CN204993579U - Many camera lenses module disjunctor support and many camera lenses module of making a video recording of making a video recording - Google Patents

Abstract

The utility model provides a many camera lenses module disjunctor support and many camera lenses module of making a video recording of making a video recording, many camera lenses are made a video recording the module and are included two at least camera lens subassemblies, two at least sensitization subassemblies and integrated into one piece's camera lens more than the module disjunctor support of making a video recording, and it has one and goes up lateral part and lateral part once, every the camera lens subassembly connect respectively in many camera lenses module disjunctor support of making a video recording go up the lateral part, every the sensitization subassembly connect respectively in many camera lenses module disjunctor support of making a video recording lower lateral part, wherein the camera lens subassembly lies in the sensitization route of sensitization subassembly through such method, can be overcome deviations such as position, angle appear when connecting every independent support in prior art easily between every support technical defect, thereby guarantee the make a video recording formation of image quality of module of many camera lenses.

Description

Many camera lenses camera module disjunctor support and many camera lenses camera module

Technical field

The utility model relates to a kind of multi-lens optical imaging device, particularly one many camera lenses camera module disjunctor support and many camera lenses camera module.

Background technology

At present, the all increasingly integrated more function of most electronic product, this trend makes product transboundary emerge in an endless stream, and such as by forming one after initial being highly integrated of communication equipment, mobile phone integrates that communication, shooting, online, navigation etc. are diversified, the mobile electronic device of the function of three-dimensional.

In recent years, be applied to the appearance of the social software of mobile electronic device along with micro-letter etc. and popularize, a kind of interpersonal new communication way start occur, such as micro-letter is proposed the function of circle of friends, it allows user by the photo of the camera module shooting by being configured at mobile electronic device, the Imaging data releases such as video out, carry out commenting on or putting praising after the content issued user for good friend, this behavior changes interpersonal communication way to a great extent, and this formation facilitate information interpersonal transmission with exchange.But, the camera module being configured in mobile electronic device is at present single-lens camera module mostly, and this single-lens camera module is the demand that all cannot meet the quality of image that user takes for mobile electronic device in the quality or effect of the image of shooting.

Occurred and ever more popular be have the camera module more than a camera lens, such as twin-lens camera module, twin-lens camera module provides the style of shooting of apish eyes structure, and all many-sides such as this twin-lens camera module is taken with scanning, hand gesture location identification, color fidelity, rapid focus, panorama deeply in 3D shooting, background blurring shooting have the performance more outstanding than single-lens camera module, therefore, the important directions of the development being camera module industry is from now on had more than the camera module of a camera lens.In the process utilizing twin-lens camera module filmed image, twin-lens camera module utilizes two imaging modules with differences in spatial location to obtain image from two positions respectively, then, after the Image compounding according to image combining method, two imaging modules taken respectively, the final image of many camera lenses camera module is obtained.Be understandable that, in this process, the consistency of the image effect such as resolving power, shading, color of each imaging modules of many camera lenses camera module, and in level, deviate that is vertical, longitudinally three directions, be the important indicator of the image quality weighing twin-lens camera module.

