CN208581285U - Multiple aperture imaging system and mobile electronic device - Google Patents
Multiple aperture imaging system and mobile electronic device Download PDFInfo
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- CN208581285U CN208581285U CN201820848318.9U CN201820848318U CN208581285U CN 208581285 U CN208581285 U CN 208581285U CN 201820848318 U CN201820848318 U CN 201820848318U CN 208581285 U CN208581285 U CN 208581285U
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Abstract
The utility model provides a multiple aperture imaging system and mobile electronic device, wherein the multiple aperture imaging system includes a focal length camera module, burnt camera module and a wide-angle imaging mould group in one, wherein the focal length camera module has a field angle FOV3, wherein the middle burnt camera module has a field angle FOV2, wherein the wide-angle imaging mould group has a field angle FOV1, meet following condition: FOV1 > FOV2 > FOV3, and a part of the field of view of the field angle FOV1 is contained in a part of the field of view of the field angle FOV2, field of view a part of the field angle FOV2 is contained in a part of the field angle FOV3, to obtain a preferable Zoom effect.
Description
Technical field
The utility model relates to arrive optical imaging field more particularly to multiple aperture imaging system and mobile electronic device.
Background technique
In the pursuit lightening to sci-tech product, being dimensioned for existing electronic product is smaller and smaller, for collection
At in electronic product, such as mobile phone, the requirement of the camera of music player is also higher and higher, and consumer wishes in mobile electricity
It is obtained on sub- product and single-lens reflex camera is similarly taken pictures experience.Optical zoom is an important performance characteristic of slr camera, still
For the camera for being integrated in mobile electronic product, possibly it can not directly possess this feature.
Specifically, by the solution of mechanical zoom in slr camera, in the mobile electronic product of small size
It is restricted, once using this scheme, the camera shooting grease head highness of mobile electronic product will be so that entire product seems ten
Divide thick and heavy.
Another scheme is to handle cut with interpolation to obtain desired zoom ratio image by software,
It is exactly the solution of Digital Zoom, the image obtained in this way may obtain unintelligible during amplification
Imaging effect.
In addition the mode of realization zoom has through at least two aperture imaging processing systems, in its basic form,
Imaging system can obtain the image of subject by least two camera module cooperations, wherein the focal length of the camera module
Difference passes through the switching between the different camera modules to obtain the image of the different depth of field during reference object
And the software algorithm of storage realizes the zoom of entire imaging processing system, the coke without changing the camera module itself
Away from so that entire imaging processing system can possess a lesser size.
That is, each camera module is respectively provided with different field angles, to realize that more camera modules pass through number
Code zoom carrys out simulated optical zoom.It is understood that the field angle of the different camera modules has lap, because,
Not so the image information of the object acquired by the different camera module also has coincidence, then by software algorithm into
Row processing is to obtain an image with different depth of view information.
The market of pursuit with to(for) zoom ratio, so that the focal length at least two aperture imaging processing systems images mould
The focal length of group is increasing, however the problem of bringing simultaneously be how to arrange under the premise of guaranteeing high power optically variable effect entirely at
As the position of each camera module of processing system, to collect enough information for same subject, it is clear to obtain
Spend between higher and different zoom ratios the camera modules and switch a more smooth imaging processing system, especially when
In the case of the number of the camera module is multiple, this problem will be more complicated.
Utility model content
The one of the utility model is designed to provide a multiple aperture imaging system and mobile electronic device, wherein described porous
Diameter imaging system includes the camera module of multiple and different focal lengths, wherein each camera module is configured with a specific position,
To obtain a preferable imaging effect.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein each institute
It states camera module and is configured with a specific position according to the difference of focal length and field angle, during different focal length switches
One Flow Experience is provided.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein described more
Aperture imaging system includes the camera module of multiple and different focal lengths, wherein each camera module is configured with a certain bits
It sets, so that the range that the shooting visual field of each camera module overlaps is larger, so that each camera module two
Two cooperation shooting effects are more preferably.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein each institute
Stating the camera module of camera module mid-focal length maximum one is a periscopic camera module, to obtain the same of a high power zoom
When keep a smaller size of entire imaging system.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein each institute
Stating the camera module in camera module is middle burnt camera module, wherein a field angle quilt of the periscopic camera module
It is designed as the field angle close to the middle burnt camera module, so as to shoot picture from the periscopic camera module and middle burnt mould group
Face center is close.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein each institute
Stating the camera module in camera module is middle burnt camera module, wherein a field angle quilt of the periscopic camera module
It is designed as the field angle close to the middle burnt camera module, is taken the photograph so as to be switched to the periscopic from the middle burnt camera module
As the focal length variations of mould group are more smooth.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein each institute
Stating the camera module in camera module is middle burnt camera module, wherein a field angle quilt of the periscopic camera module
It is designed as the field angle close to the middle burnt camera module, so that periscopic mould group and middle burnt mould assemble and close shooting effect more
It is good.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein described wide
One field angle of angle camera module is designed to the field angle close to the middle burnt camera module, so that from the wide-angle imaging
The focal length variations that mould group is switched to the middle burnt camera module are more smooth.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein described each
A camera module is connected by least one connector, empty to reduce the installation of the multiple aperture imaging system in the electronic device
Between
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein described latent
A connector of prestige formula camera module is arranged on a specific position, to realize the preferable shooting effect of periscopic mould group.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein described latent
The connector of prestige formula camera module is arranged on photosensory assembly one end for the periscopic camera module, to realize the latent prestige
The preferable shooting quality of formula mould group.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein each institute
Stating a camera module in camera module is wide-angle imaging mould group, wherein the periscopic camera module is the wide-angle imaging
Mould group provides an installation space to reduce mounting height.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, wherein described wide
Angle camera module can be partially overlapped a connection piece of the periscopic camera module, to reduce the imaging system simultaneously
A height dimension and an area size.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, the multiple aperture
Imaging system is installed in an electronic equipment and has specific installation site in the electronic equipment, is preferably clapped with realizing
Take the photograph effect.
The another object of the utility model is to provide a multiple aperture imaging system and mobile electronic device, the multiple aperture
Imaging system is installed in an electronic equipment and has specific installation site in the electronic equipment, so that the electronics
Equipment can hold more space and install other devices.
One side according to the present utility model provides a multiple aperture imaging system, wherein the multiple aperture imaging system
Include:
One focal length camera module, burnt camera module and a wide-angle imaging mould group in one, wherein the focal length camera module
With a field angle FOV3, wherein the middle burnt camera module has a field angle FOV2, wherein the wide-angle imaging mould group has
There is a field angle FOV1, meet following condition:
FOV1 > FOV2 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the visual field
A part of the field of view of angle FOV2, field of view a part of the field angle FOV2 are contained in the field angle FOV3
A part.
An embodiment according to the present utility model, the field angle FOV1, the field angle FOV2 and the field angle
FOV3 meets following condition respectively:
10 °≤FOV3≤40 °, 25 °≤FOV2≤90 ° and 50 °≤FOV1≤180 °.
The field of view of an embodiment according to the present utility model, the field angle FOV3 is imaging mould apart from the focal length
The position 5cm or more of one camera lens end face of group is at least partly contained in the field of view of the field angle FOV2.
An embodiment according to the present utility model, in being not less than for the camera lens end face apart from the focal length camera module
The center in the field of view section of the middle burnt camera module of the position 20cm and the view of the focal length camera module
The center in field areas section is overlapped.
An embodiment according to the present utility model, in being not less than for the camera lens end face apart from the focal length camera module
The Radius of the field of view of the middle burnt camera module of the position 20cm is R2, an optical axis of the middle burnt camera module
The distance between optical axis for the focal length camera module is I2, meet following condition:
I2/R2≤0.125。
An embodiment according to the present utility model, an optical axis of the middle burnt camera module the and described focal length camera module
An optical axis distance be I2, meet following condition:
1cm≤I2≤3cm。
An embodiment according to the present utility model, the field of view of the field angle FOV2 is apart from the middle burnt camera shooting mould
The position 3cm or more of one camera lens end face of group is at least partly contained in the field of view of the field angle FOV1.
An embodiment according to the present utility model, in being not less than for the camera lens end face apart from the middle burnt camera module
The view at the center in the field of view section of the wide-angle imaging mould group of the position 10cm and the middle burnt camera module
The center in field areas section is overlapped.
An embodiment according to the present utility model, in being not less than for the camera lens end face apart from the focal length camera module
The Radius of the field of view of the wide-angle imaging mould group of the position 10cm is R1, an optical axis of the middle burnt camera module
The distance between optical axis for the wide-angle imaging mould group is I1, meet following condition:
I1/R1≤0.125。
An embodiment according to the present utility model, the equivalent focal length of the focal length camera module and the wide-angle imaging mould group
Ratio be not less than 4.
An embodiment according to the present utility model, the equivalent focal length of the focal length camera module and the wide-angle imaging mould group
Ratio is not less than 5.
An embodiment according to the present utility model, the equivalent focal length of the middle burnt camera module and the wide-angle imaging mould group
Ratio is not less than 3.
An embodiment according to the present utility model, the focal length camera module include that a third images main body, and a third connects
Fitting and a third connector, wherein the third connector is located between third camera shooting main body and the third connector
And it is electrically connected and images main body and the third connector in the third, wherein third camera shooting main body includes one
Third lens unit and a third photosensory assembly, wherein light reaches photosensitive group of the third after the third lens unit
Part, wherein the third connector is arranged at one end of the third photosensory assembly of the focal length camera module and described
Third connector is electrically connected to the third lens unit and the third photosensory assembly.
An embodiment according to the present utility model, the focal length camera module include that a third images main body, and a third connects
Fitting and a third connector, wherein the third connector is located between third camera shooting main body and the third connector
And it is electrically connected to the third camera shooting main body and the third connector, wherein third camera shooting main body includes a third
Lens unit and a third photosensory assembly, wherein light reaches the third photosensory assembly after the third lens unit,
Wherein the third connector is arranged at one end and described of the third lens unit of the focal length camera module
Three connectors are electrically connected to the third lens unit and the third photosensory assembly.
An embodiment according to the present utility model, the middle burnt camera module is than the wide-angle imaging mould group close to described long
One light well of burnt camera module.
An embodiment according to the present utility model, the middle burnt camera module includes one second camera shooting main body, and one second connects
Fitting and one second connector, wherein second connector is located between the second camera shooting main body and second connector
And it is electrically connected in the second camera shooting main body and second connector, wherein the wide-angle imaging mould group includes one
First camera shooting main body, one first connector and one first connector, wherein first connector is located at the first camera shooting master
Between body and first connector and it is electrically connected in the first camera shooting main body and first connector, wherein
The first camera shooting main body of the wide-angle imaging mould group is by least partially overlapped in described the second of the middle burnt camera module
One front of connector;Or wherein described the first of the wide-angle imaging mould group images main body by least partially overlapped in described
One front of the third connector of focal length camera module.
An embodiment according to the present utility model, the focal length camera module, the middle burnt camera module and described wide
Angle camera module shares at least a connection piece and at least a connector.
An embodiment according to the present utility model further comprises a flash lamp, wherein the flash lamp and the wide-angle
The distance of camera module is less than the distance of the flash lamp and the focal length camera module, and the flash lamp and the middle coke
The distance of camera module is less than the distance of the flash lamp and the focal length camera module.
An embodiment according to the present utility model, wherein the flash lamp is located at the wide-angle imaging mould group and the middle coke
A middle position between camera module.
An embodiment according to the present utility model, the focal length camera module are a periscopic camera modules.
Another aspect according to the present utility model provides a mobile electronic device comprising:
One electronic equipment ontology and according to any of the above-described multiple aperture imaging system, wherein multiple aperture imaging system
System is communicatively connected in a network in the electronic equipment ontology.
Another aspect according to the present utility model provides a mobile electronic device comprising:
One electronic equipment ontology and a multiple aperture imaging system, wherein the multiple aperture imaging system is imaged including a focal length
Mould group, burnt camera module and a wide-angle imaging mould group in one, wherein electronic equipment ontology has a back side, the focal length camera shooting
Mould group, the middle burnt camera module and the wide-angle imaging mould group are respectively set at the back of the electronic equipment ontology
Face, wherein the focal length camera module is a periscopic camera module.
An embodiment according to the present utility model, the wide-angle imaging mould group, the middle burnt camera module and described latent
Prestige formula camera module is installed in the electronic equipment ontology along electronic equipment body width direction.
An embodiment according to the present utility model, a light well of the wide-angle imaging mould group, the middle burnt camera module
A light well and a light well of the periscopic camera module be located at same axis.
An embodiment according to the present utility model, the periscopic camera module are horizontally installed in the electronic equipment sheet
Body.
An embodiment according to the present utility model, the periscopic camera module are mounted longitudinally in the electronic equipment sheet
Body.
An embodiment according to the present utility model, the multiple aperture imaging system further comprise a flash lamp, wherein institute
It states flash lamp and the wide-angle imaging mould group and the middle burnt camera module is located at same axis.
An embodiment according to the present utility model, the wide-angle imaging mould group, the middle burnt camera module and described latent
Prestige formula camera module is installed in the electronic equipment ontology along the electronic equipment body length direction.
An embodiment according to the present utility model, the periscopic camera module are horizontally installed in the electronic equipment sheet
Body.
An embodiment according to the present utility model, a sensitive chip length direction of the wide-angle imaging mould group and it is described in
One sensitive chip length direction of one sensitive chip length direction of burnt camera module and the focal length camera module respectively with
The electronic equipment body length direction is parallel, and plane and the electricity where a sensitive chip of the focal length camera module
Plane where sub- apparatus body is vertical.
