CN208489915U - Filming apparatus and electronic equipment - Google Patents
Filming apparatus and electronic equipment Download PDFInfo
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- CN208489915U CN208489915U CN201820849673.8U CN201820849673U CN208489915U CN 208489915 U CN208489915 U CN 208489915U CN 201820849673 U CN201820849673 U CN 201820849673U CN 208489915 U CN208489915 U CN 208489915U
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Abstract
This application discloses a kind of filming apparatus and electronic equipments, the filming apparatus includes camera module, structure optical mode group, receiver and circuit board, the circuit board includes the first distribution terminal, second distribution terminal, third distribution terminal and bus end, first distribution terminal, second distribution terminal and the third distribution terminal respectively with the structure optical mode group, camera module and receiver electrical connection, the bus end and first distribution terminal, second distribution terminal and the electrical connection of third distribution terminal, through first distribution terminal, second distribution terminal and third distribution terminal and the structure optical mode group, camera module and receiver transmission telecommunications number.The structure optical mode group, camera module and receiver simplify the board structure of circuit, optimize the arrangement of the filming apparatus only by the bus end transmission telecommunications number.
Description
Technical field
This application involves field of electronic device more particularly to a kind of filming apparatus and electronic equipment.
Background technique
Mobile phone can be configured with multiple camera modules and receiver, and each camera module and receiver are required to pass through circuit
Plate obtains electric signal.As the quantity of camera module increases, the arrangement of multiple camera modules and receiver is restricted, and is caused
The board structure of circuit for providing electric signal for multiple camera modules and receiver is complicated, influences interior of mobile phone arrangement.
Utility model content
The application provides a kind of filming apparatus and electronic equipment.
This application provides a kind of filming apparatus, wherein the filming apparatus include camera module, structure optical mode group,
Receiver and circuit board, the circuit board include the first distribution terminal, the second distribution terminal, third distribution terminal and bus end, and described the
One distribution terminal, the second distribution terminal and the third distribution terminal are electric with the structure optical mode group, camera module and receiver respectively
Connection, the bus end is electrically connected with first distribution terminal, the second distribution terminal and third distribution terminal, through first separated time
End, the second distribution terminal and third distribution terminal and the structure optical mode group, camera module and receiver transmission telecommunications number.
Present invention also provides a kind of electronic equipment, wherein the electronic equipment includes above-mentioned filming apparatus.
Present invention also provides a kind of electronic equipment, wherein the electronic equipment includes filming apparatus, device noumenon and cunning
The sliding block of dynamic connection described device ontology, the filming apparatus includes structure optical mode group, camera module, receiver and circuit
Plate, the camera module, structure optical mode group and receiver are fixed on the sliding block, the circuit board include the first distribution terminal,
Second distribution terminal, third distribution terminal and bus end, first distribution terminal, the second distribution terminal and the third distribution terminal respectively with
The structure optical mode group, camera module and receiver transmission electrical connection, the bus end and first distribution terminal, second point
Line end and the electrical connection of third distribution terminal, through first distribution terminal, the second distribution terminal and third distribution terminal and the structure optical mode
Group, camera module and receiver transmission telecommunications number, the bus end are also electrically connected described device ontology
The filming apparatus and electronic equipment of the application embodiment include the first distribution terminal, second by the circuit board
Distribution terminal, third distribution terminal and bus end, first distribution terminal, the second distribution terminal and the third distribution terminal respectively with it is described
Structure optical mode group, camera module and receiver electrical connection, the bus end and first distribution terminal, the second distribution terminal and the
3-point line end electrical connection, through first distribution terminal, the second distribution terminal and third distribution terminal and the structure optical mode group, camera
Mould group and receiver transmission telecommunications number, so that the structure optical mode group, camera module and receiver only pass through the bus end
Transmission telecommunications number simplifies the board structure of circuit, optimizes the arrangement of the filming apparatus.
The additional aspect and advantage of embodiments of the present invention will be set forth in part in the description, partially will be from following
Description in become obvious, or the practice of embodiment through the invention is recognized.
Detailed description of the invention
Technical solution in ord to more clearly illustrate embodiments of the present application, below will be to needed in embodiment
Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the application, general for this field
For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the schematic diagram for the electronic equipment that the application provides embodiment;
Fig. 2 is another schematic diagram for the electronic equipment that the application provides embodiment;
Fig. 3 is another schematic diagram for the electronic equipment that the application provides embodiment;
Fig. 4 is another signal for the electronic equipment that the application provides embodiment;
Fig. 5 is another signal for the electronic equipment that the application provides embodiment;
Fig. 6 is the V enlarged schematic partial view of the electronic equipment of Fig. 5;
Fig. 7 is the infrared light compensating lamp circuit board for the electronic equipment that the application provides embodiment;
Fig. 8 is the schematic diagram of the filming apparatus for the electronic equipment that the application provides embodiment;
Fig. 9 is another schematic diagram of the filming apparatus for the electronic equipment that the application provides embodiment;
Figure 10 is the VI enlarged schematic partial view of the filming apparatus of Fig. 9;
Figure 11 is another schematic diagram of the filming apparatus for the electronic equipment that the application provides embodiment;
Figure 12 is another schematic diagram of the filming apparatus for the electronic equipment that the application provides embodiment;
Figure 13 is the stereoscopic schematic diagram of the filming apparatus for the electronic equipment that the application provides embodiment;
Figure 14 is the decomposition diagram of the filming apparatus for the electronic equipment that the application provides embodiment;
Figure 15 is another schematic diagram for the electronic equipment that the application provides embodiment;
Figure 16 is the decomposition diagram for the electronic equipment that the application provides embodiment.
Specific embodiment
Embodiments of the present invention are described further below in conjunction with attached drawing.Same or similar label is from beginning in attached drawing
To the same or similar element of expression or element with the same or similar functions eventually.
In addition, the embodiments of the present invention described with reference to the accompanying drawing are exemplary, for explaining only the invention
Embodiment, and be not considered as limiting the invention.
In the present invention unless specifically defined or limited otherwise, fisrt feature in the second feature " on " or " down " can be with
It is that the first and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists
Second feature " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of
First feature horizontal height is higher than second feature.Fisrt feature can be under the second feature " below ", " below " and " below "
One feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.
Fig. 1 and Fig. 2 are please referred to, the electronic equipment 1000 of the application embodiment includes filming apparatus 100, device noumenon
200 and the sliding block 300 of described device ontology 200 of being slidably connected.The filming apparatus 100 includes structure optical mode group 10, camera
Mould group 20, receiver 30 and circuit board 40.The structure optical mode group 10, camera module 20 and receiver 30 are fixed on the cunning
Block 300.The circuit board 40 includes the first distribution terminal 41, the second distribution terminal 42, third distribution terminal 43 and bus end 44.Described
One distribution terminal 41, the second distribution terminal 42 and the third distribution terminal 43 respectively with the structure optical mode group 10, camera module 20
It is electrically connected with receiver 30.The bus end 44 and 43 electricity of first distribution terminal 41, the second distribution terminal 42 and third distribution terminal
Connection, through first distribution terminal 41, the second distribution terminal 42 and third distribution terminal 43 and the structure optical mode group 10, camera
30 transmission telecommunications number of mould group 20 and receiver, the bus end 44 are also electrically connected described device ontology 200.
