CN108769547A - Photographic device, electronic equipment and image acquiring method - Google Patents
Photographic device, electronic equipment and image acquiring method Download PDFInfo
- Publication number
- CN108769547A CN108769547A CN201810534670.XA CN201810534670A CN108769547A CN 108769547 A CN108769547 A CN 108769547A CN 201810534670 A CN201810534670 A CN 201810534670A CN 108769547 A CN108769547 A CN 108769547A
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- CN
- China
- Prior art keywords
- camera
- sliding part
- guide sliding
- main body
- arrying main
- Prior art date
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/90—Arrangement of cameras or camera modules, e.g. multiple cameras in TV studios or sports stadiums
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
- H04N23/54—Mounting of pick-up tubes, electronic image sensors, deviation or focusing coils
Abstract
This application provides a kind of photographic devices, electronic equipment and acquisition image method, the photographic device includes arrying main body, first camera, second camera and third camera, first camera is fixedly connected with the arrying main body, first camera has the first primary optical axis, the second camera has second primary optical axis parallel with first primary optical axis, the second camera is slidably connected the arrying main body along the vertical first key light axis direction, the third camera has the third primary optical axis parallel with first primary optical axis, the third camera is slidably connected the arrying main body along the vertical first key light axis direction.Consequently facilitating adjusting separately the camera lens spacing of first camera and the second camera and third camera, first camera can be shot with the second camera and third camera cooperation, the needs of different photographed scenes are adapted to, user experience is improved.
Description
Technical field
This application involves technical field of electronic equipment, and in particular to a kind of photographic device, electronic equipment and image acquisition side
Method.
Background technology
With the development increasingly of electronic device technology, camera is integrated in more and more electronic equipments.Traditional list
The coverage of camera mode or dual camera pattern is fixed, and can not be adjusted according to different photographed scenes, be caused to clap
It takes the photograph ineffective.
Invention content
A kind of photographic device of the application offer, electronic equipment and image acquiring method.
The application provides a kind of photographic device, and the photographic device includes arrying main body, the first camera, second camera
With third camera, first camera is fixedly connected with the arrying main body, and first camera has the first primary optical axis,
The second camera has second primary optical axis parallel with first primary optical axis, and the second camera is along vertical described
First key light axis direction is slidably connected the arrying main body, and the third camera has parallel with first primary optical axis
Third primary optical axis, the third camera are slidably connected the arrying main body along the vertical first key light axis direction.
The application also provides a kind of electronic equipment, and the electronic equipment includes photographic device as described above.
The application also provides a kind of acquisition image method, and the acquisition image method obtains image, institute using electronic equipment
It includes photographic device and drive component to state electronic equipment, and the photographic device includes arrying main body, the first camera, the second camera shooting
Head and third camera, first camera are fixedly connected with the arrying main body, and the second camera is slidably connected described
Arrying main body, the third camera are slidably connected the arrying main body, and the driving component includes being fixed on the carrying to lead
Body is simultaneously drivingly connected the first actuator of the second camera and is fixed on the arrying main body and is drivingly connected the third
Second actuator of camera, the acquisition image method includes step:
Manipulation instruction is received, sliding-modes are determined according to manipulation instruction;
The relatively described arrying main body sliding of the second camera is driven according to the first actuator described in sliding-modes control,
And it controls second actuator and drives the relatively described arrying main body sliding of the third camera;
Whether the slide displacement value for detecting the second camera meets the first pre-determined distance value and third camera shooting
Whether the slide displacement value of head meets the second pre-determined distance value;
It is to detect shooting instruction if being detected as, first camera, second camera shooting is started according to shooting instruction
Head and the third camera, and obtain at least three pending images;
To each pending image extracting section feature, to obtain at least three Partial Features;
By at least three Partial Features carry out splicing or it is superimposed.
Photographic device, electronic equipment and image acquiring method provided by the present application, by second primary optical axis with it is described
First primary optical axis is parallel, and the second camera is slidably connected the arrying main body along the vertical first key light axis direction;
Parallel with first primary optical axis by the third primary optical axis again, the third camera is along vertical first primary optical axis
Direction is slidably connected the arrying main body, consequently facilitating adjusting separately first camera and the second camera and third
The camera lens spacing of camera, first camera can shoot with the second camera and third camera cooperation, fit
The needs of different photographed scenes are answered, user experience is improved.