An embodiment according to the present utility model further comprises a preposition camera module, wherein the preposition camera shooting mould
Group is arranged at the front of the electronic equipment ontology, and the position of the multiple aperture imaging system is lower than the preposition camera shooting
Mould group.
An embodiment according to the present utility model, the wide-angle imaging mould group, the middle burnt camera module and described latent
Axis where the light well of prestige formula camera module is located at electronic equipment portion ontology in a middle position of width direction.
An embodiment according to the present utility model, the wide-angle imaging mould group, the middle burnt camera module and described latent
Axis where the light well of prestige formula camera module is located at the side of the preposition camera module.
An embodiment according to the present utility model, the multiple aperture imaging system further comprise a flash lamp, wherein institute
It states flash lamp and is installed in the electronic equipment ontology, wherein the distance of the flash lamp and the wide-angle imaging mould group is less than institute
The distance of flash lamp and the focal length camera module is stated, and the distance of the flash lamp and the middle burnt camera module is less than institute
State the distance of flash lamp and the focal length camera module.
An embodiment according to the present utility model, the flash lamp are located at the wide-angle imaging mould group and the middle burnt camera shooting
A middle position between mould group.
An embodiment according to the present utility model, the focal length camera module has a field angle FOV3, wherein in described
Burnt camera module has a field angle FOV2, wherein the wide-angle imaging mould group has a field angle FOV1, meets following item
Part:
FOV1 > FOV2 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the visual field
A part of the field of view of angle FOV2, field of view a part of the field angle FOV2 are contained in the field angle FOV3
A part.
Another aspect according to the present utility model provides a multiple aperture imaging system comprising:
One focal length camera module and a wide-angle imaging mould group, wherein the focal length camera module has a field angle
FOV3 meets following condition wherein the wide-angle imaging mould group has a field angle FOV1:
FOV1 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the field angle FOV3
Field of view a part, wherein the focal length camera module is a periscopic camera module.
An embodiment according to the present utility model, the field angle FOV1 and the field angle FOV3 meet following item respectively
Part:
10 °≤FOV3≤40 ° and 50 °≤FOV3≤180 °.
The field of view of an embodiment according to the present utility model, the field angle FOV3 is imaging mould apart from the focal length
The position 2cm or more of one camera lens end face of group is at least partly contained in the field of view of the field angle FOV1.
An embodiment according to the present utility model, in being not less than for the camera lens end face apart from the focal length camera module
The field of view kernel of section of the wide-angle imaging mould group of the position 10cm and the visual field of the focal length camera module
Regional cross section center is overlapped.
An embodiment according to the present utility model, in being not less than for the camera lens end face apart from the focal length camera module
The Radius of the field of view of the wide-angle imaging mould group of the position 10cm is R3, an optical axis of the middle burnt camera module
The distance between optical axis for the wide-angle imaging mould group is I3, meet following condition:
I3/R3≤0.125。
An embodiment according to the present utility model, the focal length camera module include that a third images main body, and a third connects
Fitting and a third connector, wherein the third connector is located between third camera shooting main body and the third connector
And it is electrically connected and images main body and the third connector in the third, wherein third camera shooting main body includes one
Third lens unit and a third photosensory assembly, wherein light reaches photosensitive group of the third after the third lens unit
Part, wherein the third connector is arranged at one end of the third photosensory assembly of the focal length camera module and described
Third connector is electrically connected to the third lens unit and the third photosensory assembly.
An embodiment according to the present utility model, the focal length camera module include that a third images main body, and a third connects
Fitting and a third connector, wherein the third connector is located between third camera shooting main body and the third connector
And it is electrically connected to the third camera shooting main body and the third connector, wherein third camera shooting main body includes a third
Lens unit and a third photosensory assembly, wherein light reaches the third photosensory assembly after the third lens unit,
Wherein the third connector is arranged at one end and described of the third lens unit of the focal length camera module
Three connectors are electrically connected to the third lens unit and the third photosensory assembly.
An embodiment according to the present utility model, the wide-angle imaging mould group include one first camera shooting main body, and one first connects
Fitting and one first connector, wherein first connector is located between the first camera shooting main body and first connector
And it is electrically connected in the first camera shooting main body and first connector, wherein the wide-angle imaging mould group is described
First camera shooting main body is by a front of the least partially overlapped third connector in the focal length camera module.
An embodiment according to the present utility model, first connector and the third connector are same a connector.
Another aspect according to the present utility model provides a mobile electronic device comprising:
One electronic equipment ontology and according to any of the above-described multiple aperture imaging system, wherein multiple aperture imaging system
System is communicatively connected in a network in the electronic equipment ontology.
Another aspect according to the present utility model provides an electronic equipment comprising:
One electronic equipment ontology and according to any of the above-described multiple aperture imaging system, wherein multiple aperture imaging system
System is communicatively connected in a network in the electronic equipment ontology.
Detailed description of the invention
Figure 1A is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 1B is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Fig. 2A is the schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 2 B is the schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 3 is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 4 A is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 4 B is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 5 A is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 5 B is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 6 A is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 6 B is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 6 C is the stereoscopic schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 7 is the schematic diagram of a multiple aperture imaging system of a preferred embodiment according to the present utility model.
Fig. 8 A is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Fig. 8 B is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Fig. 8 C is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Fig. 9 A is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Fig. 9 B is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 10 A is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 10 B is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 11 is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 12 is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 13 A is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 13 B is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 13 C is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Figure 13 D is the electronic equipment with a multiple aperture imaging system of a preferred embodiment according to the present utility model
Schematic diagram.
Specific embodiment
It is described below for disclosing the utility model so that those skilled in the art can be realized the utility model.It retouches below
Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It is retouched following
The basic principle of the utility model defined in stating can be applied to other embodiments, deformation scheme, improvement project, etc. Tongfangs
The other technologies scheme of case and the spirit and scope without departing from the utility model.
It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper",
The orientation or position of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside"
Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, and
It is not that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore
Above-mentioned term should not be understood as limiting the present invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.
It is a preferred embodiment according to the present utility model shown in attached drawing 2A, 2B and attached drawing 3 with reference to attached drawing 1A, 1B
One electronic equipment 100 of one multiple aperture imaging system 1 and the application multiple aperture imaging system 1 is elucidated with.
The electronic equipment 100 includes an electronic equipment ontology 1000 and a multiple aperture imaging system 1, wherein described porous
Diameter imaging system 1 is arranged at the electronic equipment ontology 1000, for obtaining the image of subject.
In this example, the multiple aperture imaging system 1 include in a wide-angle imaging mould group 10, one burnt camera module 20 with
And a focal length camera module 30, wherein the focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging
Mould group 10 can cooperating to utilize the focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging
The different shooting effects for realizing the depth of field of focal length between mould group 10.It is understood that wide-angle imaging mould group 10 described herein
Equivalent focal length is less than the equivalent focal length of the middle burnt camera module 20, and the equivalent focal length of the middle burnt camera module 20 is less than institute
State the equivalent focal length of focal length camera module 30.
The electronic equipment ontology 1000 includes a processing unit 2 and a display unit 3, wherein 2 quilt of the processing unit
It is communicatively coupled with the display unit 3, the multiple aperture imaging system 1 is operably connected to the processing unit 2.
The processing unit 2 is electrically connected to the display unit 3 and the processing unit 2 is operably connected to
The multiple aperture imaging system 1.The processing unit 2 has been stored beforehand software algorithm, to control multiple aperture imaging system
Switching between the different focal length of system 1.Preferably, the display unit 3 is a touching display screen, passes through the display unit
3, user can directly and the multiple aperture imaging system 1 is interactive, that is, controls the work mistake of multiple aperture imaging system 1.Institute
The display unit 3 can be directly displayed at by stating the collected image information about object of multiple aperture imaging system 1.
The electronic equipment ontology 1000 further comprises a preposition camera module 4, wherein the preposition camera module 4
In a front of the electronic equipment ontology 1000, to face user.User can be used the preposition camera module 4 to complete self-timer.
It is worth noting that, the optical zoom of the multiple aperture imaging system 1 does not need to change the wide-angle imaging mould
Group 10, the focal length of the middle burnt camera module 20 and the focal length camera module 30 itself, but utilize the wide-angle imaging
Mould group 10, the middle burnt camera module 20 and the focal length camera module 30 obtain the different information of object, and three mutually assists
Make, by the wide-angle imaging mould group 10 during reference object, the middle burnt camera module 20 and the focal length are taken the photograph
The software algorithm that switching and the processing unit 2 as mould group 30 store realizes the change of the whole multiple aperture imaging system 1
It is burnt.This also mean that the inside of the multiple aperture imaging system 1 do not need reserve movement space, thus the multiple aperture at
As the size of system 1 itself can be smaller.
It is noted that the wide-angle imaging mould group 10 of the multiple aperture imaging system 1 has a field angle FOV1,
There is the middle burnt camera module 20 a field angle FOV2 and the focal length camera module 30 to have a field angle FOV3,
Middle three meets following condition:
FOV1 > FOV2 > FOV3.
In this example, the center of the corresponding field angle FOV3 of the focal length camera module 30 is designed to lean on
The center of the corresponding field angle FOV2 of the nearly middle burnt camera module 20, that is to say, that the focal length images mould
The visual field conical area that the corresponding field angle FOV3 of group 30 is formed is most of by the corresponding institute of the middle burnt camera module 20
The visual field conical area for stating field angle FOV2 formation is included, so that the field range of the focal length camera module 30 and described
The field range that middle coke camera module 20 is formed is overlapped as far as possible, for same shooting object, the focal length camera module 30
The image information about object obtained with the middle burnt camera module 20 has more overlapping regions, to facilitate the later period
Processing enables the image information obtained by two differences camera module by an image in the display unit
3 are presented, and obtain preferable shooting effect.Further, in the corresponding field angle FOV2 of the middle coke camera module 20
Heart position is designed to the center of the corresponding field angle FOV1 close to the wide-angle imaging mould group 10, that is,
It says, the visual field conical area that the corresponding field angle FOV2 of the middle burnt camera module 20 is formed is most of by the wide-angle
The visual field conical area that the corresponding field angle FOV1 of camera module 10 is formed is included, so that the middle burnt camera module
The field range that 20 field range and the wide-angle imaging mould group 10 are formed is overlapped as far as possible, with for same shooting object,
The image information about object that the middle burnt camera module 20 and the wide-angle imaging mould group 10 obtain has more overlappings
Region enables the image information obtained by two camera modules to pass through an image to facilitate the processing in later period
It is presented in the display unit 3.
For the multiple aperture imaging system 1, the field angle FOV3 of the focal length camera module 30 is designed
For close to the field angle FOV2 of the middle burnt camera module 20, the field angle FOV2 of the middle burnt camera module 20
It is designed to the field angle FOV1 close to the wide-angle imaging mould group 10, so that the multiple aperture imaging system 1 is switching
Can be more smooth during focal length, such as the focal length among one is switched to a higher focal length, due to the focal length
The corresponding visual field conical area of the field angle FOV3 of camera module 30 is most of described in the middle burnt camera module 20
The corresponding visual field conical area of field angle FOV2 is included the image information and the focal length that the middle burnt camera module 20 obtains
The image information that camera module 30 obtains has biggish overlay information so that switching between the two is more smooth.Similar,
It is switched to the focal length among one from a lower focal length, since the field angle FOV2 of the middle burnt camera module 20 is corresponding
The most of corresponding visual field conical area institute of the field angle FOV1 by the wide-angle imaging mould group 10 of visual field conical area
It include that, for same reference object, the image information and the wide-angle imaging mould group 10 that the middle burnt camera module 20 obtains obtain
The image information taken has biggish overlapping region so that from a focal length of the middle burnt camera module 20 towards the wide-angle imaging mould
The transient process of the focal length switching of group 10 is more naturally, because have more identical image information as support.
The middle burnt camera module 20 is close to the focal length camera module 30, also close in the wide-angle imaging mould group
10, relative to the wide-angle imaging mould group 10, it is preferable that the middle burnt camera module 20 is closer to the focal length camera module
30.The middle burnt camera module 20 is conducive to the switching of high zoom multiplying power closer to 30 one side of focal length camera module,
And is conducive to the middle burnt camera module 20 to shoot with the focal length camera module 30 mutual cooperation, obtains preferably shooting effect
Fruit;On the other hand enable the field of view of the middle burnt camera module 20 and the focal length camera module 30 after by
The field of view that the wide-angle imaging mould group 10 provides included.
In some examples of the utility model, the field angle FOV1, the field angle FOV2 and the field angle
FOV3 meets following condition respectively:
10 °≤FOV3≤40 °, 25 °≤FOV2≤90 ° and 50 °≤FOV1≤180 °.
Optionally, in some examples of the utility model, according to the field angle of the focal length camera module 30
The size relation of the field angle FOV2 of FOV3 and the middle burnt camera module 20 and the view of wide-angle imaging mould group 10
The field angle FOV2 of rink corner FOV1 and the middle burnt camera module 20, design the specific installation site of two camera modules,
The corresponding visual field conical area of the field angle FOV3 of the focal length camera module 30 is most of by the middle burnt camera module
The 20 corresponding visual field conical area of the field angle FOV2 includes, and the field angle of the middle burnt camera module 20
The corresponding visual field circle of the most of field angle FOV1 by the wide-angle imaging mould group 10 of the corresponding visual field conical area of FOV2
Cone region includes that and FOV3 and FOV2 partly overlaps in the visual field conical area apart from camera lens end face 5cm or more, FOV2 and
FOV1 partly overlaps in the visual field conical area apart from camera lens end face 3cm or more.