It is understood that opposite 200 sliding extension of described device ontology of the sliding block 300, to drive the structure light
Mould group 10, camera module 20 and receiver 30 are stretched out or are shunk with respect to described device ontology 200.The circuit board 40 is by institute
It states device noumenon 200 and the structure optical mode group 10, camera module 20 and receiver 30 is connected, to realize the structure optical mode
Group 10, camera module 20 and receiver 30 and 200 transmission telecommunications number of described device ontology.The electronic equipment 1000 can be with
It is mobile phone, laptop or tablet computer etc..The filming apparatus 100 can shoot people by the structure optical mode group 10
Face, to have identification face function.Conventional people can also may be implemented by the camera module 20 in the filming apparatus 100
Picture or scenery are taken pictures, to have camera function.The filming apparatus 100 can also be realized by the receiver 30 receives voice
Call function shoots communication multifunctional usage to realize.
Include the first distribution terminal 41, the second distribution terminal 42, third distribution terminal 43 and bus end 44 by the circuit board 40,
First distribution terminal 41, the second distribution terminal 42 and the third distribution terminal 43 respectively with the structure optical mode group 10, camera
Mould group 20 and receiver 30 are electrically connected, the bus end 44 and first distribution terminal 41, the second distribution terminal 42 and third separated time
43 electrical connection of end, through first distribution terminal 41, the second distribution terminal 42 and third distribution terminal 43 and the structure optical mode group 10,
30 transmission telecommunications number of camera module 20 and receiver, so that the structure optical mode group 10, camera module 20 and receiver 30
Only by 44 transmission telecommunications number of bus end, 40 structure of circuit board is simplified, the filming apparatus 100 is optimized
Arrangement.
In present embodiment, the structure optical mode group 10, camera module 20 and the receiver 30 are in the sliding block 300
Above mutually side by side.The structure optical mode group 10, camera module 20 and the receiver 30 are fixed on the sliding block 300 far from institute
Device noumenon 200 is stated, is stretched out with facilitating with the opposite described device ontology 200 of the sliding block 300, reduces the cunning of the sliding block 300
Dynamic stroke.The circuit board 40 is located at the sliding block 300 at described device ontology 200, to facilitate electrical connection described device
Ontology 200.The circuit board 40 and the structure optical mode group 10, camera module 20 and the receiver 30 are side by side.It is described total
Line end 44 is adjacent to described device ontology 200.First distribution terminal 41, the second distribution terminal end 42 and third distribution terminal 43 are distinguished
The neighbouring structure optical mode group 10, camera module 20 and receiver 30.So that the circuit board 40 and the structure optical mode group
10, camera module 20 and the receiver 30 are arranged more dense, optimize the arrangement of the electronic equipment 1000.Described
One distribution terminal 41, the second distribution terminal 42 and the third distribution terminal 43 are mutually drawn close, and are located at the circuit board 40 far from described
At 200 a side of device noumenon.The bus end 44 is located at the circuit board 40 close to a side of described device ontology 200
Place.The bus end 44 is opposite with first distribution terminal 41, the second distribution terminal 42 and third distribution terminal 43, to avoid described total
The conducting wire of line end 44 and first distribution terminal 41, the second distribution terminal 42 and 43 crosstalk of third distribution terminal.
Further, referring to Fig. 3, the circuit board 40 includes main line portion 50, total line portion 60, the first separated time road portion
70 and the second separated time road portion 80.The main line portion 50 there is first edge 51 and be oppositely arranged with the first edge 51 the
Two edges 52.The total line portion 60 and first separated time road portion 70 are respectively by the first edge 51 and the second edge
52 extend.Extended by the second edge 52 in second separated time road portion 80.The bus end 44 is set to the bus
Road portion 60.First distribution terminal 41 is set to first separated time road portion 70.Second distribution terminal 42 is set to the master
Line part 50.The third distribution terminal 43 is set to second separated time road portion 80.
In present embodiment, the main line portion 50 further includes being connected to the first edge 51 and the second edge 52
Between third edge 53, and the 4th edge 54 at the relatively described third edge 53.The first edge 51 and described second
Edge 52 is oppositely arranged in opposite 200 glide direction of described device ontology of the sliding block 300.The first edge 51 and institute
State the glide direction of the substantially vertical sliding block 300 of second edge 52.The third edge 53 and the 4th edge 54 are substantially
The glide direction of the opposite described device ontology 200 of the parallel sliding block 300.The third edge 53 to the 4th edge 54
Distance is substantially equal to width of the sliding block 300 in substantially vertical glide direction.The total line portion 60 is along substantially vertical institute
State the extension of 51 direction of first edge.First separated time road portion 70 extends along substantially vertical 52 direction of second edge.It is described
Second separated time road portion 80 extends along substantially vertical 52 direction of second edge.First separated time road portion 70 with described second point
Line part 80 is mutually isolated.The bus end 44 is set to the one end of the total line portion 60 far from the main line portion 50.Institute
It states the first distribution terminal 41 and is set to the one end of first separated time road portion 70 far from the main line portion 50.The bus end 44 to
The distance in the main line portion 50 increases, and the bus end 44 is facilitated to be electrically connected described device ontology 200.First distribution terminal
41 distance to the main line portion 50 increases, and facilitates the structure optical mode group 10 close to the edge of the sliding block 300, facilitates institute
It states structure optical mode group 10 and stretches out described device ontology 200.Second distribution terminal 42 is set to the main line portion 50 adjacent to institute
It states at second edge 52.Second edge 52 of the camera module 20 adjacent to the main line portion 50, convenience and described first
Separated time road portion 70 side by side, and conveniently with the structure optical mode group 10 side by side so that the Structural assignments of the electronic equipment 1000
It is compact, optimize the arrangement of the electronic equipment 1000.The third distribution terminal 43 is set to second separated time road portion
80 ends far from the main line portion 50 facilitate the receiver 30 and the camera module 20 arranged side by side.
Further, referring to Fig. 4, first separated time road portion 70 include the first branch 71 and with first branch 71
The second opposite branch 72.First branch 71 and second branch 72 are extended by the second edge 52.It is described
First distribution terminal 41 includes infrared line end 411 and imaging line end 412, and the infrared line end 411 and the imaging line end 412 are distinguished
It is set to first branch 71 and second branch 72.The structure optical mode group 10 include infrared mould group 11 and with it is described red
The relatively-stationary imaging modules 12 of external mold group 11.The infrared mould group 11 is electrically connected the infrared line end 411, the imaging modules
The 12 electrical connection imaging line ends 412.