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 photographic device that the embodiment of the present application one provides;
Fig. 2 is the structural schematic diagram two for the photographic device that the embodiment of the present application one provides;
Fig. 3 is the structural schematic diagram three for the photographic device that the embodiment of the present application one provides;
Fig. 4 is the structural schematic diagram four for the photographic device that the embodiment of the present application one provides;
Fig. 5 is the structural schematic diagram five for the photographic device that the embodiment of the present application one provides;
Fig. 6 is the structural schematic diagram for the photographic device that the embodiment of the present application two provides;
Fig. 7 is the structural schematic diagram one of electronic equipment provided by the embodiments of the present application;
Fig. 8 is the schematic cross-section one at the P-P in Fig. 7;
Fig. 9 is the schematic cross-section two at the P-P in Fig. 7;
Figure 10 is the structural schematic diagram two of electronic equipment provided by the embodiments of the present application;
Figure 11 is the flow diagram provided by the embodiments of the present application for obtaining image method.
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
Referring to Fig. 1, the application provides a kind of photographic device 100, the photographic device 100 includes arrying main body 10, the
One camera 20, second camera 30 and third camera 40.First camera 20 is fixedly connected with the arrying main body 10,
First camera 20 has the first primary optical axis 21.The second camera 30 has parallel with first primary optical axis 21
The second primary optical axis 31, the second camera 30 is slidably connected the arrying main body along vertical first primary optical axis, 21 direction
10.The third camera 40 has the third primary optical axis 41 parallel with first primary optical axis 21, the third camera
40 are slidably connected the arrying main body 10 along vertical first primary optical axis, 21 direction.Wherein, first primary optical axis 21 is institute
The central symmetry axes of the lens set of the first camera 20 are stated, second primary optical axis 31 is the eyeglass of the second camera 30
The central symmetry axes of group, the third primary optical axis 41 are the central symmetry axes of the lens set of the third camera 40.It can
With understanding, first camera 20, the second camera 30 and the third camera 40 are towards identical.It is described to take the photograph
As device 100 can be applied to electronic equipment 200, the electronic equipment 200 can be smart mobile phone, tablet computer, notebook
Computer or wearable smart machine.
Parallel with first primary optical axis 21 by second primary optical axis 31, the second camera 30 is along vertical institute
21 direction of the first primary optical axis is stated to be slidably connected the arrying main body 10;Pass through the third primary optical axis 41 and first key light again
Axis 21 is parallel, and the third camera 40 is slidably connected the arrying main body 10 along vertical first primary optical axis, 21 direction,
Consequently facilitating adjusting separately the camera lens spacing of first camera 20 and the second camera 30 and third camera 40, institute
Stating the first camera 20 can shoot with the second camera 30 and the third camera 40 cooperation, adapt to different photographed scenes
Needs, improve user experience.
Referring to Fig. 2, in present embodiment, the arrying main body 10 can be used for carrying camera, display screen module 60,
Circuit board or other function elements.The arrying main body 10 has the first long side 11 and is oppositely arranged with first long side 11
Second long side 12, and two short sides 13 being oppositely arranged.First long side 11 and second long side 12 are all connected to institute
It states between two short sides 13.The arrying main body 10 is equipped with the first guide sliding part 14 and the second guide sliding part 15, first guide sliding part
14 extending direction is parallel with the extending direction of second guide sliding part 15.The extending direction of first guide sliding part 14 and institute
The extending direction for stating the second guide sliding part 15 is parallel with the short side 13.First guide sliding part 14 is to be set to the carrying
The guide runner of main body 10, second guide sliding part 15 are the guide runner for being set to the arrying main body 10.The second camera
30 are slidably connected to first guide sliding part 14, and the third camera 40 is slidably connected to second guide sliding part 15.At it
In his embodiment, first guide sliding part 14 can also be the sliding rail for being set to the arrying main body 10, second slide guide
Portion 15 can also be the sliding rail for being set to the arrying main body 10.The extending direction of first guide sliding part 14 and described second is led
The extending direction in cunning portion 15 is parallel with first long side 11 or second long side 12.
