is the enlarged diagram at C in Fig. 6;
Fig. 8 is the schematic cross-section at P-P in Fig. 2;
Fig. 9 is the structural schematic diagram for the functional unit that embodiment two provides;
Figure 10 is the structural schematic diagram one of electronic device provided by the embodiments of the present application;
Figure 11 is the structural schematic diagram two of electronic device provided by the embodiments of the present application.
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 clear that described embodiment is only a part of the embodiment of the application, instead of all the embodiments.Base
Embodiment in the application, those of ordinary skill in the art are obtained all without making creative work
Other embodiments belong to the range of the application protection.
In addition, the explanation of following embodiment is referred to the additional illustration, to illustrate the spy that the application can be used to implement
Determine embodiment.The direction term being previously mentioned in the application, for example, " top ", " bottom ", "upper", "lower", "front", "rear",
"left", "right", "inner", "outside", " side " etc. are only the directions with reference to annexed drawings, therefore, the direction term used be in order to
More preferably, it is illustrated more clearly that and understands the application, rather than indicating or imply signified device or element must have specifically
Orientation, with specific azimuth configuration and operation, therefore should not be understood as the limitation to the application.
The numberical range indicated with "~" in this specification refers to using "~" front and back numerical value recorded as minimum value
And the range that maximum value is included.In the accompanying drawings, structurally similar or identical to be indicated by the same numeral.
Embodiment one
It please refers to Fig.1 and Fig. 2, the application provides a kind of functional unit 100, the functional unit 100 includes display module
10, function element 20, optical device 30 and sensor 40.The display module 10 have non-display area 11 and with it is described non-display
The adjacent viewing area 12 in area 11, the display module 10 are equipped with transmittance section 111 in the non-display area 11.The function element
20 are fixed on 10 side of the display module, and the relatively described transmittance section 111 is arranged, and the function element 20 is through the transmittance section
111 obtain function signals, the sensor 40 and the function element 20 side by side, and in the orthographic projection position of the display module 10
In in the viewing area 12, the optical device 30 is located at 40 side of the sensor, and the optical device 30 is fixed on described
Between transmittance section 111 and the function element 20, through the transmittance section 111 by light signal transduction to the sensor 40.It can be with
Understand, the functional unit 100 can be applied to electronic equipment 200, the electronic equipment 200 can be smart mobile phone,
One kind in tablet computer, notebook or smartwatch.The sensor 40 can be range sensor, light sensor or light
At least one of electric transducer.
Side by side by the sensor 40 and the function element 20, wherein the function element 20 is relatively described non-aobvious
Show that the transmittance section 111 in area 11 is arranged, and the sensor 40 is located at the viewing area 12 in the orthographic projection of the display module 10
It is interior, to which the sensor 40 does not have to the space for occupying the non-display area 11, the optical device 30 is recycled to be fixed on institute
It states between transmittance section 111 and the function element 20, through the transmittance section 111 by light signal transduction to the sensor 40, from
And optical signal can be received by the optical device 30 positioned at the optical sensor of 20 side of the function element, realize institute
It states function element 20 and the sensor 40 shares the transmittance section 111, advantageously reduce the area of non-display area 11, promotion is answered
With the electronic equipment appearance of above-mentioned functional unit 100.
In present embodiment, the display module 10 includes display panel 13 and euphotic cover plate 14, the euphotic cover plate 14
It is stacked with the display panel 13.The display panel 13 can be liquid crystal display (Liquid Crystal
Display, LCD), can also be organic EL display panel (O rganic Light-Emitting Diode, OLED).
Viewing area 12 described in 13 face of the display panel, the display surface 13 show picture through the viewing area 12.The euphotic cover
Plate 14 is covered on the display panel 13, so that the display panel 13 shows picture through the euphotic cover plate 14, it is described
Euphotic cover plate 14 has the function of protecting the display panel 13.The euphotic cover plate 14 can be glass plate, can also be
Bright ceramic wafer.The function element 20 is fixed on side of the display panel 13 far from the euphotic cover plate 14.