In present embodiment, the extending direction of first branch 71 is equal with the extending direction of second branch 72
Row.The substantially vertical second edge 52 of the extending direction of first branch 71.First branch 71 and second point described
Portion 72 is located at the opposite both ends of the second edge 52.I.e. described first branch 71 and second branch 72 are adjacent respectively
The nearly third edge 53 and the 4th edge 54, so that can be obtained between first branch 71 and second branch 72
Obtain biggish spacing.Since the size of the camera module 20 is relatively larger than the size of the structure optical mode group 10, using described
It, can be by the camera module 20 and described called there are biggish spacing between first branch 71 and second branch 72
Device 30 is arranged between first branch 71 and second branch 72, the camera module 20 and the receiver 30
Along parallel first branch, the 71 extending direction arrangement, so that the camera module 20 and 30 structure of receiver are tighter
It gathers.The infrared mould group 11 is located at the two sides of the receiver 30 with the imaging modules 12.So that the infrared mould group
11 is mutually indepedent with the imaging modules 12, forms avoiding space between the infrared mould group 11 and the imaging modules 12, should
Avoiding space is placed for the camera module 20 and the receiver 30, and the inside of the electronic equipment 1000 is made full use of to arrange
Cloth space.The camera module 20 is located substantially at the position among the electronic equipment 1000, so that the camera module
20 two edges apart from 1000 width direction of electronic equipment are equidistant, and the camera module 20 is facilitated to shoot, and are improved
User experience.The infrared line end 411 is set to end of first branch 71 far from the main line portion 50.It is described infrared
Line end 411 is the driving electric signal of the infrared 11 transmitting infrared light of mould group and the inductive signal for detecting infrared light.
The imaging line end 412 is set to end of second branch 72 far from the main line portion 50.The imaging line end 412 is
The driving signal of the transmission of the imaging modules 12 shooting image and the inductive signal for receiving shooting image.The infrared line end 411
First branch 71 is located at the imaging line end 412 and second branch 72 is same towards side, it is described to facilitate
Infrared mould group 11 and the imaging modules 12 are electrically connected to the infrared line end 411 and the imaging line through flexible circuit board respectively
End 412.
Further, Fig. 5, Fig. 6 and Fig. 7 are please referred to, first branch 71 includes being extended by the second edge 52
The first branch 711 and the second branch 712 for being stretched out by first branch 711.The infrared line end 411 includes first port
413 and second port 414.The first port 413 and the second port 414 are respectively arranged at 711 He of the first branch
Second branch 712.The infrared mould group 11 includes that infrared camera 111 and the relatively described infrared camera 111 are fixed
Infrared light compensating lamp 112.The infrared camera 111 and the infrared light compensating lamp 112 are electrically connected the first port 413
With the second port 414.
In present embodiment, the infrared camera 111 is with the infrared light compensating lamp 112 along the parallel second edge 52
Direction extends.The i.e. described infrared camera 111 and the infrared light compensating lamp 112 the electronic equipment 1000 width direction simultaneously
Row.The infrared camera 111 and 112 phase of infrared light compensating lamp are simultaneously drawn close, so that the first port 413 and described second
Port 414 is closer, and facilitates 411 cabling of infrared line end.The first port 413 and the second port 414 are distinguished
It is set to first branch 711 and second branch 712, facilitates 71 winding displacement of the first branch, avoids the first end
The route of mouth 413 and the route crosstalk of the second port 414.Second branch 712 is extended by first branch 711
Out, to reduce the cable run distance of the first port 413 to the main line portion 50, and reduce the second port 414 to
The cable run distance in the main line portion 50.First branch 711 has the end edge 7111 of the parallel second edge 52
With the first side edge 7112 and second side edge 7113 for connecting 7111 both ends of end edge.The first side edge 7112
The second side edge 7113 is close to second branch 72.Second branch 712 is by first branch 7111 towards remote
Extend from 72 direction of the second branch.I.e. described second branch 712 is extended by the second side edge 7112.Described
Single port 413 is located at first branch 711 at the end edge 7111.The end edge 7111 with it is described infrared
The side wall of camera 111 is mutually drawn close.Second branch 712 includes the first extension 7121 and the second extension 7122.It is described
First extension 7121 is extended by the second side edge 7113, and second extension 7122 is by first extension
7121 extend.The substantially vertical second side edge 7112 of first extension, 7121 extending direction, described second extends
The substantially parallel second side edge 7112 of the extending direction in portion 7122.The second port 414 is set to described second and extends
In portion 7122, to facilitate the infrared camera 111 to draw close side by side with 112 phase of infrared light compensating lamp.The second port
414 close to the third edge 53.The infrared light compensating lamp 112 is located at the infrared camera 111 far from the imaging modules
12 sides.The infrared light compensating lamp 112 is closer with the infrared camera 111, facilitates the infrared light compensating lamp 112 for institute
It states infrared camera 111 and light is provided.And the distance of the infrared camera 111 to the imaging modules 12 reduces, and it is convenient
There are larger areas with picture image captured by the imaging modules 12 for the infrared light image that the infrared camera 111 is shot
Domain overlapping, and then can adjust the distance the closer face of the electronic equipment 1000 or other objects are identified.