Referring to Fig. 3, in a kind of embodiment, the extending direction of first guide sliding part 14 and second guide sliding part 15
Extending direction it is in the same direction, first camera 20 is located at the extension side of first guide sliding part 14 or second guide sliding part 15
Upwards.Be located at due to first camera 20 on the extending direction of first guide sliding part 14, the second camera 30 with
The relative direction of first camera 20 and the extending direction of first guide sliding part 14 are in the same direction.The second camera 30 with
The spacing adjustable range of first camera 20 is equal to the development length of first guide sliding part 14, realizes second key light
Axis 31 and the spacing adjustable range of first primary optical axis 21 maximize.Extending direction by second guide sliding part 15 and institute
The extending direction for stating the first guide sliding part 14 is in the same direction, to which first camera 20 also is located at the extension of second guide sliding part 15
On direction.The extension side of the third camera 40 and the relative direction and second guide sliding part 15 of first camera 20
To in the same direction, the third camera 40 and the spacing adjustable range of first camera 20 are equal to second guide sliding part 15
Development length realizes that the third primary optical axis 41 and the spacing adjustable range of first primary optical axis 21 maximize.
Referring to Fig. 3, first guide sliding part 14 has a first end 141 towards second guide sliding part 15, described the
Two guide sliding parts 15 have the second end 151 towards first guide sliding part 14, the second end 151 and 141 phase of the first end
To setting, first camera 20 is between the first end 141 and the second end 151.First guide sliding part 14
Also there is the third end 142 being oppositely arranged with the first end 141.The first end 141 relatively of the third end 142 is far from institute
State the first camera 20, the relative direction of the third end 142 and the first end 141 is parallel with the short side 13.It is described
Third end 142 is adjacent with first long side 11, to increase the sliding stroke of the second camera 30.Second guide sliding part
15 also have the 4th end 152 being oppositely arranged with the second end 151, the relatively described second end 151 in the 4th end 152 separate
The relative direction of first camera 20, the 4th end 152 and the second end 151 is parallel in the short side 13.Institute
State that the 4th end 152 is adjacent with second long side 12, to increase the sliding stroke of the third camera 40.
The first end 141 and the second end 151 are adjacent with first camera 20 respectively, when second camera shooting
First 30 slide into the first end 141 and the third camera 40 along second slide guide along first guide sliding part 14
When portion 15 slides into the second end 151, second primary optical axis 31 is at a distance from first primary optical axis 21 and the third
Primary optical axis 41 reaches minimum at a distance from first primary optical axis 21, the shooting visual field of first camera 20 and described the
The degree of overlapping of the shooting visual field of two cameras 30 and the third camera 40 is high, by first camera 20, described second
The image that camera 30 and the third camera 40 are shot respectively synthesizes the high photo of clarity.When the second camera 30
The third end 142 and the third camera 40 are slid into along second guide sliding part 15 along first guide sliding part 14
When sliding into four end 152, second primary optical axis 31 reaches maximum at a distance from the third primary optical axis 41, Ke Yili
With the depth of view information of the second camera 30 and the remote subject of 40 conjunction measuring of third camera, it is convenient for
Virtualization effect is realized in the image of first camera 20 shooting.
First camera 20, the second camera 30 and the third camera 40 can match as follows
It is in step with and takes the photograph the photo of acquisition ultra-wide angle effect:The second camera 30 is along first guide sliding part 14 by the first end
During 141 slide to the third end 142, multiple figures are shot according to default frequency of taking pictures using the second camera 30
Picture;The mistake that the third camera 40 is slided along second guide sliding part 15 from the second end 151 to the 4th end 152
Cheng Zhong shoots multiple images using the third camera 40 according to default frequency of taking pictures;And it is shot using the first camera 20
Image, the plurality of pictures that first camera 20, the second camera 30 and the third camera 40 are shot carry out
Synthesis is handled, to obtain the photo of ultra-wide angle effect.