Specifically, in some examples of the utility model, in the camera end apart from the focal length camera module 30
Face is not less than the position of 5cm, and a field of view of the field angle FOV3 of the focal length camera module 30 is completely by described
A field of view of the field angle FOV2 of burnt camera module 20 includes.Further, apart from the focal length camera module
A 30 camera lens end face is not less than the position of 20cm, the distance of the focal length camera module 30 and the middle burnt camera module 20
I2, the Radius R of the field of view of the field angle FOV2 of the middle burnt camera module 20 in the position2Meet respectively
Following condition, I2/R2≤0.125.It is noted that for the camera lens end face apart from the focal length camera module 30 not
Position lower than 20cm, the center of the corresponding visual field cross section the field angle FOV3 of the focal length camera module 30 and institute
The center for stating the corresponding visual field cross section the field angle FOV2 of middle burnt camera module 20 becomes closer to, so that with bat
The center of the increase of photographic range, the focal length camera module 30 and the shooting picture of the middle burnt camera module 20 can be more
It is close, preferable shooting effect is obtained, for the corresponding visual field cross section area in center.
More particularly, described as the distance of the camera lens end face with the focal length camera module 30 is increasing
The visual field sectional area of the field of view of focal length camera module 30 is also increasing, because for the focal length camera module 30
For, field of view is one coniform, and the endpoint apart from circular cone is remoter, and the sectional area corresponding to circular cone is bigger, correspondingly, institute
The visual field section for stating the field of view of middle burnt camera module 20 is also increasing, because for the middle burnt camera module 20
For, field of view is one coniform, and the endpoint apart from circular cone is remoter, and the sectional area corresponding to circular cone is bigger, while described
The field of view lap of focal length camera module 30 and the middle burnt camera module 20 is also more and more, but for the length
For burnt camera module 30 and the middle burnt camera module 20, in the conplane focal length camera module 30 and the middle coke
The distance between the center in the visual field section of camera module 20 does not change, because its center is located at parallel optical axis,
But for the widened visual field section, the distance between center is to reduce.For example, working as the middle coke
The radius R in the visual field section of camera module 20210cm, the visual field section of the focal length camera module 30 by comprising
In the visual field section of the middle burnt camera module 20, i.e. radius is less than 10cm, then as the distance between two centers I2
When for 1cm, centre distance I2Radius R relative to the middle burnt camera module 202Ratio be 0.1.It is taken the photograph with the focal length
As the increase of the distance of a camera lens end face of mould group 30, in a certain position, when the visual field of the middle burnt camera module 20 is cut
The radius R in face2It is 20cm, the visual field section of the focal length camera module 30 is contained in the middle burnt camera module 20
The visual field section, i.e. radius are less than 20cm, when the distance between two centers are still 1cm, centre distance I2Relative to described
The radius R of middle coke camera module 202Ratio be 0.05.That is, after distance increases, relative to entire field of view
The center of speech, the focal length camera module 30 and the middle burnt camera module 20 is increasingly closer to, so that the focal length images mould
Group 30 is more and more consistent with the middle burnt camera module 20 picture shot jointly, is conducive to synthesize in the later period through different camera shootings
The image that mould group obtains.
Particularly, in this example, by I2/R2≤ 0.125 the case where, is defined as " being overlapped ", because of two centers at this time
Distance is equivalent to for the entire field of view has the effect of a coincidence, to be conducive to the imaging in later period.
In this example, it is not less than the position 20cm, the length in the camera lens end face apart from the focal length camera module 30
The center in the center in the visual field section of burnt camera module 30 and the visual field section of the middle burnt camera module 20 is overlapped.
In some examples of the utility model, I2Meet: 1cm≤I2≤3cm。
For the middle burnt camera module 20 and the wide-angle imaging mould group 10, apart from the middle burnt camera module
One field of view of the position of a 20 camera lens end face 3cm or more, the field angle FOV2 of the middle burnt camera module 20 is complete
Include by a field of view of the field angle FOV1 of the wide-angle imaging mould group 10 entirely.Further, in described
One camera lens end face of burnt camera module 20 is not less than the position of 10cm, the middle burnt camera module 20 and the wide-angle imaging mould
The distance I of group 101, the Radius of the field of view of the field angle FOV1 of the wide-angle imaging mould group 10 in the position
R1Meet following condition, I1/R1≤0.125.It is noted that in the camera lens apart from the middle burnt camera module 20
End face is not less than the position of 10cm, the center of the corresponding visual field cross section the field angle FOV1 of the wide-angle imaging mould group 10
The center of visual field cross section corresponding with the middle coke field angle FOV2 of camera module 20 becomes closer to, so that with
The increase of shooting distance, the center of the middle burnt camera module 20 and the shooting picture of the focal length camera module 10 can be more
Be it is close, preferable shooting effect is obtained, for the corresponding visual field cross section area in center.
More particularly, described as the distance of the camera lens end face with the middle burnt camera module 20 is increasing
The visual field sectional area of the field of view of middle coke camera module 20 is also increasing, because for the middle burnt camera module 20
For, field of view is one coniform, and the endpoint apart from circular cone is remoter, and the sectional area corresponding to circular cone is bigger, correspondingly, institute
The visual field section for stating the field of view of wide-angle imaging mould group 10 is also increasing, because for the wide-angle imaging mould group 10
For, field of view is one coniform, and the endpoint apart from circular cone is remoter, and the sectional area corresponding to circular cone is bigger, while described
Middle coke camera module 20 and the field of view lap of the wide-angle imaging mould group 10 are also more and more, but in described
For burnt camera module 20 and the wide-angle imaging mould group 10, in the conplane middle burnt camera module 20 and the wide-angle
The distance between the center in the visual field section of camera module 10 does not change, because its center is located at parallel optical axis,
But for the widened visual field section, the distance between center is to reduce.For example, working as the wide-angle
The radius R in the visual field section of camera module 10110cm, the visual field section of the middle burnt camera module 20 by comprising
In the visual field section of the wide-angle imaging mould group 10, i.e. radius is less than 10cm, then as the distance between two centers I1
When for 1cm, centre distance I1Radius R relative to the wide-angle imaging mould group 101Ratio be 0.1.It is taken the photograph with the middle coke
As the increase of the distance of a camera lens end face of mould group 20, in a certain position, when the visual field of the wide-angle imaging mould group 10 is cut
The radius R in face1It is 20cm, the visual field section of the middle burnt camera module 20 is contained in the wide-angle imaging mould group 10
The visual field section, i.e. radius are less than 20cm, when the distance between two centers are still 1cm, centre distance I1Relative to described
The radius R of wide-angle imaging mould group 101Ratio be 0.05.That is, after distance increases, relative to entire field of view
The center of speech, the middle burnt camera module 20 and the wide-angle imaging mould group 10 is increasingly closer to, thus the middle burnt camera shooting mould
Group 20 is more and more consistent with the wide-angle imaging mould group 10 picture shot jointly, is conducive to synthesize in the later period through different camera shootings
The image that mould group obtains.
Particularly, in this example, by I1/R1≤ 0.125 the case where, is defined as " being overlapped ", because of two centers at this time
Distance is equivalent to for the entire field of view has the effect of a coincidence, to be conducive to the imaging in later period.
In this example, be not less than the position 10cm in the camera lens end face apart from the middle burnt camera module 20, it is described in
The center in the center in the visual field section of burnt camera module 20 and the visual field section of the wide-angle imaging mould group 10 is overlapped.
In this example, the zoom ratio of the multiple aperture imaging system 1 is not less than 4, i.e., the described focal length camera module 30
It is not less than 4 with the ratio between the equivalent focal length of the wide-angle imaging mould group 10.
Preferably, in an example of the utility model, the middle burnt camera module 20 and the wide-angle imaging mould group 10
The ratio between equivalent focal length be 3, the ratio between the focal length camera module 30 and the equivalent focal length of the wide-angle imaging mould group 10 are 5.With
For the focal length camera module 30, the equivalent focal length P1=F1*43.2/L, wherein F1 refers to the focal length camera module 30
Effective focal length, 43.27mm refers to that 135 film catercorner lengths, L refer to the photosensitive region diagonal line length of the photosensitive element
Degree.In some instances, L refers to the photosensitive region catercorner length of CMOS sensitive chip.Effective focal length F1 refers to the focal length
The focal length of one telephoto lens of camera module 30 is the preset parameter of the telephoto lens, manufactures and completes in the telephoto lens
Afterwards, F1 is fixed and invariable, when the effective focal length F1 of the telephoto lens is designed bigger, the correspondingly telephoto lens
Length can be designed it is longer.And equivalent focal length P1, consideration is both the telephoto lens and the focal length photosensory assembly
Whole focal length, i.e., the focal length of the entire camera module, in the same matched focal length photosensory assembly of telephoto lens
The photosensitive element difference when, equivalent focal length P1 is different, 30 He of focal length camera module in the present invention
The wide-angle imaging mould group 10 focal length camera module 30 and the middle burnt camera module 20 either focal length
One zoom odds of camera module 30 and the wide-angle imaging mould group 10, it is envisaged that the ratio between entire camera module
Compared with, rather than the comparison between a camera lens of a camera module, and for equivalent focal length is compared with effective focal length, that is, it considers
The camera lens, the photosensory assembly, it is also considered that arrived the size factor of the photosensitive element, therefore herein using equivalent focal length
Ratio reacts the burnt change ability of the multiple aperture imaging system 1.
Further, in some examples of the utility model, the focal length camera module 30 is implemented as a periscopic
Camera module, wherein the periscopic camera module has a smooth steering unit, so that passing through an optics after 90 degree of turn light rays
Camera lens is imaged with being received by a photosensory assembly.The photosensory assembly, the optical lens and the smooth steering unit are by edge
The electronic equipment width direction setting, the light quilt for the width direction perpendicular to the electronic equipment being reflected by the object
The smooth steering unit turns to pass through the optical lens back along the width direction of the electronic equipment by described photosensitive group
Part is received and is imaged, and in this way, is significantly reduced the height dimension of the focal length camera module 30, is especially existed
In the case that the focal length camera module 30 has a larger focal length.
Further, the multiple aperture imaging system 1 includes a flash lamp 40, it is preferable that the flash lamp 40 is set
In the wide-angle imaging mould group 10, a center of the focal length camera module 30 and the middle burnt camera module 20, the sudden strain of a muscle
The light that light lamp 40 issues can satisfy the wide-angle imaging mould group 10, the focal length camera module 30 and the middle burnt camera shooting mould
The shooting demand of group 20, to assist the multiple aperture imaging system to reach preferable shooting effect.
Further, with reference to attached drawing 3, in this example, the multiple aperture imaging system 1 includes the focal length camera module
30, the middle burnt camera module 20 and the wide-angle imaging mould group 10, wherein the focal length camera module 30, the middle coke is taken the photograph
As mould group 20 and the wide-angle imaging mould group 10 are respectively provided with field angle FOV3, FOV2 and a FOV1, and meet FOV1 >
FOV2 > FOV3, and the field angle FOV3 of the focal length camera module 30 is designed to close to the middle burnt camera module
The field angle FOV2 of the 20 field angle FOV2, the middle burnt camera module 20 are designed to take the photograph close to the wide-angle
As the field angle FOV1 of mould group 10.
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 are located at same axis
Line.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311,
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
The third connector 32 is arranged to image the third photosensory assembly 312 of main body 31 from the third
One end extends outwardly.In this example, the third connector 32 is arranged along the third camera shooting main body 31
Length direction extends outwardly.The length direction of the third camera shooting main body 31 refers to the third lens unit 311 towards institute
State the direction of third photosensory assembly 312.
Further, the middle burnt camera module 20 includes one second camera shooting main body 21, one second connector 22 and one
Second connector 23, wherein second connector 23 and the second camera shooting main body 21 are mutual by second connector 22
Connection, in some examples of the utility model, second connector 22 can be flexible circuit board.In this example, institute
Second connector 22 to the extending direction of second connector 23 and the focal length for stating middle burnt camera module 20 images
The extending direction of the third connector 32 to the third connector 33 of mould group 30 is parallel.
Further, the second camera shooting main body 21 is arranged at the third camera shooting main body 31 nearby so that the third
The most of field angle FOV2 by the second camera shooting main body 21 of the field angle FOV3 for imaging main body 31 includes.
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, first connector 12 of the wide-angle imaging mould group 10 is to first connector 13
The extending direction of the third connector 32 of extending direction and the focal length camera module 30 to the periscopic connector is flat
Row.The middle burnt camera module 20 and the wide-angle imaging mould group 10 are all arranged on the same of the focal length camera module 30
Side, and the middle burnt wide-angle imaging mould group 10 of camera module 20 is closer to the institute of the focal length camera module 30
Light steering unit is stated, so that the field angle FOV3 of third camera shooting main body 31 is most of by the second camera shooting main body
The 21 field angle FOV2 included.Further, the field angle FOV2 major part quilt of the second camera shooting main body 21
It is described first camera shooting main body 11 the field angle FOV1 included.
In other words, the length direction phase of the length direction of the wide-angle imaging mould group 10 and the middle burnt camera module 20
Mutually parallel, the length direction of the wide-angle imaging mould group 10 is imaged also parallel with the third of the focal length camera module 30
The length direction of main body 31.Further, optionally, a light well of the wide-angle imaging mould group 10, the middle burnt camera shooting mould
One light well of group 20 and a light well of the focal length camera module 30 are located at same axis.