In present embodiment, the first port 413 and the second port 414 are the connection of board to board connector
Seat.Extend the first flexible circuit board 113 in 111 bottom of infrared camera.First flexible circuit board 113 is parallel described
First branch 711.Relatively described 111 bottom fold of infrared camera in first flexible circuit board, 113 end, and with described
413 grafting of Single port, to realize that the infrared camera 111 is electrically connected with the first port 413.The infrared camera
111 vertical first branch 711 of direction, i.e., the described infrared camera 111 is towards the substantially vertical main line portion 50.Institute
It states 112 bottom of infrared light compensating lamp and extends light filling lamp circuit board 114.The light filling lamp circuit board 114 is flexible circuit board.It is described
Parallel second branch 712 of light filling lamp circuit board 114.The relatively described infrared light compensating lamp in 114 end of light filling lamp circuit board
112 bottom folds, and with 414 grafting of second port, to realize the infrared light compensating lamp 112 and the second port 414
Electrical connection.Vertical second branch 712 of the direction of the infrared light compensating lamp 112, i.e., the described infrared light compensating lamp 112 is towards substantially
The vertical main line portion 50.The light filling lamp circuit board 114 also extends expansion board far from the edge of second branch 712
Part 115.The filming apparatus 100 further includes ambient light sensor 110 and close to electrical distance sensor 120.The extension plate
115 include by 114 edge of light filling lamp circuit board stretch out the first extension 1151 and with 1151 phase of the first extension
Every the second extension 1152.First extension 1151 extends along the side wall bending of the infrared light compensating lamp 112.Described
Two extensions 1152 extend along the parallel 112 direction bending of infrared light compensating lamp.The ambient light sensor 110 is fixed on described
On first extension 1151, the second port 414 is electrically connected through the light filling lamp circuit board 114.The ambient light sensor
110 towards the opposite described device ontology 200 of the parallel sliding block 300 glide direction, the ambient light sensor 110 is towards institute
The received outside ambient light for stating 300 end of sliding block, in the ambient light sensor 110 with the relatively described dress of the sliding block 300
When setting the contraction of ontology 200, it is bright that the ambient light sensor 110 still can detecte the 1000 external environment light of electronic equipment
Degree, to adjust the brightness of display screen of the electronic equipment 1000.The ambient light sensor 110 is towards parallel second branch
712, so that the ambient light sensor 110 incudes environment light light on the top end face of the electronic equipment 1000, into
And avoid in the front of the electronic equipment 1000 or back side induction light, to avoid the front for destroying the electronic equipment 1000
And backside structure.It is described to be made of close to electrical distance sensor 120 infrared transmitter, infrared inductor and floodlight inductor.Institute
It states and is fixed on second extension 1152 close to electrical distance sensor 120, be electrically connected institute through the light filling lamp circuit board 114
State second port 414.It is described close to electrical distance sensor 120 towards with the infrared light compensating lamp towards generally parallel.It utilizes
The extension plate 115 is wholely set with the light filling lamp circuit board 114, facilitate be electrically connected through the second port 414 it is described
Infrared light compensating lamp 112, ambient light sensor 110 and close to electrical distance sensor 120, realize that the second port 414 is electrically connected
Multiple function elements optimize the arrangement of the filming apparatus 100, simplify 1000 structure of electronic equipment.
Further, referring to Fig. 8, the filming apparatus 100 includes first antenna mould group 101, second branch 712
It is additionally provided with first antenna port 102, the first antenna mould group 101 is electrically connected the first antenna port 102.
In present embodiment, the second port 414 is located at second extension 7121 far from the infrared light compensating lamp
112 end.The first antenna port 102 is located at the second port 414 close to the side of the infrared light compensating lamp 112.
The one end of the light filling lamp circuit board 114 far from the infrared light compensating lamp 112 and 414 grafting of second port, it is convenient described in
First antenna port 102 described in 114 gland of light filling lamp circuit board.The first antenna mould group 101 includes first antenna feeder panel
Part 103 and the first antenna circuit board member 104 for being electrically connected the first antenna feed plate 103.The first antenna feeder panel
The setting of part 103 is equipped with the first feed elastic slice 1031 and the first prevention at radio-frequency port 1032.The first feed elastic slice 1031 is used for day
Beta radiation offer electric feed signal.First prevention at radio-frequency port 1032 is used for and 105 grafting of the first rf signal line.Described first
Radiofrequency signal 105 is plugged in described device ontology 200, and and described device far from first antenna feed 103 one end of plate
Ontology 200 is electrically connected, and is used for transmission radiofrequency signal.The first antenna circuit board member 104 and the first antenna port 102
Electrical connection.The first antenna port 102 is the attachment base that plate connects plate.The end of the first antenna circuit board member 104
It is plugged with the first antenna port 102.First antenna circuit board member 104 described in 114 gland of light filling lamp circuit board
End and the first antenna port 102 facilitate the first antenna circuit board member 104 to insert with the first antenna port 102
Connect it is firm it is highly-safe so that the Structural assignments of the filming apparatus 100 are compact and sound construction.
Further, Fig. 9 and Figure 10 are please referred to, second branch 72 includes extended by the first edge 51
Three branches 721 and the 4th branch 722 extended by the third branch 721.The imaging line end 412 includes third port
415 and the 4th port 416.The third port 415 and the 4th port 416 are respectively arranged at 721 He of third branch
4th branch 422.The imaging modules 12 include that imaging camera head 121 and the relatively described imaging camera head 121 are fixed
Laser dot-matrix device 122.The imaging camera head 121 and the laser dot-matrix device 122 are electrically connected 415 He of third port
4th port 416.
In present embodiment, the imaging camera head 121 is with the laser dot-matrix device 122 along the parallel second edge 52
Direction extends.The i.e. described imaging camera head 121 and the laser dot-matrix device 122 the electronic equipment 1000 width direction simultaneously
Row.The imaging camera head 121 and 122 phase of laser dot-matrix device are simultaneously drawn close, so that the third port 415 and the described 4th
Port 416 is closer, and facilitates 412 cabling of imaging line end.The third port 415 and the 4th port 416 difference
It is set to the third branch 721 and the 4th branch 722, facilitates 72 winding displacement of the second branch, avoids the third end
The route of mouth 415 and the route crosstalk of the 4th port 416.4th branch 722 is extended by the third branch 721
Out, to reduce the cable run distance of the third port 415 to the main line portion 50, and reduce the 4th port 416 to
The cable run distance in the main line portion 50.The third branch 721 has the end edge 7211 of the parallel second edge 52
With the third side edge 7212 and four side edge 7213 for connecting 7211 both ends of end edge.The third side edge 7212
The four side edge 7213 is close to first branch 71.4th branch 722 is by the third branch 7211 towards remote
Extend from 72 direction of the second branch.I.e. described 4th branch 722 is extended by the four side edge 7213.Described
Three ports 415 are located at the third branch 721 at the end edge 7211.The end edge 7211 and the imaging
The side wall of camera 121 is mutually drawn close.4th branch 722 includes third extension 7221 and the 4th extension 7222.It is described
Third extension 7221 is extended by the four side edge 7213, and the 4th extension 7222 is by the third extension
7221 extend.The substantially vertical four side edge 7213 of 7221 extending direction of third extension, the described 4th extends
The substantially parallel four side edge 7213 of the extending direction in portion 7222.4th port 416 is set to the described 4th and extends
In portion 7222, to facilitate the imaging camera head 121 to draw close side by side with 122 phase of laser dot-matrix device.4th port
416 close to the 4th edge 54.The laser dot-matrix device 122 is located at the imaging camera head 121 far from the infrared photography
First 111 side.The laser dot-matrix device 122 is closer with the imaging camera head 121, facilitates the laser dot-matrix device 122
Light is provided for the imaging camera head 121.And the distance of the imaging camera head 121 to the infrared camera 111 subtracts
It is small, picture image captured by the infrared light image and the imaging camera head 121 for facilitating the imaging camera head 121 to shoot
There are large area overlappings, and then can adjust the distance the closer face of the electronic equipment 1000 or other objects are identified.