But current stage manufacture, the technique of assembling twin-lens camera module and the structure of twin-lens camera module cannot ensure the image quality of twin-lens camera module all far away.Fig. 1 shows the twin-lens camera module of prior art, and it comprises a wiring board 10P, two stands 20P and two image-forming module 30P, and each described image-forming module 30P comprises a motor lens assembly 31P respectively.Each described support 20P is positioned at the homonymy of described wiring board 10P individually, and each described support 20P is linked together by described wiring board 10P, each described motor lens assembly 31P is separately positioned on each described support 20P, to be supported by each described support 20P.Be understandable that, from the packaging technology of the described twin-lens camera module of prior art, each described support 20P is mounted on described wiring board 10P individually, thus the more difficult to govern control such as size, position between each described support 20P can be caused, to such an extent as to make the size between each described twin-lens camera module support, the isoparametric consistency in position poor.From the structure of the described twin-lens camera module of prior art, each described support 20P independently, and each described support 20P connects by means of only described wiring board 10P, because described wiring board 10P selects PCB usually, thus make wiring board 10P itself is comparatively soft and easily deformable, at this moment, the rigidity of the entirety of described twin-lens camera module is difficult to ensure, when described twin-lens camera module is assembled complete after use procedure in, such structure easily causes each element of described image-forming module 30P, relative size such as between described motor lens assembly 31P is unstable, position of related features is large, and the optical axis of each described image-forming module 30P easily departs from the generation of the problems such as default position, once any one in these situations occurs, the image quality of described twin-lens camera module is given in capital, the final imaging effect of such as Image compounding etc. brings uncontrollable factor or larger adverse effect.Locate each described support 20P if adopted in the mode of the side of described wiring board 10P attachment reinforcing element, then the thickness of described twin-lens camera module can be caused to increase, and this mode is also worthless.

In addition, at described twin-lens camera module by the process that uses, described image-forming module 30P can produce a large amount of heats, the accumulation of these heats can cause described wiring board 10P to produce deformation because of being heated, once there is deformation in described wiring board 10P, then must be forced between each described support 20P that is mounted on individually on described wiring board 10P change the position when assembling, now, also can by synchronous change, and be caused incalculable consequence to described twin-lens camera module by the position of each described image-forming module 30P of each described support 20P support.

Utility model content

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein said many camera lenses camera module comprises the integrated camera module of camera lens more than disjunctor support, at least two lens assemblies and at least two photosensory assemblies, the each described lens assembly of described many camera lenses camera module disjunctor stent support and each described photosensory assembly, and integrated described many camera lenses camera module disjunctor support can avoid the photosensitive path of each described lens assembly to occur relative tilt, thus ensure the consistency of described many camera lenses camera module.

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein integrated described many camera lenses camera module disjunctor support does not need each independent support to link together, thus described many camera lenses camera module disjunctor support prevention produces position of related features between adjacent described lens assembly, and then be conducive to the image quality improving described many camera lenses camera module.

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein integrated described many camera lenses camera module disjunctor support does not need to use other the element such as such as wiring board to connect, thus in the process using described many camera lenses camera module disjunctor support to participate in the described many camera lenses camera module of assembling and to be transported and to use at described many camera lenses camera module, described many camera lenses camera module disjunctor support can not produce distortion, thus ensures the image quality of described many camera lenses camera module.

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein said photosensory assembly provides a wiring board, and described wiring board there is no need for connecting each independent support, thus when designing described many camera lenses camera module, described wiring board can be integrated in a sensitive chip or use thinner specification, such as described wiring board is FPC wiring board, by such mode, the thickness of described many camera lenses camera module can be reduced, and then make described many camera lenses camera module can be applied to the lightening mobile electronic device of pursuit.

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein in the process of the described many camera lenses camera module of assembling, integrated described many camera lenses camera module disjunctor support does not need multiple independent support to connect, thus the number of assembling steps of described many camera lenses camera module can be simplified, and then improve the packaging efficiency of described many camera lenses camera module.

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein said many camera lenses camera module disjunctor support comprises a connection body and two stands body, each described rack body extends the both sides of described connection body integratedly, and each described rack body is respectively used to connect each described lens assembly and each described photosensory assembly, described many camera lenses camera module disjunctor support can ensure that the central axis of each described rack body is parallel to each other, thus stop the photosensitive path of adjacent described lens assembly to occur the phenomenon of deflection.

An object of the present utility model is to provide a kind of many camera lenses camera module disjunctor support and many camera lenses camera module, wherein in the process of the described many camera lenses camera module of assembling, described many camera lenses camera module disjunctor support stops the sensitive chip of described photosensory assembly and other electronic devices and components to be in same encapsulated space, by such mode, the photosurface of sensitive chip described in the contaminants such as welding slag, dust that described electronic devices and components surface can be stoped to drop, thus be conducive to avoiding the photosurface of described sensitive chip to occur dirty bad point.