Referring to Fig. 2, the second short side of first short side 121 with the first short side 121 and relatively of the viewing area 12
122, and two long sides 123 being oppositely arranged, two long sides 123 be connected to first short side, 121 and second short side
Between 122, first short side 121 extends fluted 124 towards second short side 122, described in the adjoining of the non-display area 11
First short side 121, the non-display area 11 are that the display panel 13 provides driving cable, to realize that the display panel 13 is aobvious
Show picture.The transmittance section 111 is located in the groove 124.The groove 124 has the two of the parallel long side 123 respectively
The bottom edge 1242 of two sides 1241 in a side 1241 and connection, the adjacent institute in the side 1241 and the bottom edge 1242
State transmittance section 111.The side 1241 of the display panel 13 is equipped with the groove 124, and 1241 He of side of the groove 124
The adjacent transmittance section 111 in bottom edge 1242, to 124 regions of groove, that is, transmission region in the display module 10.
Referring to Fig. 3, in present embodiment, the function element 20 is receiver, and the function element 20 has direction
The vibration section 21 of the display module 10.The functional unit 100 further includes sealing element 50, and the sealing element 50 is sealed in described
Between display module 10 and the function element 20.The sealing element 50, which has, is tightly connected the transmittance section 111 and the work(
The vibration section 21 is connected to the transmittance section 111 by the transaudient channel 51 of energy device 20, the transaudient channel 51, to described
Function element 20 can be by the transaudient channel 51 by voice transmission to the transmittance section 111.Wherein, the sealing element 50 can
Can also be elastomer (such as silica gel) to be foam, the sealing element 50 can be bonded in the display module by double faced adhesive tape
Between 10 and the function element 20.Certainly, the sealing element 50 can also be tightly connected described aobvious by other fixed forms
Show module 10 and the function element 20, display module 10 and institute as described in being connected to by first binding agent seal the sealing element 50
Between stating function element 20, therefore not to repeat here.
Fig. 2 and Fig. 3 are please referred to, the transmittance section 111 includes called window 111a and optical transmission window 111b, the called window
The mouth 111a and optical transmission window 111b is adjacent, to not deposited between the called window 111a and the optical transmission window 111b
In spacing, the size of the non-display area 11 is advantageously reduced, is conducive to the screen accounting for improving the display module 10.It is described by
Window 111a and the optical transmission window 111b are talked about along parallel 123 direction of the long side side by side, it is described non-to advantageously reduce
Size of the viewing area 11 in the direction of parallel first short side 121.Since the sealing element 50 has sealed connection described
The transaudient channel 51 in light portion 111 and the function element 20, to which the function element 20 can pass through the transaudient channel 51
By voice transmission to the called window 111a, and then the function element 20 can be by the called window 111a to unofficial biography
Defeated sound.Specifically, after the function element 20 receives audio signal, the vibration of vibration section 21 of the function element 20 is sent out
Voice signal, the gas in the transaudient channel 51 are vibrated with the vibration section 21, so by voice signal be transferred to it is described by
Window 111a is talked about, realizes 20 external sounding of the function element.Can convex lens be set in the optical transmission window 111b, by convex
Lens focus light increases the light signal strength that the optical device 30 is received through the optical transmission window 111b, consequently facilitating institute
It states sensor 40 and incudes the optical signal.
The optical device 30 is at least partly fixed in the transaudient channel 51, and the optical device 30 is described
The orthographic projection of display module 10 is at least partially disposed at the optical transmission window 111b, is come to which the optical device 30 can receive
The optical signal of the optical transmission window 111b.Recycle the sealing element 50 be additionally provided with by 50 side of the sealing element extend through to
The guide lighting channel 52 in the transaudient channel 51, the optical device 30 is through the transaudient channel 51 and the guide lighting channel 52 by light
Signal transmission is to the sensor 40.