In present embodiment, the third port 415 and the 4th port 416 are the connection of board to board connector
Seat.Extend the second flexible circuit board 123 in 121 bottom of imaging camera head.Second flexible circuit board 123 is parallel described
Third branch 721.Relatively described 121 bottom fold of imaging camera head in second flexible circuit board, 123 end, and with described
Three ports, 415 grafting, to realize that the imaging camera head 121 is electrically connected with the third port 415.The imaging camera head
The 121 vertical third branch 721 of direction, i.e., the described imaging camera head 121 is towards the substantially vertical main line portion 50.
The direction of the imaging camera head 121 and the infrared camera 111 are towards roughly the same, to facilitate the imaging camera head
121 shoot same target with the infrared camera 111.Extend laser circuit plate 124 in 122 bottom of laser dot-matrix device.
The laser circuit plate 124 is flexible circuit board.Parallel 4th branch 722 of the laser circuit plate 124.The laser electricity
Relatively described 122 bottom fold of laser dot-matrix device in 124 end of road plate, and with 416 grafting of the 4th port, with realize it is described swash
Light dot-matrix device 122 is electrically connected with the 4th port 416.Vertical 4th branch of the direction of the laser dot-matrix device 122
722, i.e., the described laser dot-matrix device 122 is towards the substantially vertical main line portion 50.The third port 415 and the 4th end
Mouth 416 provides electric signal for the imaging camera head 121 and the laser dot-matrix device 122, simplifies 40 structure of circuit board, excellent
The Structural assignments of the filming apparatus 100 are changed.
Further, Figure 11 is please referred to, the filming apparatus 100 further includes the second antenna modules 90, the 4th branch
722 are additionally provided with the second antenna port 91, and second antenna modules 90 are electrically connected second antenna port 91.
In present embodiment, the 4th port 416 is located at the 4th extension 7222 far from the laser dot-matrix device
122 end.Second antenna port 91 is located at the 4th port 416 close to the side of the laser dot-matrix device 122.Institute
The one end of laser circuit plate 124 far from the laser dot-matrix device 122 and 416 grafting of the 4th port are stated, the laser is facilitated
Second antenna port 91 described in 124 gland of circuit board.Second antenna modules 90 include the second antenna feeder panel part 92 and electricity
Connect the second antenna traces plate 93 of the second antenna feeder panel part 92.The second antenna feeder panel part 92 is equipped with
Second feed elastic slice 921 and the second prevention at radio-frequency port 922.The second feed elastic slice 921 is used for aerial radiation offer feed
Signal.Second prevention at radio-frequency port 922 is used for and 923 grafting of the second rf signal line.Second radiofrequency signal 923 is far from institute
It states 92 one end of the second antenna feeder panel part and is plugged in described device ontology 200, and be electrically connected with described device ontology 200, is used for
Transmitting radio frequency signal.The second antenna traces plate 93 is electrically connected with second antenna port 91.Second antenna end
The attachment bases that mouth 91 connects plate for plate.The end of the second antenna traces plate 93 and 91 phase of the second antenna port
Grafting.The end of second antenna traces plate 93 described in 114 gland of laser circuit plate and second antenna port 91, side
Toilet is stated the second antenna traces plate 93 and is consolidated with 91 grafting of the second antenna port, so that the knot of the filming apparatus 100
The compact and sound construction of structure arrangement, it is highly-safe.
Further, please refer to Figure 12, Figure 13 and Figure 14, the camera module 20 include the first camera 21 and with institute
State the second camera 22 that the first camera 21 is fixed side by side.Second distribution terminal 42 include first camera shooting line end 421 and with
The the second camera shooting line end 422 of the first camera shooting line end 421 side by side.The first camera shooting line end 421 and the second camera shooting line
End 422 is electrically connected first camera 21 and the second camera 22.
In present embodiment, first camera 21 is main camera.The second camera 22 is secondary camera.Institute
State the first camera 21 and the second camera 22 towards roughly the same.First camera 21 direction with it is described at
As the direction of camera 121 is opposite.First camera 21 and the second camera 22 can be rear camera.It is described
Imaging camera head 121 is front camera.First camera 21 and the second camera 22 are in first branch 711
Between the third branch 721 side by side.First camera 21 and the second camera 22 are respectively adjacent to described first
Side edge 7112 and the third side edge 7212.The first camera shooting line end 421 and the second camera shooting line end 422 are adjacent to institute
Second edge 52 is stated, and side by side along parallel 52 direction of second edge.The first camera shooting line end 421 and second camera shooting
Spacing of the line end 422 in the main line portion 50 between first branch 711 and the third branch 721 described in face, it is convenient
Between first camera 21 and the second camera 22 are between first branch 71 and second branch 72
Away from interior, so that the filming apparatus 100 is compact-sized.The first camera shooting line end 421 and the second camera shooting line end 422
It is the socket of board to board connector.The bottom of first camera 21 and the bottom of the second camera 22 each extend over
First imaging circuit plate 211 and the second imaging circuit plate 221 out.The first imaging circuit plate 211 and the second camera shooting electricity
Road plate 221 is flexible circuit board.End of the first imaging circuit plate 211 far from first camera 21 and described the
One camera shooting 421 grafting of line end realizes that first camera 21 is electrically connected the first camera shooting line end 421, and described in convenience
The relatively described circuit board 40 of first camera 21 can be dismantled.The second imaging circuit plate 221 is far from the second camera
22 end and the second camera shooting 422 grafting of line end realize that the second camera 22 is electrically connected the second camera shooting line end
421, and facilitate the second camera 22 can the relatively described disassembly of circuit board 40.First camera, 21 part and institute
It states 111 phase of infrared camera and draws close.22 part of second camera and 121 phase of imaging camera head are simultaneously drawn close, and are optimized
The arrangement of the filming apparatus 100.
Present embodiment, the receiver 30 are located at the second camera 22 far from 50 side of main line portion.Institute
Receiver 30 is stated to draw close with 22 phase of second camera.It is less than described first using the length and width dimensions of the second camera 22
The length and width dimensions of camera 21 facilitate the receiver 30 to draw close with 22 phase of second camera.It is described to be passed close to electrical distance
Sensor 120 and first camera 21 are opposite, and side by side with 30 phase of receiver, make full use of first camera
Arrangement space between 21 and the edge of the sliding block 300.Second separated time road portion 80 includes being prolonged by the second edge 52
That stretches extends interconnecting piece 81 and the receiver connecting pin 82 far from the main line portion 50.The third distribution terminal 43 is set to institute
State receiver connecting pin 82.Between between the extension interconnecting piece 81 and first camera 21 and the second camera 22
Gap is oppositely arranged, and avoids the extension interconnecting piece 81 that first camera 21 and the second camera 22 is interfered to shoot.Institute
It states and extends interconnecting piece 81 substantially adjacent to the bottom of the camera module 20.Elastic slice contact point is arranged in third distribution terminal 43, described
Third distribution terminal 43 and the elastic slice of the receiver 30 are inconsistent, provide electric signal to facilitate to the receiver 30.It is described by
It talks about device connecting pin 82 and rigid stiffening plate is set far from 30 side of receiver, to provide rigid support to the receiver 30.