Referring to Fig. 4, in another embodiment, the extending direction of first guide sliding part 14 and second guide sliding part
15 extending direction is arranged side by side.First camera 20 be located at first guide sliding part 14 and second guide sliding part 15 it
Between.First camera 20 can be wide-angle camera, and the second camera 30 can be focal length camera, described second
There are the first laps for the shooting visual field of camera 30 and the shooting visual field of first camera 20;The third camera
40 can be focal length camera, and the shooting visual field of the third camera 40 and the shooting visual field of first camera 20 exist
Second lap.It is slided by above-mentioned first weight of consecutive variations along first guide sliding part 14 by the second camera 30
Relative position of the folded part in the shooting visual field of first camera 20, to change the figure that first camera 20 is shot
As the clarity in specified region;It is slided by consecutive variations along second guide sliding part 15 by the third camera 40 again
Relative position of above-mentioned second lap in the shooting visual field of first camera 20, to change first camera
The clarity in another specified region of image of 20 shootings, it is clear to increase the image that first camera 20 is shot on a large scale
Clear degree.
Referring to Fig. 5, first camera 20 is between the first end 141 and the second end 151, to increase
Add the adjustable range and first camera 20 of first camera 20 and the camera lens spacing of the second camera 30
With the adjustable range of the camera lens spacing of the third camera 40.The first end 141 of first guide sliding part 14 and described first
Long side 11 is adjacent, and the third end 142 of first guide sliding part 14 is adjacent with second long side 12, the first end 141 and institute
The relative direction for stating third end 142 is parallel with the short side 13;The second end 151 of second guide sliding part 15 and described first
Long side 11 is adjacent, and the 4th end 152 of second guide sliding part 15 is adjacent with second long side 12, the second end 151 and institute
The relative direction for stating the 4th end 152 is parallel with the short side 13.To the development length of first guide sliding part 14 and described
The development length of second guide sliding part 15 is equal to the length of the short side 13, realizes that the second camera 30 and the third are taken the photograph
As first 40 sliding stroke maximizes.Optionally, the photographic device 100 further includes being fixedly connected with 30 He of the second camera
The connector 80 of the third camera 40, the connector 80 can be used for keeping the second camera 30 and the third
The spacing of camera 40 is fixed, and the second camera 30 and the third camera 40 composition can the arrying main bodies 10 relatively
The parallel dual camera of sliding changes coverage.
Embodiment two
Referring to Fig. 6, the application also provides another photographic device 300, the photographic device 100 that embodiment two provides and reality
The photographic device 100 for applying the offer of example one is distinct:The arrying main body 10 is equipped with the first guide sliding part 14 and the second guide sliding part 15,
The extending direction of first guide sliding part 14 and the extending direction of second guide sliding part 15 are arranged in angle, second camera shooting
First 30 are slidably connected first guide sliding part 14, and the third camera 40 is slidably connected second guide sliding part 15.
In present embodiment, the extending direction of the extending direction of first guide sliding part 14 and second guide sliding part 15 it
Between angle be right angle.Specifically, first long side 11 is mutually parallel with second long side 12, the short side 13 vertically connects
It is connected between first long side 11 and second long side 12.The extending direction of first guide sliding part 14 and the short side 13
Parallel, the extending direction of second guide sliding part 15 is parallel with the extending direction of first long side 11, to described the
The glide direction of two cameras 30 is parallel with the short side 13, and the glide direction of the third camera 40 is grown with described first
Side 11 is parallel, and the glide direction of the second camera 30 and the glide direction of the third camera 40 are mutually hung down
Directly.
First camera 20 is located on the extending direction of first guide sliding part 14, and is located at second guide sliding part
On 15 extending direction.To first camera 20 and the second camera 30 relative direction always with described first
The extending direction of guide sliding part 14 is parallel, the relative direction of first camera 20 and the third camera 40 always with institute
The extending direction for stating the second guide sliding part 15 is parallel.To which the second camera 30 can be along parallel 13 direction of the short side
Relatively described first camera 20 slides, and is slided and is pressed default along first guide sliding part 14 using the second camera 30
Frequency of taking pictures shoots plurality of pictures, multiple that picture and the second camera 30 that first camera 20 is shot are shot
Picture synthesizes big multi-perspective picture, realizes the coverage for expanding the photographic device 100 on parallel 13 direction of the short side;Institute
Stating third camera 40 can slide along parallel first long side, 11 direction first camera 20 relatively, utilize described the
Three cameras 40 slide along second guide sliding part 15 and shoot plurality of pictures by default frequency of taking pictures, and described first is imaged
The picture of first 20 shooting synthesizes big multi-perspective picture with the plurality of pictures that the third camera 40 is shot, and realizes and expands the camera shooting
Coverage of the device 100 on parallel first long side, 11 direction.In other embodiments, first guide sliding part 14
Extending direction and the extending direction of second guide sliding part 15 between angle be acute angle or obtuse angle.