Referring to Fig. 3, in the first embodiment, the optical device 30 is guide-lighting mirror.The optical device 30 has
There is the light signal output end 32 that optical signal receiving terminal 31 and the relatively described optical signal receiving terminal 31 are arranged, and is connected to the light
Light guide 33 between signal receiving end 31 and the light signal output end 32, the optical signal receiving terminal 31 are fixed on the biography
Sound channel 51, the optical signal receiving terminal 31 are arranged close to the transmittance section 111, and the optical signal receiving terminal 31 is logical for receiving
The optical signal of the transmittance section 111 is crossed, the light signal output end 32 is fixed on the guide lighting channel 52, and close to the sensing
Device 40 is arranged, and the light signal output end 32 is tightly connected with 52 madial wall of the guide lighting channel.The optical signal receiving terminal 31
The optical signal of reception is conducted through the light guide 33 to the light signal output end 32, and then the light signal output end 32 is by light
Signal is exported to the guide lighting channel 52, and the sensor 40 receives optical signal by the guide lighting channel 52.In other implementations
In mode, the optical device 30 can also be light pipe, the light pipe madial wall be equipped with reflecting layer, optical signal enter described in
Inside light pipe, reflected on the light pipe madial wall through the reflecting layer, and along the extending direction of the light pipe before
Into to which optical signal is oriented to the guide lighting channel 52 by the light pipe.
Fig. 4 and Fig. 5 are please referred to, in the second embodiment, the optical device 30 is reflective mirror, the optical device
30 are fixed on the transaudient channel 51.Specifically, the optical device 30 can be plane mirror.The optical device 30 has anti-
Face 34 is penetrated, the reflecting surface 34 and the display surface of the display panel 13 are arranged in angle, and the angle is acute angle, the angle
So that optical signal can be reflexed to the guide lighting channel 52 by the reflecting surface 34 through the transmittance section 111.Certainly, in other implementations
In mode, the optical device 30 can also be convex mirror or concave mirror.
Fig. 6 and Fig. 7 are please referred to, in the third embodiment, the optical device 30 is enocscope, the optical device
30 are fixed on the transaudient channel 51.And optical signal is refracted into the guide lighting channel 52 through the transmittance section 111.Specifically,
The optical device 30 includes several prisms.Several prisms are arranged along the extending direction of the guide lighting channel 52.Wherein
In two adjacent prisms, the prism far from the sensor 40 is the first prism 36, and the prism close to the sensor 40 is
Second prism 37, first prism 36 have the first light-emitting surface of the first incidence surface 361 and opposite first incidence surface 361 setting
362, second prism 36 has the second light-emitting surface that the second incidence surface 371 and relatively described second incidence surface 371 are arranged
372, first light-emitting surface 362 fits in second incidence surface 371, and the refractive index of the first prism 36 is less than the second rib
The refractive index of mirror 37, is in the first angle between first light-emitting surface 362 and the direction of the vertical display module 10, and described the
It is in the second angle between two incidence surfaces 371 and the direction of the vertical display module 10, the first angle and the second angle are sharp
Angle, and the first angle is more than the second angle.Thus in two adjacent prisms, wherein first prism 36 is through described first
After incidence surface 361 receives optical signal, optical signal is reflected in the first light-emitting surface 362, and optical signal is towards close to the sensor 40
Direction deviation;To which by the refraction action of several prisms, optical signal is further towards close to the direction of the sensor 40
Deviation, so that the sensor 40 can receive optical signal by the optical device 30.
Fig. 5 and Fig. 7 are please referred to, further, the functional unit 100 further includes be contained in the guide lighting channel 52 saturating
Light part 60, the transmission element 60 are tightly connected with 52 madial wall of the guide lighting channel.In present embodiment, the transmission element 60 can
Can also be light-passing plastic to be transparent glass, the light-passing plastic can be makrolon, polymethyl methacrylate or poly-
One kind in propylene.The cross-sectional shape of the transmission element 60 is adapted with the cross-sectional shape of the guide lighting channel 52.It is described
Transmission element 60 can be bonded by the modes such as double faced adhesive tape or adhesive stripe-coating and 52 madial wall of the guide lighting channel, the transmission element
60 are tightly connected with 52 madial wall of the guide lighting channel, to which the optical device 30 positioned at the transaudient channel 51 can lead to
The transmission element 60 is crossed by optical signal transmission to the sensor 40.On the other hand, the transmission element 60 and the guide lighting channel
52 madial walls are tightly connected, and ensure that the leakproofness in the transaudient channel 51 so that the sound of the function element 20 is described
It is not revealed in the transmission process in transaudient channel 51.