It is the another of the multiple aperture imaging system of above-described embodiment according to the present utility model with reference to shown in attached drawing 4A
Variant embodiment.
Specifically, the multiple aperture imaging system 1 includes the focal length camera module 30, the middle burnt camera module 20
And the wide-angle imaging mould group 10, wherein the focal length camera module 30, the middle burnt camera module 20 and the wide-angle
Camera module 10 is respectively provided with field angle FOV3, FOV2 and a FOV1, and meets FOV1 > FOV2 > FOV3, and the length
The field angle FOV3 of burnt camera module 30 is designed to the field angle FOV2 close to the middle burnt camera module 20,
The field angle FOV2 of the middle burnt camera module 20 is designed to the field angle close to the wide-angle imaging mould group 10
FOV1。
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 be not same
Axis, the one side that the third connector 32 is arranged to image main body 31 from the third extend outwardly.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311.
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
In this way, so that the focal length camera module 30 does not need as individually each such as described in being set to
Driving element in light steering mechanism or third lens unit 311 is powered and a corresponding circuit board is arranged, and passes through
Such integrated form design, has saved the installation space of the focal length camera module 30.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
Optionally, the third connector 33 can be arranged on described photosensitive element one end either processing element
One end, with reduce be connected to the photosensitive element either the processing element line length, it is of course also possible to be set
In the other positions of third camera shooting main body 31.
In this example, the third connector 32 is arranged at one end of the photosensitive element, described photosensitive to prevent
The corresponding route of element is too long, and the anti-electromagnetic interference capability of the photosensitive element on the other hand can be improved, and avoids magnetic force dry
The bad situation of picture quality caused by disturbing.
The third connector 32 is arranged to image the third photosensory assembly 312 of main body 31 from the third
One end extends outwardly.In this example, the third connector 32 is arranged along the third camera shooting main body 31
The vertical direction of length direction extends outwardly.The length direction of the third camera shooting main body 31 refers to the third lens unit
311 towards the direction of the third photosensory assembly 312.
In another example of the utility model, the third connector 32 is arranged at one end of the processing element,
The processing element is arranged at the smooth steering mechanism of the third lens unit 311.
Further, the middle burnt camera module 20 includes one second camera shooting main body 21, one second connector 22 and one
Second connector 23, wherein second connector 23 and the second camera shooting main body 21 are mutual by second connector 22
Connection, in some examples of the utility model, second connector 22 can be flexible circuit board.In this example, institute
The length direction for stating middle burnt camera module 20 is consistent with the third camera shooting extending direction of main body 31, and second camera shooting
Main body 21 is arranged near the third lens unit 311 of the third camera shooting main body 31, in other words, second camera shooting
Main body 21 is arranged near the one side of the third lens unit 311 of the third camera shooting main body 31.Described second connects
Fitting 22 is arranged to extend outwardly from the second camera shooting main body 21, images main body 31 relative to the third, described
Second connector 22 protrudes from the third camera shooting main body 31.In this example, the middle burnt camera module 20 is arranged at institute
It states near the third lens unit 311 of focal length camera module 30, so that the field angle of the middle burnt camera module 20
FOV2 is greater than the field angle FOV3 of the focal length camera module 30, while the visual field of the middle burnt camera module 20
Angle FOV2 close to the focal length camera module 30 the field angle FOV3 so that the view of the focal length camera module 30
FOV3 most of field angle FOV2 by the middle burnt camera module 20 in rink corner includes.
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, the first camera shooting main body 11 of the wide-angle imaging mould group 10 is arranged at the focal length camera shooting
The third connector 32 of mould group 30.
Specifically, for the focal length camera module 30, relative to the wide-angle imaging mould group 10 have one compared with
Big height dimension, so that the third that the wide-angle imaging mould group 10 can be installed in the focal length camera module 30 connects
Fitting 32 does not increase the height dimension of the entire multiple aperture imaging system 1 while reducing the area that the two occupies.It is preferred that
Ground, the third connector 32 has a front and a back side, wherein the third connector 32 is arranged to from the focal length
One end of the wiring board of the third photosensory assembly of camera module 30 extends outwardly, the third connector 32
The front refers to the one side when focal length camera module 30 is installed in the electronic equipment outwardly, and the back side refers to institute
State one side when focal length camera module 30 is installed in the electronic equipment towards the electronic equipment.
The first camera shooting main body 11 of the wide-angle imaging mould group 10 is by least partially overlapped in the third connector
The 32 smooth front.
Further, the field angle FOV3 of the focal length camera module 30 is less than the institute of the wide-angle imaging mould group 10
State field angle FOV1.The field angle FOV1 of the wide-angle imaging mould group 10 is greater than the view of the middle burnt camera module 20
Rink corner FOV2, and included by the most of field range by the field angle FOV1 of field of view of the field angle FOV2,
The multiple aperture imaging system 1 to design by such manner is gathered around while having a biggish zoom ratio
There is a lesser height dimension, while also more natural to the transition of smaller focal length from larger zooming transform.
The length direction of the wide-angle imaging mould group 10 refer to it is described first camera shooting main body 11, first connector 12 with
And the axis direction where first connector 13, the length direction of the middle burnt camera module 20 refer to the second camera shooting main body
21, the axis direction where second connector 22 and second connector 23.The institute of the focal length camera module 30
The length direction for stating third camera shooting main body 31 refers to that the third lens unit 311 extends towards the third photosensory assembly 312
Direction.In this example, the middle burnt length direction of camera module 20 and the third of the focal length camera module 30
The length direction for imaging main body 31 is parallel, the length of the length direction of the wide-angle imaging mould group 10 and the middle burnt camera module 20
It is parallel to spend direction.
The wide-angle imaging mould group 10 and the middle burnt quilt for the focal length camera module 30 of camera module 20
It is relatively arranged on the same side of the focal length camera module 30.More particularly, the wide-angle imaging mould group 10 is described
First camera shooting main body 11 and the second camera shooting main body 21 of the middle burnt camera module 20 are arranged in opposite mode, described
Second connector 23 of first connector 13 of wide-angle imaging mould group 10 and the middle burnt camera module 20 is by with phase
The mode of back is arranged, and first connector 13 and second connector 23 all protrude from the third camera shooting main body 31.
Further, the length direction of the wide-angle imaging mould group 10, the length direction of the middle burnt camera module 20 with
And the length direction three of the third camera shooting main body 31 of the focal length camera module 30 is parallel to each other.
It is the one of the multiple aperture imaging system 1 of above-described embodiment according to the present utility model with reference to shown in attached drawing 4B
Variant embodiment.
Specifically, the multiple aperture imaging system 1 includes the focal length camera module 30, the middle burnt camera module 20
And the wide-angle imaging mould group 10, wherein the focal length camera module 30, the middle burnt camera module 20 and the wide-angle
Camera module 10 is respectively provided with field angle FOV3, FOV2 and a FOV1, and meets FOV1 > FOV2 > FOV3, and the length
The field angle FOV3 of burnt camera module 30 is designed to the field angle FOV2 close to the middle burnt camera module 20,
The field angle FOV2 of the middle burnt camera module 20 is designed to the field angle close to the wide-angle imaging mould group 10
FOV1。
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 be not same
Axis, the one side that the third connector 32 is arranged to image main body 31 from the third extend outwardly.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311.
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
The third connector 32 is arranged to image the third photosensory assembly 312 of main body 31 from the third
One end extends outwardly.In this example, the third connector 32, which is arranged along, images main body 31 with the third
The vertical direction of length direction extend outwardly.The length direction of the third camera shooting main body 31 refers to the third camera lens list
Member 311 is towards the direction of the third photosensory assembly 312.Further, the middle burnt camera module 20 includes one second camera shooting
Main body 21, one second connector 22 and one second connector 23, wherein second connector 23 and the second camera shooting master
Body 21 is connected with each other by second connector 22, and in some examples of the utility model, second connector 22 can
To be flexible circuit board.In this example, second connector 22 of the middle burnt camera module 20 is to second connection
The third connector 32 of the extending direction of device 23 and the focal length camera module 30 to the third connector 33 extension
Direction is consistent.That is, second connector 23 and the third connector 33 are located at the multiple aperture imaging system 1
It is ipsilateral.
The second camera shooting main body 21 is arranged at the third camera shooting main body 31 nearby so that third camera shooting main body
The most of field angle FOV2 by the second camera shooting main body 21 of the 31 field angle FOV3 includes.
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, the first camera shooting main body 11 of the wide-angle imaging mould group 10 is by least partially overlapped in described
The third connector 32 of focal length camera module 30, to reduce the height between wide-angle imaging mould group 10 and focal length camera module
Difference, and the installation space of two camera modules can be saved;And the wide-angle imaging mould group 10 and the middle burnt camera shooting mould
Group 20 is relatively arranged on the same side of the focal length camera module 30 for the focal length camera module 30.It is described
Length side of the length direction of middle coke camera module 20 perpendicular to the third camera shooting main body 31 of the focal length camera module 30
To, and the length direction of the middle burnt camera module 20 is perpendicular to the length direction of the wide-angle imaging mould group 10.
In this example, the third connector 32 is arranged to have certain width and length so that the wide-angle is taken the photograph
As the first camera shooting main body 11 of mould group 10 is connected by the least partially overlapped third in the focal length camera module 30
Part 32 to reduce the difference in height between wide-angle imaging mould group 10 and focal length camera module, and can save two camera modules
Installation space.First connector 12 to first connector 13 extending direction and the third connector 32 to
The extending direction of the third connector 33 is mutually perpendicular to, and first connector 13 is by relative to the third connector
32 are set to outwardly first connector 12.The wide-angle imaging mould group 10 and the middle burnt camera module 20 are located at described
The same side of focal length camera module 30.
It is the one of the multiple aperture imaging system 1 of above-described embodiment according to the present utility model with reference to shown in attached drawing 5A
Variant embodiment.
Specifically, the multiple aperture imaging system 1 includes the focal length camera module 30, the middle burnt camera module 20
And the wide-angle imaging mould group 10, wherein the focal length camera module 30, the middle burnt camera module 20 and the wide-angle
Camera module 10 is respectively provided with field angle FOV3, FOV2 and a FOV1, and meets FOV1 > FOV2 > FOV3, and the length
The field angle FOV3 of burnt camera module 30 is designed to the field angle FOV2 close to the middle burnt camera module 20,
The field angle FOV2 of the middle burnt camera module 20 is designed to the field angle close to the wide-angle imaging mould group 10
FOV1。
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 are located at same axis
Line.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311,
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
The third connector 32 is arranged to image the third photosensory assembly 312 of main body 31 from the third
One end extends outwardly.In this example, the third connector 32 is arranged along the third camera shooting main body 31
Length direction extends outwardly.The length direction of the third camera shooting main body 31 refers to the third lens unit 311 towards institute
State the direction of third photosensory assembly 312.
Further, the middle burnt camera module 20 includes one second camera shooting main body 21, one second connector 22 and one
Second connector 23, wherein second connector 23 and the second camera shooting main body 21 are mutual by second connector 22
Connection, in some examples of the utility model, second connector 22 can be flexible circuit board.In this example, institute
Second connector 22 to the extending direction of second connector 23 and the focal length for stating middle burnt camera module 20 images
The extending direction of the third connector 32 to the third connector 33 of mould group 30 is vertical.
Further, the second camera shooting main body 21 is arranged at the third camera shooting main body 31 nearby so that the third
The most of field angle FOV2 by the second camera shooting main body 21 of the field angle FOV3 for imaging main body 31 includes.
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, first connector 12 of the wide-angle imaging mould group 10 is to first connector 13
The extending direction of the third connector 32 of extending direction and the focal length camera module 30 to the periscopic connector hangs down
Directly.The middle burnt camera module 20 and the wide-angle imaging mould group 10 are all arranged on the same of the focal length camera module 30
Side, and the middle burnt wide-angle imaging mould group 10 of camera module 20 is closer to the institute of the focal length camera module 30
Light steering unit is stated, so that the field angle FOV3 of third camera shooting main body 31 is most of by the second camera shooting main body
The 21 field angle FOV2 included.Further, the field angle FOV2 major part quilt of the second camera shooting main body 21
It is described first camera shooting main body 11 the field angle FOV1 included.
In other words, the length direction phase of the length direction of the wide-angle imaging mould group 10 and the middle burnt camera module 20
Mutually parallel, the length direction of the wide-angle imaging mould group 10 images main body perpendicular to the third of the focal length camera module 30
31 length direction.
It is the one of the multiple aperture imaging system 1 of above-described embodiment according to the present utility model with reference to shown in attached drawing 5B
Variant embodiment.
Specifically, the multiple aperture imaging system 1 includes the focal length camera module 30, the middle burnt camera module 20
And the wide-angle imaging mould group 10, wherein the focal length camera module 30, the middle burnt camera module 20 and the wide-angle
Camera module 10 is respectively provided with field angle FOV3, FOV2 and a FOV1, and meets FOV1 > FOV2 > FOV3, and the length
The field angle FOV3 of burnt camera module 30 is designed to the field angle FOV2 close to the middle burnt camera module 20,
The field angle FOV2 of the middle burnt camera module 20 is designed to the field angle close to the wide-angle imaging mould group 10
FOV1。
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 are located at same axis
Line.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311.
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
The third connector 32 is arranged to image the third photosensory assembly 312 of main body 31 from the third
One end extends outwardly.In this example, the third connector 32 is arranged along the third camera shooting main body 31
Length direction extends outwardly.The length direction of third camera shooting main body 31 refers to the third lens unit 311 towards described
The direction of third photosensory assembly 312.