Referring to Fig. 7, the application also provides a kind of electronic equipment 200, the electronic equipment 200 includes taking the photograph as described above
As device 100.The photographic device 100 further includes backboard 50, and the backboard 50 is relatively fixed with the arrying main body 10, described
Receiving space 51 is formed between backboard 50 and the arrying main body 10, the receiving space 51 at least partly accommodates described first and takes the photograph
As head 20, the second camera 30 and the third camera 40.
Referring to Fig. 8, in present embodiment, the backboard 50 has the inner surface 52 and phase towards the arrying main body 10
The outer surface 53 that the inner surface 52 is arranged.The backboard 50 at least partly accommodates described first in the formation of the inner surface 52
First sinking space 54 of camera 20 and the second sinking space 55, Yi Jizhi at least partly accommodating the second camera 30
Small part accommodates the third sinking space 56 of the third camera 40, and the backboard 50 is described in 53 face of the outer surface
First boss 57 is formed at one sinking space 54, second boss 58 is equipped at correspondence second sinking space 55, described
Third boss 59 is formed at third sinking space 56 described in 53 face of outer surface.It is understood that second sinking space
55 provide space for the second camera 30, and third sinking space 56 is that the third camera 40 provides movement
Space.The first boss 57 is equipped with the first loophole 571 in end face, and first loophole 571 is used for through shooting light
To first camera 20, the second boss 58 is equipped with the second loophole 581 in end face, and second loophole 581 is used
In through shooting light, to the second camera 30, the third boss 59 is equipped with third loophole 591 in end face, described the
Three loopholes 591 are used for through shooting light to the third camera 40.
Referring to Fig. 9, the electronic equipment 200 further includes 71 He of the first eyeglass covered in first loophole 571
Cover the second eyeglass 72 of second loophole 581, and the capping 591 third eyeglass 73 of third loophole.Described
One eyeglass 71, second eyeglass 72 and the third eyeglass 73 are sapphire glass.Due to first eyeglass 71, described
Second eyeglass 72 and the third eyeglass 73 are nonmetallic, first eyeglass 71, second eyeglass 72 and the third
Eyeglass 73 can be used for penetrating aerial radiation signal, antenna externally reception and transmitting antenna signal be realized, from without additionally setting
Set antenna micro strip structure.In other embodiments, first camera 20, the second camera 30 and the third are taken the photograph
The same sinking space is at least partially housed in as first 40.
Referring to Fig. 10, the electronic equipment 200 further includes display screen module 60 and electronic building brick 70.The display screen mould
Group 60 is set to the arrying main body 10 and deviates from 50 side of the backboard, to be the display screen by the arrying main body 10
Module 60 provides carrying.The display screen module 60 includes the cover board 61 stacked gradually and display panel 62.The electronic building brick
70 include mainboard 71 and battery 72.The mainboard 71 and the battery 72 are both secured in the receiving space 51.The mainboard
The 71 electrical connections display screen module 60, first camera 20, the second camera 30 and the third camera 40.
The battery 72 is electrically connected the mainboard 71.The electronic equipment 200 further includes drive component 90, and the driving component 90 includes
It is fixed on the arrying main body 10 and is drivingly connected the first actuator 91 of the second camera 30 and is fixed on the carrying
Main body 10 and the second actuator 92 for being drivingly connected the third camera 40.To drive institute by first actuator 91
It states the relatively described arrying main body 10 of second camera 30 to slide, to change first primary optical axis 21 and second primary optical axis 31
Distance;The relatively described arrying main body 10 of the third camera 40 is driven to slide by second actuator 92, to change
The distance of first primary optical axis 21 and the third primary optical axis 41.In the present embodiment, first actuator 91 is electricity
Magnet, second actuator 92 are electromagnet.In other embodiments, first actuator 91 or motor,
Second actuator 92 or motor.