Further, referring to Fig. 4, the functional unit 100 further includes circuit board 70, the circuit board 70 is fixed on institute
The side opposite with the display module 10 of sensor 40 is stated, the circuit board 70 is equipped with mounting groove 71,71 part of the mounting groove
Accommodate the function element 20, the spacing between the sensor 40 and the display module 10 be equal to the optical device 30 with
Spacing between the display module 10.
In present embodiment, there is the circuit board 70 supporting surface towards the display module 10, the supporting surface to use
In supporting the sensor 40, specifically, the sensor 40 is fixed on the supporting surface, and it is electrically connected the circuit board 70.
The supporting surface opens up the mounting groove 71, the thickness direction of the parallel circuit board of the extending direction of the mounting groove 71 70.
Pass through function element 20 described in 71 collecting part of the mounting groove so that 20 part of the function element is hidden in the mounting groove
71, the function element 20 is electrically connected the circuit board 70 by flexible PCB.To avoid the function element 20 and institute
The stacking of circuit board 70 is stated, causes the functional unit 100 oversized on parallel 70 thickness direction of the circuit board.It is described
Optical device 30 is fixed on the function element 20 on the side of the display module 10, the function element 20 with it is described
Spacing between display module 10 determines the spacing between the optical device 30 and the display module 10;The effector
20 part of part is hidden in the mounting groove 71, is conducive to the circuit board 70 and is arranged close to the display module 10, described in reduction
Spacing between circuit board 70 and the display module 10, and then reduce between the sensor 40 and the display module 10
Spacing.It is equal to the optical device 30 by the spacing being arranged between the sensor 40 and the display module 10 to show with described
Show the spacing between module 10, to which the sensor 40 can receive optical signal by the optical device 30.
It can be equipped with fixed part 35 by the optical device 30, the fixed part 35 extends on the circuit board 70,
The fixed part 35 is fixed on the circuit board 70, to which the circuit board 70 supports the optical device 30 and the sensor
40, facilitate the relative position for determining the optical device 30 and the sensor 40, and realize that the sensor 40 is shown with described
Show that the spacing between module 10 is equal to the spacing between the optical device 30 and the display module 10.
Further, Fig. 2 and Fig. 8 are please referred to, the display module 10 includes also being attached to the oil of the euphotic cover plate 14
Layer of ink 15, the ink layer 15 are located in the non-display area 11, and the ink layer 15 is equipped with hollow hole at the groove 124
15a, the transmittance section 111 are set to the euphotic cover plate 14 and correspond at the hollow hole 15a.
In present embodiment, the ink layer 15 is between the euphotic cover plate 14 and the display panel 13.It is described
Ink layer 15 is black-out ink layer 15, for covering the non-display area 11.The display module 10 is equipped in non-display area 11
Cable, the driving cable is driven to utilize the ink of the non-display area 11 for driving the display module 10 to show information
The 15 masking driving cable of layer, to beautify the appearance of the display module 10.Using the ink layer 15 in the groove
Hollow hole 15a is equipped at 124, the transmittance section 111 is set to the euphotic cover plate 14 and corresponds at the hollow hole 15a, to
The euphotic cover plate 14 is that the function element 20 and the optical device 30 provide optical signal through the hollow hole 15a.
Further, Fig. 2 and Fig. 8 are please referred to, the function element 20 is short along parallel described first with the sensor 40
Side 121 arranges.