In present embodiment, the filming apparatus 100 further includes device bracket 140.The device bracket 140 is fixed on institute
It states on sliding block 300.The structure optical mode group 10, camera module 20 and the receiver 30 are both secured to the device bracket
On 140.The device bracket 140 is fixed on the edge of the sliding block 300 far from described device ontology 200.The device branch
The both ends of frame 140 are substantially aligned with the 300 width direction two edges of sliding block.The device bracket 140 is substantially parallel described
Light compensating lamp container 141, infrared container 142, light sensation container 143, called receipts are arranged in sequence in 300 width direction of sliding block
Tank 144, imaging container 145 and laser container 146.The light compensating lamp container 141, infrared container 142, light sensation are received
Tank 143, called container 144, imaging container 145 and laser container 146 accommodate the fixed infrared light compensating lamp respectively
112, infrared camera 111, close to electrical distance sensor 120, receiver 30, imaging camera head 121 and laser dot-matrix device 122.
The device bracket 140 to the infrared light compensating lamp 112, infrared camera 111, close to electrical distance sensor 120, receiver
30, imaging camera head 121 and laser dot-matrix device 122.It is positioned.The device bracket 140 is additionally provided with a substantially face institute
State the evacuation notch 147 of light sensation container 143 and the called container 144.Described in 147 partial receipt of evacuation notch
One camera 21 and the second camera 22, so that the camera module 20 and the device bracket 140 are fitted close,
So that the filming apparatus 100 is compact-sized.
Further, Figure 14 and Figure 15 are please referred to, the total line portion 60 is with the opposite described device ontology of the sliding block 300
200 slide and relatively described 50 bending of main line portion.Described device ontology 200 includes center 210 and is fixed on the center
210 mainboard 220, the sliding block 300 are slidably connected the center 210.The total line portion 60 includes far from the main line
The mainboard interconnecting piece 61 in portion 50 and it is connected to the mainboard interconnecting piece 61 and portion 62 is unfolded in the bending in the main line portion 50.Institute
It states mainboard interconnecting piece 61 and is fixedly connected with the mainboard 220.The bending unfolds portion 62 and is located at the mainboard 220 and mainboard company
The opposite side of socket part 61, the bus end 44 are set to the mainboard interconnecting piece 61.
In present embodiment, the circuit board 40 is flexible circuit board.The circuit board 40 is carried on the back in the main line portion 50
From 42 side of the second distribution terminal, the first stiffening plate, the second stiffening plate and third stiffening plate are set.First stiffening plate with
The first camera shooting line end 421 and the second camera shooting 422 face of line end.Second stiffening plate and the third stiffening plate point
It Wei Yu not first stiffening plate two sides.Second stiffening plate, the first stiffening plate and third stiffening plate are along parallel described second
The arrangement of 52 direction of edge.Second stiffening plate and the third stiffening plate respectively with first branch 711 and the third
Branch 721 is opposite.The main line portion 50 is arranged in the other side opposite with second stiffening plate and the third stiffening plate
First electronic device group 59 and the second electronic device group 58.Second stiffening plate props up the first electronic device group 59
Support, the third stiffening plate are supported the second electronic device group 58.The first electronic device group 59 and described
Two electronic device groups 58 can carry out the electric signal of the structure optical mode group 10, camera module 20 and the receiver 30
Processing.First electronic device assembly 59 and the second electronic device group 59 of arranging in the main line portion 50 sufficiently benefit
With the arrangement space of the circuit board 40, and make 40 stabilized structure of circuit board.Institute's circuit board 40 is described the
The 4th stiffening plate is arranged away from infrared 411 side of line end in one branch 71, and the 4th stiffening plate is to the infrared line end 411
Support.The circuit board 40 in second branch 72 away from the 5th stiffening plate of 412 side of imaging line end setting, described the
Five stiffening plates support the imaging line end 412, improve 40 stability of circuit board.Since the mainboard interconnecting piece 61 is fixed
In described device ontology 200, and the sliding block 300 is fixed in the main line portion 50.When the opposite described device of the sliding block 300
Ontology 200 is stretched out or is shunk, and drives the total line portion 60 to generate deformation, so that 62 bending of portion is unfolded in the bending.For side
Toilet states bending and unfolds 62 bending of portion, and reduces the stress loss that portion 62 is unfolded in the bending, the mainboard 220 and the center
There are containers between 210.The bending unfolds portion 62 and is contained in the mainboard 220 towards 210 side of center.The master
Plate interconnecting piece 61 is removably connected to the mainboard 220 away from 210 side of center.The bus end 44 is that plate connects plate
The attachment base of device.The bus end 44 and 220 grafting of mainboard, facilitate the circuit board 40 to dismantle with the mainboard 220.
Certainly, in other modes of having a try, the circuit board 40 is also possible to Rigid Flex.The main line portion 50 may be constructed
The hardboard part of the circuit board 40, the total line portion 60 may be constructed the soft board part of the circuit board 40.
Further, the total line portion 60 includes the first general branch 63 extended by the main line portion 50 and by described
The second general branch 64 that main line portion 50 extends.The bus end 44 includes the first connectivity port 441 and second connection end mouth
442.First connectivity port 441 is set to first general branch 63 far from described 50 one end of main line portion, and relatively described
Device noumenon 100 is fixed, and the second connection end mouth 442 is set to second general branch 64 far from the main line portion 50 1
End, and opposite described device ontology 200 is fixed.
In present embodiment, first general branch 63 and second general branch 64 by the main line portion 50 first edge
51 extend.The extending direction of first general branch 63 and the substantially parallel cunning of the extending direction of second general branch 64
Glide direction of the block 300 with respect to described device ontology 200.First general branch 63 and second general branch 64 are located at institute
State 51 both ends of first edge.First connectivity port 441 and the second connection end mouth 442 are that board to board connector is inserted
Seat.First connectivity port 441 and the second connection end mouth 442 and 220 grafting of mainboard, to realize the total line
Portion 50 is detachably connected with the mainboard 220.There are accommodating space 65 between first general branch 63 and second general branch 64,
The electronic equipment 1000 further includes the driving mechanism 230 for being fixed on the center 210, and the driving mechanism 230 is located at described
In accommodating space 65, the sliding block 200 is driven to slide.The driving mechanism 230 includes motor, screw rod and nut.The motor
It is fixed on described device ontology 200, the screw rod is driven to rotate, the screw rod drives the nut with respect to described device sheet 200
Sliding.The sliding block 300 is fixedly connected with the nut, slides with the nut with respect to described device ontology 200.Utilize the spiral shell
Mother applies sliding force to the position of camera module 20 described in 200 face of sliding block, facilitates and the sliding block 200 is driven to slide,
So that the sliding block 200 slide it is smooth.First general branch 63 and second general branch 64 avoid the driving mechanism 230,
Optimize the Structural assignments of the electronic equipment 1000.