In order to achieve the above object, the utility model provides a kind of many camera lenses camera module, and it comprises:

At least two lens assemblies;

At least two photosensory assemblies; And

The integrated camera module of camera lens more than disjunctor support, it has a upper lateral part and a following side, each described lens assembly is connected to the described upper lateral part of described many camera lenses camera module disjunctor support, each described photosensory assembly is connected to the described following side of described many camera lenses camera module disjunctor support, and wherein said lens assembly is positioned at the photosensitive path of described photosensory assembly.

According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support comprises at least one connection body and at least two stands body, each described rack body extends described at least one and connects body, and each described rack body supports each described lens assembly and each described photosensory assembly respectively.

According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support comprises a described connection body and two described rack bodies, and each described rack body symmetrically and extend described connection body integratedly.

According to a preferred embodiment of the present utility model, each described rack body has a light channel, one first encapsulation groove and one second encapsulation groove respectively, described first encapsulation groove and described second encapsulation groove are communicated in described light channel respectively, and described lens assembly corresponds to the described upper lateral part that described first encapsulation groove is connected to described many camera lenses camera module disjunctor support, described photosensory assembly corresponds to the described following side that described second encapsulation groove is connected to described many camera lenses camera module disjunctor support.

According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support has at least two light channels, at least two first encapsulation grooves and at least two second encapsulation grooves, each described first encapsulation groove is connected with each described light channel respectively with each described second encapsulation groove, and described lens assembly corresponds to the described upper lateral part that described first encapsulation groove is connected to described many camera lenses camera module disjunctor support, described photosensory assembly corresponds to the described following side that described second encapsulation groove is connected to described many camera lenses camera module disjunctor support

According to a preferred embodiment of the present utility model, each described connection body comprises a junction and a fixed part respectively, described fixed part extends described rack body, described connecting portion extends the inner side of described fixed part, and the gauge of described connecting portion is less than the gauge of described fixed part, thus at the thickness direction of described many camera lenses camera module, the both sides of described connecting portion form described first encapsulation groove and described second encapsulation groove respectively.

According to a preferred embodiment of the present utility model, each described rack body comprises a supporting part respectively, described supporting part extends the inner side of described connecting portion, and described supporting part forms described light channel, the gauge of described supporting part is less than the gauge of described connecting portion, thus at the thickness direction of described many camera lenses camera module, the sidepiece of described connecting portion forms a step.

According to a preferred embodiment of the present utility model, described many camera lenses camera module comprises at least two filter elements further, and described filter element is arranged at the described step that described supporting part is formed.

According to a preferred embodiment of the present utility model, described step and described first encapsulation slot are in the homonymy of described many camera lenses camera module disjunctor support.

According to a preferred embodiment of the present utility model, described step and described second encapsulation slot are in the homonymy of described many camera lenses camera module disjunctor support.

According to a preferred embodiment of the present utility model, described connection body is provided with an electronic devices and components container cavity, described electronic devices and components container cavity and described first encapsulates groove, described second encapsulation groove is not all communicated with described light channel, each described photosensory assembly comprises a sensitive chip and a wiring board respectively, described sensitive chip is electrically connected on described wiring board, described wiring board comprises electronic devices and components, described wiring board is mounted on the described following side of described many camera lenses camera module disjunctor support, described sensitive chip is packaged in described second encapsulation groove, described electronic devices and components are packaged in described electronic devices and components container cavity.

According to a preferred embodiment of the present utility model, described electronic devices and components container cavity and described second encapsulates slot in the homonymy of described many camera lenses camera module disjunctor support.

According to a preferred embodiment of the present utility model, described wiring board is PCB or FPC wiring board.

According to a preferred embodiment of the present utility model, the line of the central shaft of each described rack body is parallel to or perpendicular to the periphery of described many camera lenses camera module disjunctor support.