The third connector 32 is arranged to image from the one side of the third photosensory assembly 312 along the third
The length direction of main body 31 extends outwardly.The length direction of the third camera shooting main body 31 just refers to the periscope type lens
Extending direction of the unit from the periscopic photosensory assembly.
Further, the middle burnt camera module 20 includes one second camera shooting main body 21, one second connector 22 and one
Second connector 23, wherein second connector 23 and the second camera shooting main body 21 are mutual by second connector 22
Connection, in some examples of the utility model, second connector 22 can be flexible circuit board.In this example, institute
Second connector 22 to the extending direction of second connector 23 and the focal length for stating middle burnt camera module 20 images
The extending direction of the third connector 32 to the third connector 33 of mould group 30 is consistent, and second connector 22
It is arranged to the length and width for having certain.
Further, the second camera shooting main body 21 is arranged at the third camera shooting main body 31 nearby so that the third
The most of field angle FOV2 by the second camera shooting main body 21 of the field angle FOV3 for imaging main body 31 includes.
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, the first camera shooting main body 11 of the wide-angle imaging mould group 10 is by least partially overlapped in described
Second connector 22 of middle coke camera module 20.Because the height of the general wide-angle imaging mould group 10 is lower than described
The first camera shooting main body 11 of the wide-angle imaging mould group 10 is installed on the middle coke and taken the photograph by the height of middle coke camera module 20
As second connector 22 of mould group 20, takes full advantage of the first camera shooting main body 11 and described second and image main body 21
Difference in height reduces the mounting height of the wide-angle imaging mould group 10 and the middle burnt camera module 20.
Second connector 22 is to the extending direction of second connector 23 and first connector 12 to described
The extending direction of first connector 13 is vertical, and first connector 13 images for main body 11 relative to described first,
Positioned at outside.
In other words, the length direction of the middle burnt camera module 20 and the length direction of the focal length camera module 30 are flat
Row, the length direction of the middle burnt camera module 20 and the length direction of the wide-angle imaging mould group 10 are vertical.
It is noted that in some examples of the utility model, the focal length camera module 30, the middle burnt camera shooting
Mould group 20 and the wide-angle imaging mould group 10 can share at least a connector, empty with the installation for saving the camera module
Between, such as the focal length camera module 30 and the middle burnt camera module 20 share a connector, i.e., the described third connector
33 and second connector 23 be same a connector, such as the focal length camera module 30 and the wide-angle imaging mould group 10
A connector is shared, i.e., the described third connector 33 and first connector 13 are same a connector, such as the middle coke
Camera module 20 and the wide-angle imaging mould group 10 share a connector, i.e., described second connector 23 and first connector
13 be same a connector, such as the focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging mould group
10 shared a connector, i.e., described first connector 13, second connector 23 and the third connector 33 are same
Connector.It is that a multiple aperture imaging system 1 of another preferred embodiment according to the present utility model is explained with reference to shown in attached drawing 6A
It is bright.
In this example, the multiple aperture imaging system includes a focal length camera module 30 and a wide-angle imaging mould group 10,
Wherein the field angle FOV3 of the focal length camera module 30 and field angle FOV1 of the wide-angle imaging mould group 10 is full
Sufficient condition, FOV1 > FOV3, and the focal length camera module 30 and the equivalent focal length ratio of the wide-angle imaging mould group 10 are not
Less than 4.In some examples of the utility model, the equivalent coke of the focal length camera module 30 and the wide-angle imaging mould group 10
It is not less than 5 away from ratio.
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 are located at same axis
Line.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311,
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
The third connector 32 is arranged to image the third lens unit 311 of main body 31 from the third
One end extends outwardly.In this example, the third connector 32 is arranged along the third camera shooting main body 31
Length direction extends outwardly.The length direction of third camera shooting main body 31 refers to the third lens unit 311 towards described
The direction of third photosensory assembly 312.
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, the first camera shooting main body 11 of the wide-angle imaging mould group 10 is installed in the focal length camera shooting
The third connector 32 of mould group 30.Because the height of the general wide-angle imaging mould group 10 images mould lower than the focal length
The first camera shooting main body 11 of the wide-angle imaging mould group 10 is installed on the latent prestige camera module by the height of group 30
The third connector 32 takes full advantage of the first camera shooting main body 11 and the latent difference in height for hoping camera shooting main body, reduces
The mounting height of the wide-angle imaging mould group 10 and the focal length camera module 30.
The third connector 32 is to the extending direction of the third connector 33 and first connector 12 to described
The extending direction of first connector 13 is vertical, and first connector 13 images for main body 11 relative to described first,
Positioned at outside.That is, the length direction of the third camera shooting main body 31 of the focal length camera module 30 is perpendicular to described
The length direction of wide-angle imaging mould group 10.
It is 1 quilt of a multiple aperture imaging system of another preferred embodiment according to the present utility model with reference to shown in attached drawing 6B
It illustrates.
In this example, the multiple aperture imaging system 1 includes a focal length camera module 30 and a wide-angle imaging mould group 10,
Wherein the field angle FOV3 of the focal length camera module 30 and field angle FOV1 of the wide-angle imaging mould group 10 is full
Sufficient condition, FOV1 > FOV3, and the focal length camera module 30 and the equivalent focal length ratio of the wide-angle imaging mould group 10 are not
Less than 4.In some examples of the utility model, the equivalent coke of the focal length camera module 30 and the wide-angle imaging mould group 10
It is not less than 5 away from ratio.
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 are in same axis
Line.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311,
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at the both ends of the focal length camera module 30.
The third connector 32 is arranged to image the one of the third photosensory assembly 312 of main body 31 from the third
End extends outwardly.
The third connector 32 is arranged to image from the one side of the third photosensory assembly 312 along the third
The length direction of main body 31 extends outwardly.The periscopic images wide length direction and refers to the third lens unit 311
From the extending direction of the third photosensory assembly 312
The wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector
13, wherein first connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, at this
In some examples of utility model, first connector 12 can be flexible circuit board.
In this example, described the of the focal length camera module 30 is concurrently arranged in the wide-angle imaging mould group 10
Position near three-lens unit 311.
The third connector 32 is to the extending direction of the third connector 33 and first connector 12 to described
The extending direction of first connector 13 is parallel, and first connector 13 position for the first camera shooting main body 11
In outside.
In other words, the length direction and the wide-angle of the third camera shooting main body 31 of the focal length camera module 30 are taken the photograph
As the length direction of mould group 10 is parallel.
With reference to shown in attached drawing 6C, be the multiple aperture imaging system 1 of above-described embodiment according to the present utility model again
One variant embodiment is elucidated with.
In this example, the multiple aperture imaging system 1 includes a focal length camera module 30 and a wide-angle imaging mould group 10,
Wherein the field angle FOV3 of the focal length camera module 30 and field angle FOV1 of the wide-angle imaging mould group 10 is full
Sufficient condition, FOV1 > FOV3, and the focal length camera module 30 and the equivalent focal length ratio of the wide-angle imaging mould group 10 are not
Less than 4.In some examples of the utility model, the equivalent coke of the focal length camera module 30 and the wide-angle imaging mould group 10
It is not less than 5 away from ratio.
The focal length camera module 30 includes that a third images main body 31, a third connector 32 and a third connector
33, wherein the third connector 32, which is electrically connected, images main body 31 and the third connector 33 in the third, it is described
Third connector 33 is used to third camera shooting main body 31 being connected to the electronic equipment, wherein the third images main body 31
Circuit element etc. be integratedly connected on the third connector 32, then connected outwardly by the third connector 33.
In this example, the third images main body 31, and the third connector 32 and the third connector 33 are in same axis
Line.
The third camera shooting main body 31 includes a third lens unit 311 and a third photosensory assembly 312, and wherein light passes through
Reach the third photosensory assembly 312 after crossing the third lens unit 311,
The focal length camera module 30 is implemented as a periscopic camera module, wherein the third lens unit 311 into
One step includes a smooth steering mechanism and a lens assembly and a processing element, wherein the light reaches the smooth steering mechanism
The optical path for entering the lens assembly after being diverted afterwards, to obtain after then being received by the third photosensory assembly 312
One image information.
It is described to drive that the processing element both can control the driving parts such as the motor in the third lens unit 311
Lens assembly is moved to complete to focus, additionally it is possible to control the motor movement in the smooth steering mechanism to adjust the smooth turning machine
Reflector/lens/prism position and/or/angle in structure.The third connector 32 is electrically connected in the third mirror
Head unit 311 and the third photosensory assembly 312 are with will be from the third lens unit 311 and the third photosensory assembly
312 information obtained are transferred to the third connector 33 by the third connector 32 and export outwardly.
The third photosensory assembly 312 includes a photosensitive element and a wiring board, wherein the photosensitive element is electrically connected
In the wiring board.The photosensitive element and the processing element are located at described in the both ends of the focal length camera module 30
Wide-angle imaging mould group 10 includes one first camera shooting main body 11, one first connector 12 and one first connector 13, wherein described
First connector 13 and the first camera shooting main body 11 are connected with each other by first connector 12, the one of the utility model
In a little examples, first connector 12 can be flexible circuit board.
The third connector 32 is arranged to image the third photosensory assembly 312 of main body 31 from the third
One end extends along the length direction of the periscopic camera module.
In this example, the middle burnt camera module 30 images master by the third close to the focal length camera module 10
Position near one end of the third lens unit 311 of body 31.The second camera shooting master of the middle burnt camera module 10
Body 11 and the focal length camera module 30 are located at same a line.
The third connector 32 is to the extending direction of the third connector 33 and first connector 12 to described
The extending direction of first connector 13 is vertical, and first connector 13 position for the first camera shooting main body 11
In outside.
Further, the length direction and the wide-angle of the third camera shooting main body 31 of the focal length camera module 30 are taken the photograph
As the length direction of mould group 10 is vertical.
It is noted that with reference to shown in attached drawing 7, being imaged apart from the focal length in an example of the utility model
The position of a camera lens end face 2cm or more for mould group 30, a visual field area of the field angle FOV3 of the focal length camera module 30
Domain includes by a field of view of the field angle FOV1 of the wide-angle imaging mould group 10 completely.Further, apart from institute
The camera lens end face for stating focal length camera module 30 is not less than the position of 10cm, and the focal length camera module 30 and the wide-angle are taken the photograph
As the distance I of mould group 103, the one of the field of view of the field angle FOV1 of the wide-angle imaging mould group 10 in the position
Radius R3Meet following condition, I3/R3≤0.125.It is noted that for apart from the one of the focal length camera module 30
Camera lens end face is not less than the position of 10cm, the corresponding visual field cross section the field angle FOV1 of the wide-angle imaging mould group 10
The center of the corresponding visual field cross section the field angle FOV3 at center and the focal length camera module 30 becomes closer to, relatively
For the corresponding visual field cross section area in center.
More particularly, described as the distance of the camera lens end face with the focal length camera module 30 is increasing
The visual field sectional area of the field of view of focal length camera module 30 is also increasing, because for the focal length camera module 30
For, field of view is one coniform, and the endpoint apart from circular cone is remoter, and the sectional area corresponding to circular cone is bigger, correspondingly, institute
The visual field section for stating the field of view of wide-angle imaging mould group 10 is also increasing, because for the wide-angle imaging mould group 10
For, field of view is one coniform, and the endpoint apart from circular cone is remoter, and the sectional area corresponding to circular cone is bigger, while described
Focal length camera module 30 and the field of view lap of the wide-angle imaging mould group 10 are also more and more, but for the length
For burnt camera module 30 and the wide-angle imaging mould group 10, in the conplane focal length camera module 30 and the wide-angle
The distance between the center in the visual field section of camera module 10 does not change, because its center is located at parallel optical axis,
But for the widened visual field section, the distance between center is to reduce.For example, working as the focal length
The radius R in the visual field section of camera module 30310cm, the visual field section of the wide-angle imaging mould group 10 by comprising
In the visual field section of the focal length camera module 30, i.e. radius is less than 10cm, then as the distance between two centers I3
When for 1cm, centre distance I3 is 0.1 relative to the ratio of the radius R3 of the focal length camera module 30.With with the focal length
The increase of the distance of one camera lens end face of camera module 30, in a certain position, when the visual field of the focal length camera module 30
The radius R in section3It is 20cm, the visual field section of the wide-angle imaging mould group 10 is contained in the focal length camera module 30
The visual field section, i.e., radius be less than 20cm, the distance between two centers still be 1cm when, centre distance I3Relative to institute
State the radius R of focal length camera module 303Ratio be 0.05.That is, after distance increases, relative to entire field of view
For, the center of the focal length camera module 30 and the wide-angle imaging mould group 10 is increasingly closer to, so that the focal length images
Mould group 30 is more and more consistent with the wide-angle imaging mould group 10 picture shot jointly, is conducive to synthesize in the later period and be taken the photograph by difference
The image obtained as mould group.
Particularly, in this example, by I3/R3≤ 0.125 the case where, is defined as " being overlapped ", because of two centers at this time
Distance is equivalent to for the entire field of view has the effect of a coincidence, to be conducive to the imaging in later period.
In this example, it is not less than the position 10cm, the length in the camera lens end face apart from the focal length camera module 30
The center in the center in the visual field section of burnt camera module 30 and the visual field section of the wide-angle imaging mould group 10 is overlapped.
An embodiment according to the present utility model, wherein the focal length camera module 30 is a periscopic camera module.
With continued reference to attached drawing 1A and attached drawing 1B, the mobile electronic device 100 includes 1000 He of electronic equipment ontology
The multiple aperture imaging system 1, wherein the multiple aperture imaging system 1 is installed in the electronic equipment ontology 1000.