Further, Figure 15 and Figure 16 are please referred to, the electronic equipment 1000 further includes being fixed on described device ontology 200
Display 240, the display 240 have viewing area 241, the camera module 20, structure optical mode group 10 and receiver
30 shrink with the sliding block 300 in described device ontology 200, structure optical mode group described in at least covering part of the viewing area 241
10.The display screen 240 can be avoided in institute with overlay structure optical mode group 10 and the receiver 30 using the viewing area 241
It states viewing area 241 and opens up the signal port for transmitting signal for the structure optical mode group 10 and the receiver 30, described in increasing
Screen display structure comprehensively is realized in the accounting of the display screen 240 in viewing area 241.The display screen 240 is covered on the center
210 deviate from 220 side of mainboard.The electronic equipment 1000 further includes dorsal shield 250.The dorsal shield 250 is covered in described
Frame 210 deviates from 240 side of display screen.The mainboard 220 is between the dorsal shield 250 and the center 210.The back
The edge of shell 250 and the edge of the display screen 240 are substantially aligned.It is shunk in the opposite described device ontology 200 of the sliding block 300
Under state, the sliding block 300 and the filming apparatus 100 and described device ontology 200 is completely covered in the dorsal shield 250.Institute
It states display screen 240 and the sliding block 300 and the filming apparatus 100 is completely covered.
It is understood that when the opposite described device ontology 200 of the sliding block 300 is fully extended, 300 band of sliding block
It moves the structure optical mode group 10, receiver 30, ambient light sensor 110 and stretches out described device close to electrical distance sensor 120
Ontology 200, the structure optical mode group 10, receiver 30, ambient light sensor 110 and described close to 120 phase of electrical distance sensor
When to the display screen 240 expansion;The infrared light compensating lamp 112 can avoid the display screen 240 and emit infrared light to face
Line, to detect face at a distance from the electronic equipment 1000;The laser dot-matrix device 122 can emit lattice structure towards face
Infrared light, to detect face characteristic structure.The infrared camera 111 acquires the laser that the laser dot-matrix device 122 emits
Lattice structure.The imaging camera head 121 can shoot facial image picture, to what is acquired with the infrared camera 111
Laser dot-matrix structure is synthesized, and can be also used for conventional shooting etc..The receiver 30 can avoid the display screen 240 to
User provides call voice;It is described close to electrical distance sensor 120 can be by ambient light sensor, infrared distance sensor and
Infrared transmitter is constituted.It is described that detection ambient brightness may be implemented close to electrical distance sensor 120, utilize infrared light
Judge extraneous component whether close to the electronic equipment function.It is described close to electrical distance sensor 120 in the relatively described display
After 240 expansion of screen, external environment light brightness can detecte, to control brightness of display screen, to assist the imaging camera head
Whether 121 Self-timer can also detect user face in the case where the receiver 30 provides a user call voice state
Close to the display screen 240, to control the bright screen of the display screen 240 or breath screen.In the ambient light sensor 110 with described
Sliding block 300 is with respect under 200 stretching state of described device ontology, and the ambient light sensor 110 can stop working, by described
Ambient brightness is detected close to electrical distance sensor 110.
The filming apparatus and electronic equipment of the application embodiment include the first distribution terminal, second by the circuit board
Distribution terminal, third distribution terminal and bus end, first distribution terminal, the second distribution terminal and the third distribution terminal respectively with it is described
Structure optical mode group, camera module and receiver electrical connection, the bus end and first distribution terminal, the second distribution terminal and the
3-point line end electrical connection, through first distribution terminal, the second distribution terminal and third distribution terminal and the structure optical mode group, camera
Mould group and receiver transmission telecommunications number, so that the structure optical mode group, camera module and receiver only pass through the bus end
Transmission telecommunications number simplifies the board structure of circuit, optimizes the arrangement of the filming apparatus.
In the description of this specification, reference term " certain embodiments ", " embodiment ", " some embodiment party
The description of formula ", " exemplary embodiment ", " example ", " specific example " or " some examples " means in conjunction with the embodiment
Or example particular features, structures, materials, or characteristics described are contained at least one embodiment or example of the invention.
In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, description
Particular features, structures, materials, or characteristics can be in any one or more embodiments or example with suitable side
Formula combines.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include at least one described feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two,
Three, unless otherwise specifically defined.
Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example
Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned
Embodiment is changed, modifies, replacement and variant, and the scope of the present invention is defined by the claims and their equivalents.
Claims (20)
1. a kind of filming apparatus, which is characterized in that the filming apparatus include camera module, structure optical mode group, receiver and
Circuit board, the circuit board include the first distribution terminal, the second distribution terminal, third distribution terminal and bus end, first distribution terminal,
Second distribution terminal and the third distribution terminal are electrically connected with the structure optical mode group, camera module and receiver respectively, described
Bus end is electrically connected with first distribution terminal, the second distribution terminal and third distribution terminal, through first distribution terminal, the second separated time
End and third distribution terminal and the structure optical mode group, camera module and receiver transmission telecommunications number.
2. filming apparatus according to claim 1, which is characterized in that the circuit board include main line portion, total line portion,
First separated time road portion and the second separated time road portion, the main line portion have first edge and are oppositely arranged with the first edge
Second edge, the total line portion is extended by the first edge, first separated time road portion and second separated time road portion
Extended by the second edge, the bus end is set to the total line portion, and first distribution terminal is set to described
One separated time road portion, second distribution terminal are set to the main line portion, and the third distribution terminal is set to second separated time
Road portion.
3. filming apparatus according to claim 2, which is characterized in that first separated time road portion include the first branch and with
The second opposite branch of first branch, first branch and second branch are extended by the second edge,
First distribution terminal includes infrared line end and imaging line end, and the infrared line end and the imaging line end are respectively arranged at described
First branch and second branch, the structure optical mode group include infrared mould group and with the infrared mould group it is relatively-stationary at
As mould group, the infrared mould group is electrically connected the infrared line end, and the imaging modules are electrically connected the imaging line end.
4. filming apparatus according to claim 3, which is characterized in that deposited between first branch and second branch
In spacing, second distribution terminal and the third distribution terminal are set to place opposite with the spacing of the main line portion.