In present embodiment, the function element 20 is arranged with the sensor 40 along parallel first short side 121, by
It is hidden in 12 side of the viewing area in the sensor 40, to which the non-display area 11 is in parallel first short side 121
Direction on size can reduce, the display module 10 can provide the viewing area of larger area, be conducive to described in raising
The screen accounting of display module 10 promotes the appearance of the display module 10, improves user experience.On the other hand, the effector
Part 20 is arranged with the sensor 40 along parallel first short side 121, to which other electronic devices 20 can be vertical described
On first short side, 121 direction with the function element 20 side by side so that the structure of the functional unit 100 is more tight
It gathers.
Embodiment two
Referring to Fig. 9, the application also provides another embodiment, the difference of the present embodiment two and embodiment one
It is, the function element 20 is camera.
The function element 20 includes camera lens 22 and pedestal 23, and the camera lens 22 is towards the transmittance section 111, the camera lens
22 obtain optical signal by the transmittance section 111, to which the camera can shoot image.The pedestal 23 is fixed on described
Camera lens 22 deviates from the side of the transmittance section 111, and step is equipped between the pedestal 23 and the camera lens 22, and the step has
Towards the step surface of the transmittance section, the optical device 30 is set on the step surface.Wherein, the profile of the camera lens 22
Size is less than the overall size of the pedestal 23.Described in being placed using the step between the camera lens 22 and the pedestal 23
Optical device 30 realizes that the optical device 30 is stacked with the function element 20 and is arranged that structure is compacter, advantageously reduces
The transparent area area of transmittance section 111, and then the area of the non-display area 11 is reduced, it is promoted using the functional unit 100
The appearance of electronic equipment.And the sensor 40 is located at 20 side of the function element, the sensor 40 is in the display mould
The orthographic projection of group 10 is located in the viewing area 12, to which the sensor 40 does not have to the space for occupying the non-display area 11,
The sensor 40 receives optical signal by the optical device 30, realizes that the function element 20 and the sensor 40 share
The transmittance section 111 advantageously reduces the area of non-display area 11, is promoted outside the electronic equipment using above-mentioned functional unit 100
It sees.
0 and Figure 11 are please referred to Fig.1, the application also provides a kind of electronic equipment 200, and the electronic equipment 200 includes as above
The functional unit 100.
The electronic equipment 200 further includes shell 300, and the shell 300 includes backboard 301 and is fixed on and states backboard 301
The side plate 302 of periphery is equipped with host cavity 303, the function element 20, the light between the backboard 301 and the side plate 302
It learns device 30 and the sensor 40 is both secured in the host cavity 303, the display module 10 is fixed on the side plate
302, and cover the host cavity 303.The electronic equipment 200 further includes mainboard 80 and battery 90, the mainboard 80 and described
Battery 90 is fixed in the host cavity 303, and the mainboard 80 is electrically connected the battery 90, the display module 10 and the work(
Energy component 100 is electrically connected the mainboard 80, to which the mainboard 80 can control 10 He of the display module by electric signal
The functional unit 100.
Electronic equipment provided by the present application, side by side by the sensor and the function element, wherein the effector
The transmittance section of the relatively described non-display area of part is arranged, and the sensor is located at the display in the orthographic projection of the display module
In area, to which the sensor does not have to the space for occupying the non-display area, the optical device is recycled to be fixed on described
Between light portion and the function element, through the transmittance section by light signal transduction to the sensor, to be located at the function
The optical sensor of device side can receive optical signal by the optical device, realize the function element and the biography
Sensor shares the transmittance section, advantageously reduces the area of non-display area, outside the electronic equipment for promoting the above-mentioned functional unit of application
It sees.
In conclusion although the application is disclosed above with preferred embodiment, which is not to limit
The application, one of ordinary skill in the field are not departing from spirit and scope, can make various changes and profit
Decorations, therefore the protective range of the application is subject to the range that claim defines.
Claims (15)
1. a kind of electronic equipment, which is characterized in that the electronic equipment includes functional unit, and the functional unit includes display mould
Group, function element, optical device and sensor, the display module have non-display area and adjacent with the non-display area
Viewing area, the display module are equipped with transmittance section in the non-display area, and the function element is fixed on the display module one
Side, and transmittance section setting relatively, the function element obtain function signal through the transmittance section, the sensor with it is described
Function element side by side, and is located in the orthographic projection of the display module in the viewing area, and the optical device is fixed on described
Between transmittance section and the function element, through the transmittance section by light signal transduction to the sensor.