The electronic equipment ontology 1000 has a front and a back side, in using for the mobile electronic device 100
Cheng Zhong, the electronic equipment ontology 1000 it is described just facing towards user, the back side of the electronic equipment ontology 1000 is carried on the back
To in user, the multiple aperture imaging system 1 is installed in the back side of the electronic equipment ontology 1000, that is to say, that
By the multiple aperture imaging system 1, user can shoot the object positioned at 100 front of mobile electronic device.
The multiple aperture imaging system 1 includes the focal length camera module 30, the middle burnt camera module 20 and described
Wide-angle imaging mould group 10, wherein the focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging mould group
10 are arranged to 100 length direction of the mobile electronic device arrangement.One light well of the focal length camera module 30, institute
One light well of a light well and the wide-angle imaging mould group 10 for stating middle burnt camera module 20 is located at same axis.The axis
It is parallel with 100 length direction of mobile electronic device.In this example, the focal length camera module 30 is implemented as a latent prestige
Formula camera module.
The one of the length direction of one sensitive chip 1121 of the wide-angle imaging mould group 10, the middle burnt camera module 20
The length direction of one sensitive chip 3121 of the length direction of sensitive chip 2121 and the focal length camera module 30 and described
The length direction of electronic equipment ontology 1000 is parallel, so that the camera module shooting picture length direction is set with the electronics
Standby 1000 length direction of ontology is parallel, reaches more preferably shooting experience and shooting effect.
Further, the length direction and the mobile electron of the sensitive chip 3121 of the focal length camera module 30
The length direction of equipment 100 is parallel, flat where the 3121 place plane of sensitive chip and the electronic equipment ontology 1000
Face is vertical, and the focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000, so that the focal length mould group
30 shooting picture length directions are parallel with 1000 length direction of electronic equipment ontology, reach more preferably shooting experience and clap
Take the photograph effect.
In this example, the length direction of the sensitive chip 1121 of the wide-angle imaging mould group 10, the middle coke are taken the photograph
As the length direction of the sensitive chip 2121 of mould group 20 and the sensitive chip 3121 of the focal length camera module 30
Length direction be parallel to Y-axis, by taking the sensitive chip 1121 as an example, the length direction of the sensitive chip 1121 refers to described
The extending direction of the high-end low side towards the sensitive chip 1121 of the one of sensitive chip 1121.The sensitive chip 1121
It is described it is high-end refer to the electronic equipment ontology 1000 in normal use process, the sensitive chip 1121 is in short transverse
On both ends in be located at higher unknown one end.In other words, by taking the sensitive chip 3121 as an example, the sensitive chip 3121
Length direction refers to that the sensitive chip 3121 is directed away from high-end one end close to the electronic equipment ontology 1000
The extending direction of described high-end one end of the electronic equipment ontology 1000.The height of the electronic equipment ontology 1000
End refers to the higher one end in 1000 position of electronic equipment ontology described in normal use process.
In this example, a light well of the focal length camera module 30 of the multiple aperture imaging system 1, the middle coke
Axis where one light well of camera module 20 and a light well of the wide-angle imaging mould group 10 is located at the mobile electricity
The centre of the width direction of sub- equipment 100, that is to say, that along a light well of the focal length camera module 30, the middle coke
Axis where one light well of camera module 20 and a light well of the wide-angle imaging mould group 10, can be by the movement
Electronic equipment 100 is divided into two.
Further, the position of the wide-angle imaging mould group 10 is higher than the position of the middle burnt camera module 20, it is described in
The position of burnt camera module 20 is higher than the position of the focal length camera module 30, so that a visual field of the wide-angle imaging mould group 10
Angle is close to a field angle of the middle burnt camera module 20, and a field angle of the focal length camera module 30 is close in described
One field angle of burnt camera module 20.That is, the focal length camera module 30 is located at the one of the mobile electronic device 100
Lower position, and the focal length camera module 30 be installed on by the width direction along the mobile electronic device 100 it is described
Electronic equipment ontology 1000.
In other words, the focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000.The wide-angle
Camera module 10, the middle burnt camera module 20 and the focal length camera module 30 are set along longitudinally mounted in the electronics
Standby ontology 1000.
Further, the mobile electronic device 100 includes a flash lamp 40 and a functional module 50, wherein the function
Module 50 can be a Focusing module, such as laser Focusing module, wherein the functional module 50 is located at the wide-angle imaging mould
The side of axis where the light well of group 10, the middle burnt camera module 20 and the focal length camera module 30, and it is described
Functional module 50 is close to the middle burnt camera module 20 and is set to the electronic equipment ontology 1000, to assist the camera shooting
Mould group or preferable shooting effect.In other words, the distance before the functional module 50 and the middle burnt camera module 20 is small
In the distance between the functional module 50 and the wide-angle imaging mould the group 10 either functional module 50 and the focal length
The distance between camera module 30.Optionally, the functional module 50 and the middle burnt camera module 20 are concurrently set to
The electronic equipment ontology 1000.
The flash lamp 40 is located at the wide-angle imaging mould group 10 and the middle burnt 20 place axis of camera module and position
Between the wide-angle imaging mould group 10 and the middle burnt camera module 20.
Optionally, the flash lamp 40 is located among one between wide-angle imaging mould group 10 and the middle burnt camera module 20
Position and the axis being located at where the light well of the wide-angle imaging mould group 10 and the middle burnt camera module 20.
That is, the flash lamp 40 is close to 20 ground of the wide-angle imaging mould group 10 and the middle burnt camera module
It is installed on the electronic equipment ontology 1000.Because the range of exposures of the flash lamp 40 is limited, the institute deeper relative to the depth of field
Focal length camera module 30 is stated, the flash lamp 40 is more suitable and the wide-angle imaging mould group 10 and the middle burnt camera module 20
Cooperating, to obtain a preferable shooting effect.
It is understood that the Focusing module and the flash lamp 40 can be other functional modules, the class of module
Type does not cause to limit herein.
The mobile electronic device 100 is generally configured with a preposition camera module 4, wherein the preposition camera module 4
Positioned at the front of the electronic equipment ontology 1000, for the operation such as self-timer.The preposition camera module 4 is because be configured
There are the functions such as recognition of face thus to need to occupy biggish volume, the institute positioned at the back side of the electronic equipment ontology 1000
It states multiple aperture imaging system 1 and is set below the position of the preposition camera module with reserved to the preposition camera module 4
Enough installation spaces.
It is the mobile electronic device 100 of above-mentioned preferred embodiment according to the present utility model with reference to shown in attached drawing 8A
A variant embodiment, the present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 the sudden strain of a muscle
The position of light lamp 40 and the functional module 50.
In the present embodiment, the flash lamp 40 and the functional module 50 are located at the focal length camera module 10, described
The same side of the place axis of middle coke camera module 20 and the focal length camera module 30, and the flash lamp 40 is located at institute
A middle position of wide-angle imaging mould group 10 and the middle burnt camera module 20 is stated, middle position herein refers to the flash lamp
The distance between 40 and the wide-angle imaging mould group 10 and the distance between the flash lamp 40 and the middle burnt camera module 20
It is identical.The functional module 50 is located at the lower section of the flash lamp 40 and the functional module 50 compared to the wide-angle imaging
Mould group 10 and the focal length camera module 30 are disposed proximate in the middle burnt camera module 20.
Optionally, the functional module 50 and the middle burnt camera module 20 are concurrently set to the electronic equipment sheet
Body 1000.
Optionally, the flash lamp 40 and the functional module 50 are located at same axis and are parallel to the wide-angle imaging
Axis where the light well of mould group 10, the middle burnt camera module 20 and the focal length camera module 30.
It is the mobile electronic device 100 of above-mentioned preferred embodiment according to the present utility model with reference to shown in attached drawing 8B
A variant embodiment, the present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 the sudden strain of a muscle
Light lamp 40 and the functional module 50.
The flash lamp 40 and the functional module 50 are located at the wide-angle imaging mould group 10, the middle burnt camera shooting mould
The two sides of group 20 and 30 place axis of the focal length camera module, and the flash lamp 40 and the functional module 50 are divided
It is not symmetrically disposed on the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length camera module 30
Axis where light well, to obtain a preferable shooting effect.
Further, the functional module 50 is located at the wide-angle imaging mould group 10 and the middle burnt camera module 20
One middle position, that is to say, that the functional module 50 arrives the distance and the functional module 50 of the wide-angle imaging mould group 10
To being equidistant for the middle burnt camera module 20.
It is the mobile electronic device of above-mentioned preferred embodiment according to the present utility model with reference to shown in attached drawing 8C
100 variant embodiment, the present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 it is described
Flash lamp 40 and the functional module 50.
The flash lamp 40 and the functional module 50 are located at the wide-angle imaging mould group 10, the middle burnt camera shooting mould
The two sides of group 20 and 30 place axis of the focal length camera module, and the flash lamp 40 and the functional module 50 are divided
Be not symmetrically disposed on the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length camera module 30 into
Axis where unthreaded hole, to obtain a preferable shooting effect.
Further, the flash lamp 40 is close to 20 ground of the middle burnt camera module and is set to the electronic equipment sheet
Body 1000.That is, the distance between the flash lamp 40 and the middle burnt camera module 20 are less than 40 He of flash lamp
The distance between described wide-angle imaging mould group 10 is either less than between the flash lamp 40 and the focal length camera module 10
Distance.
For the functional module 50, the functional module 50 is arranged close to middle burnt 20 ground of camera module
In the electronic equipment ontology 1000.That is, the distance between the functional module 50 and the middle burnt camera module 20
Either it is less than the functional module 50 and institute less than the distance between the functional module 50 and the wide-angle imaging mould group 10
State the distance between focal length camera module 30.
Optionally, the functional module 50, the flash lamp 40 and the middle burnt camera module 20 are located at same axis,
And the axis is parallel to the width direction of the electronic equipment ontology 1000.
It is the mobile electronic device 100 of above-mentioned preferred embodiment according to the present utility model with reference to shown in attached drawing 9A
A variant embodiment, the present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 position.
The wide-angle imaging mould group 10 of the multiple aperture imaging system 1, the middle burnt camera module 20 and the length
The light well of burnt camera module 30 is all in an axis and the axis is located at the electronics of the mobile electronic device 100
The side of apparatus body 1000.That is, the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length
The long side that camera module 30 is close to the electronic equipment ontology 1000 is installed on the electronic equipment ontology 1000.
In other words, the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length camera module 30
By longitudinal direction and the electronic equipment ontology 1000 is installed on close to 1000 border land of electronic equipment ontology.
The focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000.The flash lamp 40 is located at
The top of the wide-angle imaging mould group 10, and with the wide-angle imaging mould group 10, the middle burnt camera module 20 and described
The light well of focal length camera module 30 is located at same axis.
The functional module 50 is arranged near the middle burnt camera module 20, along the middle burnt camera module 20
Transverse direction is installed in the electronic equipment ontology 1000 and is located at the inside of the middle burnt camera module 20.
It is the variant embodiment according to above-mentioned preferred embodiment, the present embodiment and above-mentioned implementation with reference to shown in attached drawing 9B
Example the difference is that the flash lamp 40 position.
The flash lamp 40 and the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length image mould
The light well of group 30 is located at same axis, and the flash lamp 40 is located at the wide-angle imaging mould group 10 and the middle coke is taken the photograph
As between mould group 20.That is, the flash lamp 40 is disposed proximate to again in described relative to the focal length camera module 30
Wide-angle imaging mould group 10 and the middle burnt camera module 20.
The functional module 50 is disposed proximate to the middle burnt camera module 20.That is, the functional module 50
The distance between described middle burnt camera module 20 be less than the functional module 50 and the wide-angle imaging mould group 10 distance or
Person is the distance between the functional module 50 and the focal length camera module 30.
Optionally, the functional module 50 and the middle burnt camera module 20 are laterally installed in the electronic equipment sheet
Body 1000.
It is the one of the mobile electronic device 100 of above-described embodiment according to the present utility model with reference to shown in attached drawing 10A
Variant embodiment.
In this example, the multiple aperture imaging system 1 is installed in the other side of the electronic equipment ontology 1000, such as
Fruit will be known as left side in attached drawing 9A and attached drawing 9B, then in this example, positioned at the right side of the electronic equipment ontology 1000.
Each camera module of the multiple aperture imaging system 1 is mounted longitudinally in the electronic equipment ontology 1000.
Specifically, the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length camera module 30
The electronic equipment ontology 1000, and institute are installed in along the length direction of the mobile electronic device 100 from top to bottom
State a light well of wide-angle imaging mould group 10, a light well of the middle burnt camera module 20 and the focal length camera module 30
It is all located at same axis.The length direction of the focal length camera module 30 and the length direction of the mobile electronic device 100 hang down
Directly, and the focal length camera module 30 is arranged to extend inwardly from axis where light well.
In other words, the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length camera module 30
By longitudinal direction and the electronic equipment ontology 1000 is installed on close to 1000 border land of electronic equipment ontology.
The focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000.The flash lamp 40 is located at
The top of the wide-angle imaging mould group 10, and with the wide-angle imaging mould group 10, the middle burnt camera module 20 and described
The light well of focal length camera module 30 is located at same axis.
The functional module 50 be arranged near the middle burnt camera module 20 and the middle burnt camera module 20 simultaneously
It is installed in the electronic equipment ontology 1000 capablely and is located at the inside of the middle burnt camera module 20.
It is the variant embodiment according to above-mentioned preferred embodiment, the present embodiment and above-mentioned implementation with reference to shown in attached drawing 10B
Example the difference is that the flash lamp 40 position.