5. filming apparatus according to claim 3, which is characterized in that first branch includes being prolonged by the second edge
The first branch stretched out and the second branch stretched out by first branch, the infrared line end includes first port and second end
Mouthful, the first port and the second port are respectively arranged at first branch and second branch, the infrared mould
Group includes infrared camera and the fixed infrared light compensating lamp of the infrared camera relatively, the infrared camera and described infrared
Light compensating lamp is electrically connected the first port and the second port.
6. filming apparatus according to claim 5, which is characterized in that second branch is by first branch towards separate
Second branch extends in direction.
7. filming apparatus according to claim 5, which is characterized in that the filming apparatus further includes first antenna mould group,
Second branch is additionally provided with first antenna port, and the first antenna mould group is electrically connected the first antenna port.
8. filming apparatus according to claim 7, which is characterized in that the filming apparatus further includes light filling lamp circuit board,
First antenna port described in second port described in the light compensating lamp circuit board electrical connection and the infrared light compensating lamp and gland.
9. filming apparatus according to claim 3, which is characterized in that second branch includes being prolonged by the second edge
The third branch of stretching and the 4th branch extended by the third branch, the imaging line end includes third port and the 4th
Port, the third port and the 4th port are respectively arranged at the third branch and the 4th branch, the imaging
Mould group includes imaging camera head and the fixed laser dot-matrix device of the imaging camera head relatively, the imaging camera head and described is swashed
Light dot-matrix device is electrically connected the third port and the 4th port.
10. filming apparatus according to claim 9, which is characterized in that the 4th branch is due to court of the third branch
Extend far from first branch direction.
11. filming apparatus according to claim 9, which is characterized in that the filming apparatus further includes the second antenna modules,
4th branch is additionally provided with the second antenna port, and second antenna modules are electrically connected second antenna port.
12. filming apparatus according to claim 11, which is characterized in that the filming apparatus further includes laser circuit for lamp
Plate, the 4th port and the laser dot-matrix device described in the laser lamp circuit board electrical connection, and the second antenna port described in gland.
13. filming apparatus described in any one according to claim 1~12, which is characterized in that the camera module includes
First camera and the second camera fixed side by side with first camera, second distribution terminal include the first camera shooting line
It holds and the second camera shooting line end with the first camera shooting line end side by side, the first camera shooting line end and the second camera shooting line end divides
It is not electrically connected first camera and the second camera.
14. a kind of electronic equipment, which is characterized in that the electronic equipment includes shooting described in claim 1~13 any one
Device.
15. a kind of electronic equipment, which is characterized in that the electronic equipment includes filming apparatus, device noumenon and the institute that is slidably connected
State the sliding block of device noumenon, the filming apparatus includes structure optical mode group, camera module, receiver and circuit board, described to take the photograph
As head mould group, structure optical mode group and receiver are fixed on the sliding block, the circuit board includes the first distribution terminal, the second separated time
End, third distribution terminal and bus end, first distribution terminal, the second distribution terminal and the third distribution terminal respectively with the structure
Optical mode group, camera module and receiver transmission electrical connection, the bus end and first distribution terminal, the second distribution terminal and the
3-point line end electrical connection, through first distribution terminal, the second distribution terminal and third distribution terminal and the structure optical mode group, camera
Mould group and receiver transmission telecommunications number, the bus end are also electrically connected described device ontology.
16. electronic equipment according to claim 15, which is characterized in that the circuit board includes main line portion, total line
Portion, the first separated time road portion and the second separated time road portion, the total line portion is extended by main line portion, and the total line portion is far from institute
State main line portion one end and be fixed on described device ontology, the total line portion slide with the sliding block with respect to described device ontology and
The relatively described main line portion bending, the bus end are set to the total line portion far from main line portion one end, and described
One separated time road portion and second separated time road portion are extended by the main line portion, and first distribution terminal is set to described first
Separated time road portion, second distribution terminal are set to the main line portion, and the third distribution terminal is set to second separated time road
Portion.
17. electronic equipment according to claim 16, which is characterized in that described device ontology includes center and is fixed on institute
State the mainboard of center, the sliding block is slidably connected the center, and the total line portion includes the mainboard far from the main line portion
Portion is unfolded in interconnecting piece and the bending for being connected to the mainboard interconnecting piece and the main line portion, and the mainboard interconnecting piece is fixedly connected
The mainboard, the bending unfold portion and are located at the mainboard side opposite with the mainboard interconnecting piece, the bus end setting
In the mainboard interconnecting piece.
18. electronic equipment according to claim 17, which is characterized in that the total line portion includes by the main line portion
The first general branch extended and the second general branch extended by the main line portion, the bus end include the first connectivity port and
Second connection end mouth, first connectivity port are set to first general branch far from main line portion one end, and opposite institute
It states device noumenon to fix, the second connection end mouth is set to second general branch far from main line portion one end, and opposite
Described device ontology is fixed.
19. electronic equipment according to claim 18, which is characterized in that between first general branch and second general branch
There are accommodating space, the electronic equipment further includes the driving mechanism for being fixed on the center, and the driving mechanism is located at described
In accommodating space, the sliding block is driven to slide.
20. electronic equipment described in 5~19 any one according to claim 1, which is characterized in that the electronic equipment further includes
Be fixed on the display of described device ontology, the display have camera module described in viewing area, structure optical mode group and by
It talks about device to shrink with the sliding block in described device ontology, structure optical mode group described in at least covering part of the viewing area.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820849673.8U CN208489915U (en) | 2018-06-02 | 2018-06-02 | Filming apparatus and electronic equipment |
PCT/CN2019/089375 WO2019228479A1 (en) | 2018-06-02 | 2019-05-30 | Image capture device and electronic apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820849673.8U CN208489915U (en) | 2018-06-02 | 2018-06-02 | Filming apparatus and electronic equipment |
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Publication Number | Publication Date |
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CN208489915U true CN208489915U (en) | 2019-02-12 |
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Application Number | Title | Priority Date | Filing Date |
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CN201820849673.8U Expired - Fee Related CN208489915U (en) | 2018-06-02 | 2018-06-02 | Filming apparatus and electronic equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108495015A (en) * | 2018-06-02 | 2018-09-04 | Oppo广东移动通信有限公司 | Filming apparatus and electronic equipment |
WO2019228479A1 (en) * | 2018-06-02 | 2019-12-05 | Oppo广东移动通信有限公司 | Image capture device and electronic apparatus |
-
2018
- 2018-06-02 CN CN201820849673.8U patent/CN208489915U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108495015A (en) * | 2018-06-02 | 2018-09-04 | Oppo广东移动通信有限公司 | Filming apparatus and electronic equipment |
WO2019228479A1 (en) * | 2018-06-02 | 2019-12-05 | Oppo广东移动通信有限公司 | Image capture device and electronic apparatus |
CN108495015B (en) * | 2018-06-02 | 2024-02-09 | Oppo广东移动通信有限公司 | Shooting device and electronic equipment |
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