2. electronic equipment as described in claim 1, which is characterized in that the function element is receiver, the functional unit
Further include sealing element, the sealing element is sealed between the display module and the function element, and the sealing element has close
The transaudient channel of envelope the connection transmittance section and the function element, and extended through to the biography by the sealing element side
The guide lighting channel in sound channel, the optical device are at least partly fixed in the transaudient channel, and through the transaudient channel and
The guide lighting channel is by optical signal transmission to the sensor.
3. electronic equipment as claimed in claim 2, which is characterized in that the optical device is guide-lighting mirror, the optical device
It is fixed with the light signal output end of the relatively described optical signal receiving terminal setting, the optical signal receiving terminal with optical signal receiving terminal
In the transaudient channel, the light signal output end is fixed on the guide lighting channel.
4. electronic equipment as claimed in claim 2, which is characterized in that the optical device is reflective mirror, the optical device
It is fixed on the transaudient channel, and optical signal is reflexed into the guide lighting channel through the transmittance section.
5. electronic equipment as claimed in claim 2, which is characterized in that the optical device is enocscope, the optical device
It is fixed on the transaudient channel, and optical signal is refracted into the guide lighting channel through the transmittance section.
6. electronic equipment as described in claim 4 or 5, which is characterized in that the functional unit further includes being contained in described lead
The transmission element of optical channel, the transmission element are tightly connected with the guide lighting channel madial wall.
7. electronic equipment as described in claim 1, which is characterized in that the function element is camera, the function element
Including camera lens and pedestal, for the camera lens towards the transmittance section, the pedestal is fixed on the camera lens away from the transmittance section
Side, is equipped with step between the pedestal and the camera lens, the step has the step surface towards the transmittance section, the light
Device is learned to be set on the step surface.
8. electronic equipment as claimed in any one of claims 1 to 5, wherein, which is characterized in that the functional unit further includes circuit
Plate, the circuit board are fixed on sensor side opposite with the display module, and the circuit board is equipped with mounting groove, described
Function element described in mounting groove collecting part, the spacing between the sensor and the display module are equal to the optical device
With the spacing between the display module.
9. electronic equipment as claimed in any one of claims 1 to 5, wherein, which is characterized in that the viewing area has the first short side
Second short side of relatively described first short side, and two long sides being oppositely arranged, two articles of long sides are connected to described
Between one short side and the second short side, first short side extends fluted, non-display area adjoining institute towards second short side
The first short side is stated, the transmittance section is located in the groove.
10. electronic equipment as claimed in claim 9, which is characterized in that the groove has the two of the parallel long side respectively
The bottom edge of two sides in a side and connection, the side and the bottom edge abut the transmittance section.
11. electronic equipment as claimed in claim 9, which is characterized in that the display module includes euphotic cover plate and is attached to
The ink layer of the euphotic cover plate, the ink layer are located in the non-display area, and the ink layer is equipped in the groove
Hollow hole, the transmittance section are set to the euphotic cover plate and correspond to the openwork hole.
12. electronic equipment as claimed in claim 11, which is characterized in that the display module further includes display panel, described
Display panel is stacked with the euphotic cover plate, viewing area described in the display panel face.
13. electronic equipment as claimed in claim 10, which is characterized in that the function element is with the sensor along parallel institute
State the arrangement of the first short side.
14. electronic equipment as claimed in any one of claims 1 to 5, wherein, which is characterized in that the sensor is Distance-sensing
At least one of device, light sensor or photoelectric sensor.
15. electronic equipment as claimed in any one of claims 1 to 5, wherein, which is characterized in that the electronic equipment further includes outer
Shell, the shell include backboard and are fixed on the side plate for stating backboard periphery, and host cavity is equipped between the backboard and the side plate,
The function element, the optical device and the sensor are both secured in the host cavity, and the display module is fixed on
The side plate, and cover the host cavity.
Priority Applications (1)
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