1 is please referred to Fig.1, the application also provides a kind of acquisition image method, and the acquisition image method uses electronic equipment
200 obtain image, and the acquisition image method obtains image using electronic equipment 200, and the acquisition image method includes step
101 to step 106:
101:Manipulation instruction is received, sliding-modes are determined according to manipulation instruction;
In present embodiment, the electronic equipment 200 can be pressed by touching display screen, optical sensor, microphone, machinery
The function elements such as key receive the manipulation instruction, and can obtain sliding die by the central processing unit of the electronic equipment 200
Formula, the sliding-modes include manual mode and automatic mode, and the manual mode can be by described in manual setting second
Slide displacement value, glide direction and the sliding speed of camera 30 and the third camera 40 can virtually be pressed by sliding
Button or touching display screen, the automatic mode can be the central processing units by the electronic equipment 200 according to preset value point
Slide displacement value, glide direction and the sliding speed of the second camera 30 and the third camera 40 are not adjusted.
102:The relatively described carrying of the second camera 30 is driven according to the first actuator 91 described in sliding-modes control
Main body 10 is slided, and controls second actuator 92 and the relatively described arrying main body 10 of the third camera 40 is driven to slide;
In present embodiment, first actuator 91 and institute are controlled by the central processing unit of the electronic equipment 200
Stating the second actuator 92, the relatively described arrying main body 10 is slided respectively.
103:Whether the slide displacement value for detecting the second camera 30 meets the first pre-determined distance value and described
Whether the slide displacement value of three cameras 40 meets the second pre-determined distance value;
It is reference data with first camera 20 in present embodiment, by the second camera 30 and described the
The distance definition of one camera 20 is the slide displacement value of the second camera 30, by the third camera 40 and described the
The distance definition of one camera 20 is the slide displacement value of the third camera 40.By being set on first camera 20
The slide displacement value that range sensor detects first camera 20 relatively of the second camera 30 is set, and described in detection
The slide displacement value of first camera 20 relatively of third camera 40.
104:It is to detect shooting instruction if being detected as, first camera 20, described the is started according to shooting instruction
Two cameras 30 and the third camera 40, and obtain at least three pending images;
In present embodiment, first camera 20, described is controlled by the central processing unit of the electronic equipment 200
Second camera 30 and the third camera 40 startup simultaneously shoot an at least pictures respectively, in the electronic equipment 200
Central processor obtains the pending picture of respective number from memory.
105::To each pending image extracting section feature, to obtain at least three Partial Features;
In present embodiment, the electronic equipment 200 extracts the of the described first pending image by central processing unit
The Part III of a part of feature, the second part feature of the second pending image and the pending image of the third is special
Sign.
106:By at least three Partial Features carry out splicing or it is superimposed.
In the first embodiment, the electronic equipment 200 is special by first part's feature, second part by central processing unit
Part III feature of seeking peace mutually is spliced, and the first processing picture is obtained, and the first processing picture has ultra-wide angle effect.
In a second embodiment, the electronic equipment 200 by central processing unit according to first part's feature, second part
Feature and Part III feature are superimposed, obtain the picture of the clear clear background of shot subject.
In the third embodiment, the electronic equipment 200 by central processing unit by first part's feature and second part
Feature is mutually spliced, and the first processing picture is obtained;And the first processing picture and the Part III feature is superimposed, obtain second
Picture is handled, second processing picture has ultra-wide angle effect and shot subject is clear.
In the fourth embodiment, the electronic equipment 200 by central processing unit according to second part feature and third portion
Dtex sign calculates the depth of view information of shooting main body, and carrying out processing to first part's feature according to above-mentioned depth of view information is shot
The clear background blurring picture of main body.
Photographic device, electronic equipment and image acquiring method provided by the present application, by second primary optical axis with it is described
First primary optical axis is parallel, and the second camera is slidably connected the arrying main body along the vertical first key light axis direction;
Parallel with first primary optical axis by the third primary optical axis again, the third camera is along vertical first primary optical axis
Direction is slidably connected the arrying main body, consequently facilitating adjusting separately first camera and the second camera and third
The camera lens spacing of camera, first camera can shoot with the second camera and third camera cooperation, fit
The needs of different photographed scenes are answered, user experience is improved.
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 (12)
1. a kind of photographic device, which is characterized in that the photographic device includes arrying main body, the first camera, second camera
With third camera, first camera is fixedly connected with the arrying main body, and first camera has the first primary optical axis,
The second camera has second primary optical axis parallel with first primary optical axis, and the second camera is along vertical described
First key light axis direction is slidably connected the arrying main body, and the third camera has parallel with first primary optical axis
Third primary optical axis, the third camera are slidably connected the arrying main body along the vertical first key light axis direction.