The flash lamp 40 and the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length image mould
The light well of group 30 is located at same axis, and the flash lamp 40 is located at the wide-angle imaging mould group 10 and the middle coke is taken the photograph
As between mould group 20.That is, the flash lamp 40 is disposed proximate to again in described relative to the focal length camera module 30
Wide-angle imaging mould group 10 and the middle burnt camera module 20.
The functional module 50 is disposed proximate to the middle burnt camera module 20.That is, the functional module 50
The distance between described middle burnt camera module 20 be less than the functional module 50 and the wide-angle imaging mould group 10 distance or
Person is the distance between the functional module 50 and the focal length camera module 30.
Optionally, the functional module 50 and the middle burnt camera module 20 are laterally installed in the electronic equipment sheet
Body 1000.
It is the deformation implementation according to the mobile electronic device 100 of above-mentioned preferred embodiment with reference to shown in attached drawing 11
Example, the present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 position.
The multiple aperture imaging system 1 includes the wide-angle imaging mould group 10, the middle burnt camera module 20 and described
Focal length camera module 30, and the focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging mould group
10 are successively arranged along the length direction of the electronic equipment ontology 1000.The position of the focal length camera module 30 is higher than institute
Middle burnt camera module 20 is stated, the position of the middle burnt camera module 20 is higher than the wide-angle imaging mould group 10.The focal length camera shooting
Mould group 30 is installed on the electronic equipment ontology 1000 by the width direction along the electronic equipment ontology 1000.In other words
The focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000.
The wide-angle imaging mould group 10, the entering light hole location of the middle burnt camera module 20 and the focal length camera module 30
In same axis, and the axis is located at the left side of the electronic equipment ontology 1000.
The flash lamp 40 is located at the lower section of the wide-angle imaging mould group 10 and the flash lamp 40 and the wide-angle are taken the photograph
As mould group 10, the light well of the middle burnt camera module 20 and the focal length camera module 30 is located at same axis.
The functional module 50 is located at the focal length camera module 30, and the middle burnt camera module 20 and the wide-angle are taken the photograph
The inside of axis and the functional module 50 as where the light well of mould group 10 are close to the middle burnt camera module 20 and set
It is placed in the electronic equipment ontology 1000.
Optionally, the functional module 50 and the middle burnt camera module 20 are concurrently set to the electronic equipment sheet
Body 1000.The distance between the functional module 50 and the middle burnt camera module 20 are less than the functional module 50 and described wide
The distance between angle camera module 10 is either less than the distance between the functional module 50 and the focal length camera module 10.
It is the mobile electronic device 100 of above-mentioned preferred embodiment according to the present utility model with reference to shown in attached drawing 12
A variant embodiment.
The present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 position.
If the multiple aperture imaging system 1 is located at the left side of the electronic equipment ontology 1000 in upper embodiment, that
In the present embodiment, the multiple aperture imaging system 1 is located at the right side of the electronic equipment ontology 1000.
The focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging mould group 10 successively extend institute
The length direction for stating electronic equipment ontology 1000 is installed in the electronic equipment ontology 1000, and the focal length camera module
30, the light well of the middle burnt camera module 20 and the wide-angle imaging mould group 10 is located at same axis.That is, described
Focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging mould group 10 are by successively longitudinally mounted in the electricity
Sub- apparatus body 1000.
The focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000, and the focal length images mould
The position of group 30 is higher than the position of the middle burnt camera module 20, and the position of the middle burnt camera module 20 is higher than the wide-angle and takes the photograph
As the position of mould group 10.
The flash lamp 40 and the focal length camera module 30, the middle burnt camera module 20 and the wide-angle imaging mould
The light well of group 10 is located at same axis, and the position of the flash lamp 40 is lower than the position of the wide-angle imaging mould group 10.
That is, the flash lamp 40, which is close to 10 ground of wide-angle imaging mould group, is installed on the electronic equipment ontology 1000.
The functional module 50 is located at the focal length camera module 30, the middle burnt camera module 20, the wide-angle imaging
The inside of 40 place axis of mould group 10 and the flash lamp.
Optionally, the functional module 50 is close to 20 ground of the middle burnt camera module and is installed on the electronic equipment sheet
Body 1000.The distance between the functional module 50 and the middle burnt camera module 20 are respectively smaller than the functional module 50 and institute
State the distance between the distance between wide-angle imaging mould group 10 and the functional module 50 and the focal length camera module 30.
It is 100 quilt of a mobile electronic device of a preferred embodiment according to the present utility model with reference to shown in attached drawing 13A
It illustrates.
The mobile electronic device 100 includes an electronic equipment ontology 1000, a preposition camera module 4 and a multiple aperture
Imaging system 1, wherein the electronic equipment ontology 1000 has a front and a back side, wherein described positive towards user, institute
The back side is stated backwards to user, the preposition camera module 4 is located at the front of the electronic equipment ontology 1000, the multiple aperture
Imaging system 1 is located at the back side of the electronic equipment ontology 1000, takes up space in the preposition camera module 4 lesser
Under situation, each camera module of the multiple aperture imaging system 1 can be along the width side of the mobile electronic device 100
To the electronic equipment ontology 1000 is installed in, reach preferable shooting effect.
The wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length camera module 30 are successively along cross
The electronic equipment ontology 1000 is arranged in direction.Further, a light well of the wide-angle imaging mould group 10, it is described
One light well of middle coke camera module 20 and a light well of the focal length camera module 30 are located at same axis, and parallel
In the width direction of the mobile electronic device 100.The focal length camera module 30 is horizontally installed in the electronic equipment sheet
Body 1000.
The focal length camera module 30 is leaned on relative to the wide-angle imaging mould group 10 and the middle burnt camera shooting mould mould group
Inside it is installed on the electronic equipment ontology 1000.The length direction of one sensitive chip of the focal length camera module 30 and the shifting
The length direction of dynamic electronic equipment 100 is parallel.
The multiple aperture imaging system 1 further comprises a flash lamp 40, wherein the flash lamp 40 be arranged at it is described
The lower section of wide-angle imaging mould group 10 parallel the flash lamp 40 and the axis where the wide-angle imaging mould group 10 be parallel to it is described
The length direction of mobile electronic device 100.That is, the flash lamp 40 and the wide-angle imaging mould group 10 are by along described
The length direction of mobile electronic device 100 is installed on the electronic equipment ontology 1000.Certainly, 40 position of flash lamp can quilt
One Focusing module is installed.
The electronic equipment ontology 1000 includes a processing unit 2 and a display unit 3, wherein 2 quilt of the processing unit
It is communicatively coupled with the display unit 3, the multiple aperture imaging system 1 is operably connected to the processing unit 2.
It is the mobile electronic device 100 of above-described embodiment according to the present utility model with reference to shown in attached drawing 13B
One variant embodiment.
The present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 position.
The wide-angle imaging mould group 10 of the multiple aperture imaging system 1, the middle burnt camera module 20 and the length
Burnt camera module 30 is successively installed in the electronic equipment ontology along the width direction of the mobile electronic device 100
1000。
The focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000.The wide-angle imaging mould group
10, the light well of the middle burnt camera module 20 and the focal length camera module 30 is in same axis.
The flash lamp 40 and the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length image mould
The light well of group 30 is located at same axis and the flash lamp 40 is close to 10 ground of wide-angle imaging mould group and is set to institute
State electronic equipment ontology 1000.
It is the mobile electronic device 100 of above-described embodiment according to the present utility model with reference to shown in attached drawing 13C
One variant embodiment.
The present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 position.
The wide-angle imaging mould group 10 of the multiple aperture imaging system 1, the middle burnt camera module 20 and the length
Burnt camera module 30 is successively installed in the electronic equipment ontology along the width direction of the mobile electronic device 100
1000。
The focal length camera module 30 is horizontally installed in the electronic equipment ontology 1000.The wide-angle imaging mould group
10, the light well of the middle burnt camera module 20 and the focal length camera module 30 is in same axis.
The flash lamp 40 and the wide-angle imaging mould group 10, the middle burnt camera module 20 and the focal length image mould
The light well of group 30 is located at same axis and the flash lamp 40 is taken the photograph close to the wide-angle imaging mould group 10 and the middle coke
As 20 ground of mould group is set to the electronic equipment ontology 1000.
In this example, the flash lamp 40 is located in the wide-angle imaging mould group 10 and the middle burnt camera module 20
Between position.
It is the mobile electronic device 100 of above-described embodiment according to the present utility model with reference to shown in attached drawing 13D
One variant embodiment.
The present embodiment and above-described embodiment the difference is that the multiple aperture imaging system 1 position.
The wide-angle imaging mould group 10 of the multiple aperture imaging system 1, the middle burnt camera module 20 and the length
Burnt camera module 30 is successively installed in the electronic equipment ontology along the width direction of the electronic equipment ontology 1000
1000。
The focal length camera module 30 is longitudinally disposed at the electronic equipment ontology 1000 and focal length camera shooting mould
Group 30 is close to the side of the electronic equipment ontology 1000.The wide-angle imaging mould group 10, the middle burnt camera module 20
It is located at same axis with the light well of the focal length camera module 30, and the wide-angle imaging mould group 10 is close to the electricity
It is installed on the electronic equipment ontology 1000 to the middle position of the width direction of sub- apparatus body 1000.
The length direction of the focal length camera module 30 is parallel with the length direction of the mobile electronic device 100.It is described
The length direction of one sensitive chip of focal length camera module 30 and the length direction of the mobile electronic device 100 are vertical.
The length direction of the focal length camera module 30 is parallel with the length direction of the mobile electronic device 100.It is described
The length direction of one sensitive chip of focal length camera module 30 and the length direction of the mobile electronic device 100 are vertical.
Another aspect according to the present utility model provides the installation method of a multiple aperture imaging system, including walks as follows
It is rapid:
One camera shooting main body of one wide-angle imaging mould group is installed in a connection piece of a focal length camera module, wherein the focal length
One field angle FOV3 of camera module is less than a field angle FOV1 of the wide-angle imaging mould group.
An embodiment according to the present utility model, further comprises step:
A camera shooting main body of burnt camera module is so that the wide-angle imaging mould group and the middle burnt camera module in installation one,
The focal length camera module cooperating, wherein a field angle FOV2 of the middle burnt camera module is greater than the focal length and images mould
The field angle FOV3 of group, and a part of the field of view of the field angle FOV3 is overlapped in the field angle FOV2's
A part of field of view, and a part of the field of view of the field angle FOV2 is overlapped in the view of the field angle FOV1
A part of field areas.
An embodiment according to the present utility model, wherein the focal length camera module is a periscopic camera module.
Another aspect according to the present utility model provides the installation method of a multiple aperture imaging system, including walks as follows
It is rapid:
A connection piece for installing a camera shooting main body Yu Yizhong coke camera module of a wide-angle imaging mould group, wherein the wide-angle
One field angle FOV1 of camera module is greater than a field angle FOV2 of the middle burnt camera module, and the field angle FOV1
A part of field of view is overlapped in a part of the field of view of the field angle FOV2.
An embodiment according to the present utility model, further comprises step:
One camera shooting main body of one focal length camera module is installed so that the wide-angle imaging mould group and the middle burnt camera module,
The focal length camera module cooperating, wherein a field angle FOV3 of the focal length camera module is less than the middle burnt camera shooting mould
The field angle FOV2 of group, and a part of the field of view of the field angle FOV3 is overlapped in the field angle FOV2's
A part of field of view.
It should be understood by those skilled in the art that foregoing description and the embodiments of the present invention shown in the drawings are only used as
It illustrates and is not intended to limit the utility model.The purpose of this utility model completely and effectively realizes.The function of the utility model
Energy and structural principle show and illustrate in embodiment, under without departing from the principle, the embodiments of the present invention
Can there are any deformation or modification.
Claims (47)
1. a multiple aperture imaging system characterized by comprising
One focal length camera module, burnt camera module and a wide-angle imaging mould group in one, wherein the focal length camera module has
One field angle FOV3, wherein the middle burnt camera module has a field angle FOV2, wherein the wide-angle imaging mould group has one
Field angle FOV1 meets following condition:
FOV1 > FOV2 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the field angle
A part of the field of view of FOV2, field of view a part of the field angle FOV2 are contained in the field angle FOV3's
A part.
2. multiple aperture imaging system according to claim 1, wherein the field angle FOV1, the field angle FOV2 and
The field angle FOV3 meets following condition respectively:
10 °≤FOV3≤40 °, 25 °≤FOV2≤90 ° and 50 °≤FOV1≤180 °.
3. multiple aperture imaging system according to claim 1, wherein the field of view of the field angle FOV3 is apart from institute
The position 5cm or more for stating a camera lens end face of focal length camera module is at least partly contained in the visual field area of the field angle FOV2
Domain.
4. multiple aperture imaging system according to claim 3, wherein in the camera end apart from the focal length camera module
The center in the field of view section of the middle burnt camera module not less than the position 20cm in face and the focal length image mould
The center in the field of view section of group is overlapped.
5. multiple aperture imaging system according to claim 4, wherein in the camera end apart from the focal length camera module
The Radius of the field of view of the middle burnt camera module not less than the position 20cm in face is R2, the middle burnt camera shooting mould
The distance between an optical axis and an optical axis of the focal length camera module of group are I2, meet following condition:
I2/R2≤0.125。
6. multiple aperture imaging system according to claim 5, wherein an optical axis of the middle burnt camera module and it is described
The distance of one optical axis of focal length camera module is I2, meet following condition:
1cm≤I2≤3cm。
7. multiple aperture imaging system according to any one of claims 1 to 6, wherein the field of view of the field angle FOV2 exists
The position 3cm or more of a camera lens end face apart from the middle burnt camera module is at least partly contained in the field angle FOV1's
Field of view.