2. photographic device as described in claim 1, which is characterized in that there is the arrying main body the first guide sliding part and second to lead
Cunning portion, the extending direction of first guide sliding part is parallel with the extending direction of the second guide sliding part, the second camera
Be slidably connected first guide sliding part, and the third camera is slidably connected second guide sliding part.
3. photographic device as claimed in claim 2, which is characterized in that the extending direction of first guide sliding part and described second
The extending direction of guide sliding part is in the same direction, and first camera is located at the extension side of first guide sliding part or second guide sliding part
Upwards.
4. photographic device as claimed in claim 2, which is characterized in that the extending direction of first guide sliding part and described second
The extending direction of guide sliding part is arranged side by side.
5. photographic device as claimed in claim 4, which is characterized in that first guide sliding part have first end, described second
Guide sliding part has the second end close to the first end, the relatively described first end setting of the second end, first camera
Between the first end and the second end.
6. the photographic device as described in 5 any one of claim 1 ~, which is characterized in that the photographic device further includes fixing
Connect the connector of the second camera and the third camera.
7. photographic device as described in claim 1, which is characterized in that the arrying main body is led equipped with the first guide sliding part and second
Cunning portion, the extending direction of first guide sliding part and the extending direction of second guide sliding part are arranged in angle, and described second takes the photograph
As head is slidably connected first guide sliding part, the third camera is slidably connected second guide sliding part.
8. photographic device as claimed in claim 7, which is characterized in that first camera is located at first guide sliding part
On extending direction, and on the extending direction of second guide sliding part.
9. a kind of electronic equipment, which is characterized in that the electronic equipment includes taking the photograph as described in 8 any one of claim 1 ~
As device.
10. electronic equipment as claimed in claim 9, which is characterized in that the electronic equipment further includes and the arrying main body
Relatively-stationary backboard, the backboard have towards the inner surface of the arrying main body and are oppositely arranged with the inner surface outer
Surface, the backboard form the first sinking space and at least portion at least partly accommodating first camera in the inner surface
Divide the second sinking space of the receiving second camera, and at least partly accommodates the third sinking sky of the third camera
Between, the backboard forms first boss at the first sinking space described in the outer surface face, sink in correspondence described second
It is equipped with second boss at space, third boss is formed at the third sinking space described in the outer surface face.
11. electronic equipment as claimed in claim 10, which is characterized in that the first boss is equipped with the first light transmission in end face
Hole, first loophole are used for through shooting light to first camera, and the second boss is equipped with second in end face
Loophole, second loophole are used for through shooting light to the second camera, and the third boss is equipped in end face
Third loophole, the third loophole are used for through shooting light to the third camera.
12. a kind of acquisition image method, which is characterized in that the acquisition image method obtains image using electronic equipment, described
Electronic equipment includes photographic device and drive component, and the photographic device includes arrying main body, the first camera, second camera
With third camera, first camera is fixedly connected with the arrying main body, and the second camera is slidably connected described hold
Main body is carried, the third camera is slidably connected the arrying main body, and the driving component includes being fixed on the arrying main body
And it is drivingly connected the first actuator of the second camera and is fixed on the arrying main body and is drivingly connected the third and take the photograph
As the second actuator of head, the acquisition image method includes step:
Manipulation instruction is received, sliding-modes are determined according to manipulation instruction;
The relatively described arrying main body sliding of the second camera is driven according to the first actuator described in sliding-modes control, and is controlled
It makes second actuator and drives the relatively described arrying main body sliding of the third camera;
Whether the slide displacement value for detecting the second camera meets the first pre-determined distance value and the third camera
Whether slide displacement value meets the second pre-determined distance value;
To detect shooting instruction if being detected as, according to shooting instruction start first camera, the second camera and
The third camera, and obtain at least three pending images;
To each pending image extracting section feature, to obtain at least three Partial Features;
By at least three Partial Features carry out splicing or it is superimposed.
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CN110493514A (en) * | 2019-08-07 | 2019-11-22 | Oppo广东移动通信有限公司 | Image processing method, storage medium and electronic equipment |
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