8. multiple aperture imaging system according to claim 7, wherein in the camera end apart from the middle burnt camera module
The center in the field of view section of the wide-angle imaging mould group not less than the position 10cm in face and the middle burnt camera shooting mould
The center in the field of view section of group is overlapped.
9. multiple aperture imaging system according to claim 8, wherein in the camera end apart from the focal length camera module
The Radius of the field of view of the wide-angle imaging mould group not less than the position 10cm in face is R1, the middle burnt camera shooting mould
The distance between an optical axis and an optical axis of the wide-angle imaging mould group of group are I1, meet following condition:
I1/R1≤0.125。
10. multiple aperture imaging system according to any one of claims 1 to 6, wherein the focal length camera module and described wide
The ratio of the equivalent focal length of angle camera module is not less than 4.
11. multiple aperture imaging system according to claim 10, wherein the focal length camera module and the wide-angle imaging
The equivalent focal length ratio of mould group is not less than 5.
12. multiple aperture imaging system according to any one of claims 1 to 6, wherein the middle burnt camera module and described wide
The equivalent focal length ratio of angle camera module is not less than 3.
13. multiple aperture imaging system according to claim 10, wherein the focal length camera module is imaged including a third
Main body, a third connector and a third connector, wherein the third connector is located at third camera shooting main body and described
Between third connector and it is electrically connected in third camera shooting main body and the third connector, wherein the third
Imaging main body includes a third lens unit and a third photosensory assembly, and wherein light reaches after the third lens unit
The third photosensory assembly, wherein the third connector is arranged at the third photosensory assembly of the focal length camera module
One end and the third connector be electrically connected to the third lens unit and the third photosensory assembly.
14. multiple aperture imaging system according to claim 10, wherein the focal length camera module is imaged including a third
Main body, a third connector and a third connector, wherein the third connector is located at third camera shooting main body and described
Between third connector and it is electrically connected to the third camera shooting main body and the third connector, wherein the third images
Main body includes a third lens unit and a third photosensory assembly, and wherein light reaches described after the third lens unit
Third photosensory assembly, wherein the third connector is arranged at the one of the third lens unit of the focal length camera module
It holds and the third connector is electrically connected to the third lens unit and the third photosensory assembly.
15. multiple aperture imaging system described in 3 or 14 according to claim 1, wherein the middle burnt camera module is than the wide-angle
A light well of the camera module close to the focal length camera module.
16. multiple aperture imaging system described in 3 or 14 according to claim 1, wherein the middle burnt camera module includes one second
Image main body, one second connector and one second connector, wherein second connector be located at the second camera shooting main body and
It between second connector and is electrically connected in the second camera shooting main body and second connector, wherein described
Wide-angle imaging mould group includes one first camera shooting main body, one first connector and one first connector, wherein first connector
Positioned at it is described first camera shooting main body and first connector between and be electrically connected in it is described first camera shooting main body and
First connector, wherein the first camera shooting main body of the wide-angle imaging mould group is by least partially overlapped in the middle coke
One front of second connector of camera module;Or wherein described the first of the wide-angle imaging mould group images main body quilt
One front of the least partially overlapped third connector in the focal length camera module.
17. multiple aperture imaging system according to claim 10, wherein the focal length camera module, the middle burnt camera shooting mould
Group and the wide-angle imaging mould group share at least a connection piece and at least a connector.
18. multiple aperture imaging system according to claim 1, which is characterized in that it further comprise a flash lamp, wherein institute
The distance for stating flash lamp and the wide-angle imaging mould group is less than the distance of the flash lamp and the focal length camera module, and institute
The distance for stating flash lamp and the middle burnt camera module is less than the distance of the flash lamp and the focal length camera module.
19. multiple aperture imaging system according to claim 18, wherein the flash lamp is located at the wide-angle imaging mould group
A middle position between the middle burnt camera module.
20. multiple aperture imaging system according to any one of claims 1 to 6, wherein the focal length camera module is a latent prestige
Formula camera module.
21. a mobile electronic device characterized by comprising
One electronic equipment ontology and according to any multiple aperture imaging system of the claims 1 to 20, wherein described more
Aperture imaging system is communicatively connected in a network in the electronic equipment ontology.
22. a mobile electronic device characterized by comprising
One electronic equipment ontology and a multiple aperture imaging system, wherein the multiple aperture imaging system includes that a focal length images mould
Group, burnt camera module and a wide-angle imaging mould group in one, wherein electronic equipment ontology has a back side, and the focal length images mould
Group, the middle burnt camera module and the wide-angle imaging mould group are respectively set at the back of the electronic equipment ontology
Face, wherein the focal length camera module is a periscopic camera module.
23. mobile electronic device according to claim 22, wherein the wide-angle imaging mould group, the middle burnt camera module
And the periscopic camera module is installed in the electronic equipment ontology along electronic equipment body width direction.
24. mobile electronic device according to claim 23, wherein a light well of the wide-angle imaging mould group, it is described in
One light well of one light well of burnt camera module and the periscopic camera module is located at same axis.
25. mobile electronic device according to claim 24, wherein the periscopic camera module is horizontally installed in institute
State electronic equipment ontology.
26. mobile electronic device according to claim 24, wherein the periscopic camera module is mounted longitudinally in institute
State electronic equipment ontology.
27. according to any mobile electronic device of claim 23 to 26, wherein the multiple aperture imaging system is further
Including a flash lamp, wherein the flash lamp is installed in the electronic equipment ontology, wherein the flash lamp and the wide-angle
The distance of camera module is less than the distance of the flash lamp and the focal length camera module, and the flash lamp and the middle coke
The distance of camera module is less than the distance of the flash lamp and the focal length camera module.
28. mobile electronic device according to claim 22, wherein the wide-angle imaging mould group, the middle burnt camera module
And the periscopic camera module is installed in the electronic equipment ontology along the electronic equipment body length direction.
29. mobile electronic device according to claim 28, wherein the periscopic camera module is horizontally installed in institute
State electronic equipment ontology.
30. mobile electronic device according to claim 29, wherein a sensitive chip length of the wide-angle imaging mould group
One sensitive chip of the sensitive chip length direction and the focal length camera module of direction and the middle burnt camera module is long
Degree direction is parallel with the electronic equipment body length direction respectively, and where a sensitive chip of the focal length camera module
Plane is vertical with plane where the electronic equipment ontology.
31. mobile electronic device according to claim 30, which is characterized in that it further comprise a preposition camera module,
Wherein the preposition camera module is arranged at a front of the electronic equipment ontology, the position of the multiple aperture imaging system
Lower than the preposition camera module.
32. mobile electronic device according to claim 31, wherein the wide-angle imaging mould group, the middle burnt camera module
And the axis where the light well of the periscopic camera module is located at electronic equipment portion ontology the one of width direction
Middle position.
33. mobile electronic device according to claim 31, wherein the wide-angle imaging mould group, the middle burnt camera module
And the axis where the light well of the periscopic camera module is located at the side of the preposition camera module.
34. mobile electronic device according to claim 31, wherein the multiple aperture imaging system further comprises a sudden strain of a muscle
Light lamp, wherein the flash lamp is installed in the electronic equipment ontology, wherein the flash lamp and the wide-angle imaging mould group
Distance be less than the distance of the flash lamp and the focal length camera module, and the flash lamp and the middle burnt camera module
Distance be less than the flash lamp and the focal length camera module distance.
35. mobile electronic device according to claim 34, wherein the flash lamp be located at the wide-angle imaging mould group and
A middle position between the middle burnt camera module.
36. according to mobile electronic device described in claim 22,23,24,25,26,28,29,30,31,32,33,34 or 35,
Wherein the focal length camera module has a field angle FOV3, wherein the middle burnt camera module has a field angle FOV2,
Described in wide-angle imaging mould group have a field angle FOV1, meet following condition:
FOV1 > FOV2 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the field angle
A part of the field of view of FOV2, field of view a part of the field angle FOV2 are contained in the field angle FOV3's
A part.
37. mobile electronic device according to claim 27, wherein the focal length camera module has a field angle FOV3,
Wherein the middle burnt camera module has a field angle FOV2, wherein the wide-angle imaging mould group has a field angle FOV1, it is full
Foot column condition:
FOV1 > FOV2 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the field angle
A part of the field of view of FOV2, field of view a part of the field angle FOV2 are contained in the field angle FOV3's
A part.
38. a multiple aperture imaging system characterized by comprising
One focal length camera module and a wide-angle imaging mould group, wherein the focal length camera module has a field angle FOV3, wherein
The wide-angle imaging mould group has a field angle FOV1, meets following condition:
FOV1 > FOV3, and a part of the field of view of the field angle FOV1 is contained in the view of the field angle FOV3
A part of field areas, wherein the focal length camera module is a periscopic camera module.
39. the multiple aperture imaging system according to claim 38, wherein the field angle FOV1 and field angle FOV3
Meet following condition respectively:
10 °≤FOV3≤40 ° and 50 °≤FOV3≤180 °.
40. multiple aperture imaging system according to claim 39, wherein the field of view of the field angle FOV3 is in distance
The position 2cm or more of one camera lens end face of the focal length camera module is at least partly contained in the visual field of the field angle FOV1
Region.
41. multiple aperture imaging system according to claim 39, wherein in the camera lens apart from the focal length camera module
The field of view kernel of section of the wide-angle imaging mould group not less than the position 10cm of end face and the focal length image mould
The field of view kernel of section of group is overlapped.
42. multiple aperture imaging system according to claim 41, wherein in the camera lens apart from the focal length camera module
The Radius of the field of view of the wide-angle imaging mould group not less than the position 10cm of end face is R3, the focal length camera shooting
The distance between one optical axis of mould group and an optical axis of the wide-angle imaging mould group are I3, meet following condition:
I3/R3≤0.125。
43. according to any multiple aperture imaging system of claim 38 to 42, wherein the focal length camera module includes one
Third images main body, a third connector and a third connector, wherein the third connector is located at third camera shooting master
Between body and the third connector and it is electrically connected in third camera shooting main body and the third connector, wherein
The third camera shooting main body includes a third lens unit and a third photosensory assembly, and wherein light passes through the third camera lens list
Reach the third photosensory assembly after member, wherein the third connector is arranged at the third of the focal length camera module
One end of the photosensory assembly and third connector is electrically connected to the third lens unit and the third photosensory assembly.
44. according to any multiple aperture imaging system of claim 38 to 42, wherein the focal length camera module includes one
Third images main body, a third connector and a third connector, wherein the third connector is located at third camera shooting master
Between body and the third connector and it is electrically connected to the third camera shooting main body and the third connector, wherein described
It includes a third lens unit and a third photosensory assembly that third, which images main body, and wherein light is after the third lens unit
Reach the third photosensory assembly, wherein the third connector is arranged at the third camera lens of the focal length camera module
One end of the unit and third connector is electrically connected to the third lens unit and the third photosensory assembly.
45. multiple aperture imaging system according to claim 43, wherein the wide-angle imaging mould group includes one first camera shooting
Main body, one first connector and one first connector, wherein first connector is located at the first camera shooting main body and described
Between first connector and it is electrically connected in the first camera shooting main body and first connector, wherein the wide-angle
The first camera shooting main body of camera module is by the least partially overlapped third connector in the focal length camera module
One front.
46. multiple aperture imaging system according to claim 45, wherein first connector and the third connector
It is same a connector.
47. a mobile electronic device characterized by comprising
One electronic equipment ontology and according to any multiple aperture imaging system of the claims 38 to 46, wherein described more
Aperture imaging system is communicatively connected in a network in the electronic equipment ontology.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110290299A (en) * | 2019-06-28 | 2019-09-27 | Oppo广东移动通信有限公司 | Imaging method, device, storage medium and electronic equipment |
CN110351487A (en) * | 2019-08-26 | 2019-10-18 | Oppo广东移动通信有限公司 | Control method, control device, electronic equipment and storage medium |
CN110636193A (en) * | 2019-09-20 | 2019-12-31 | Oppo广东移动通信有限公司 | Camera module and electronic device |
CN112788201A (en) * | 2019-11-07 | 2021-05-11 | 虹软科技股份有限公司 | Image pickup system |
CN112954217A (en) * | 2021-02-25 | 2021-06-11 | 维沃移动通信有限公司 | Electronic equipment and focusing method |
US11353680B2 (en) * | 2018-11-06 | 2022-06-07 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Imaging module, camera assembly, and electronic device |
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US11353680B2 (en) * | 2018-11-06 | 2022-06-07 | Guangdong Oppo Mobile Telecommunications Corp., Ltd. | Imaging module, camera assembly, and electronic device |
CN110290299A (en) * | 2019-06-28 | 2019-09-27 | Oppo广东移动通信有限公司 | Imaging method, device, storage medium and electronic equipment |
CN110351487A (en) * | 2019-08-26 | 2019-10-18 | Oppo广东移动通信有限公司 | Control method, control device, electronic equipment and storage medium |
CN110636193A (en) * | 2019-09-20 | 2019-12-31 | Oppo广东移动通信有限公司 | Camera module and electronic device |
CN110636193B (en) * | 2019-09-20 | 2021-08-06 | Oppo广东移动通信有限公司 | Camera module and electronic device |
CN112788201A (en) * | 2019-11-07 | 2021-05-11 | 虹软科技股份有限公司 | Image pickup system |
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