According to a preferred embodiment of the present utility model, the distance range between the central shaft of each described rack body is 5mm ~ 200mm.

According to a preferred embodiment of the present utility model, the distance range between the central shaft of each described rack body is 9mm.

According to a preferred embodiment of the present utility model, the material of described many camera lenses camera module disjunctor support is selected from the material group of thermoplastic resin, engineering plastics, metal or alloy composition.

According to a preferred embodiment of the present utility model, the material of described many camera lenses camera module disjunctor support is aluminium alloy or kirsite.

According to a preferred embodiment of the present utility model, the material of described many camera lenses shooting disjunctor module is metal dust or metal dust and non-metal powder mixture.

According to another aspect of the present utility model, the utility model also provides a kind of many camera lenses camera module disjunctor support, and for connecting at least two lens assemblies and at least two photosensory assemblies, wherein said many camera lenses camera module disjunctor support is shaping integratedly.

According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support comprises at least one connection body and at least two stands body, each described rack body extends described at least one and connects body, and each described rack body supports each described lens assembly and each described photosensory assembly respectively.

According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support comprises a described connection body and two described rack bodies, and each described rack body symmetrically and extend described connection body integratedly.

According to a preferred embodiment of the present utility model, each described rack body comprises a fixed part, a junction and a supporting part respectively, described fixed part extends described connection body, described connecting portion is connected to described fixed part and described supporting part, and wherein said supporting part is provided with a light channel.

According to a preferred embodiment of the present utility model, the gauge of described supporting part is less than the gauge of described connecting portion, thus at the thickness direction of described many camera lenses camera module disjunctor support, the sidepiece of described connecting portion forms a step.

According to a preferred embodiment of the present utility model, the gauge of described connecting portion is less than the gauge of described fixed part, thus at the thickness direction of described many camera lenses camera module disjunctor support, the both sides of described connecting portion form one first encapsulation groove and one second encapsulation groove respectively, and described first encapsulation groove is communicated with described light channel respectively with described second encapsulation groove.

According to a preferred embodiment of the present utility model, the distance range between the central shaft of each described rack body is 5mm ~ 200mm.

According to a preferred embodiment of the present utility model, the material of described many camera lenses camera module disjunctor support is selected from the material group of thermoplastic resin, engineering plastics, metal or alloy composition.

According to a preferred embodiment of the present utility model, the line of the central shaft of each described rack body is parallel to or perpendicular to the periphery of described many camera lenses camera module disjunctor support.

According to another aspect of the present utility model, the utility model also provide a kind of prevent many camera lenses camera module each lens assembly and each photosensory assembly produce the method for skew, it is characterized in that, described in prevent offset method from comprising the steps:

A () forms the camera module of camera lens more than disjunctor support; With

B () is connected each described lens assembly and each described photosensory assembly at the upper lateral part of described many camera lenses camera module respectively with following side, wherein said lens assembly is positioned at the photosensitive path of described photosensory assembly.

According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support comprises at least one connection body and at least two stands body, each described rack body extends described at least one and connects body, and each described rack body supports each described lens assembly and each described photosensory assembly respectively.According to a preferred embodiment of the present utility model, described many camera lenses camera module disjunctor support comprises a described connection body and two described rack bodies, and each described rack body symmetrically and extend described connection body integratedly.

Accompanying drawing explanation

Fig. 1 is the cross-sectional schematic of the twin-lens camera module of prior art.

Fig. 2 is the schematic perspective view of the many camera lenses camera module according to a preferred embodiment of the present utility model.

Fig. 3 is the decomposing schematic representation of the many camera lenses camera module according to above preferred embodiment of the present utility model.

Fig. 4 is the cross-sectional schematic of the many camera lenses camera module according to above preferred embodiment of the present utility model.

Fig. 5 A is the schematic perspective view at a visual angle of many camera lenses camera module disjunctor support according to above preferred embodiment of the present utility model.

Fig. 5 B is the schematic perspective view at another visual angle of many camera lenses camera module disjunctor support according to above preferred embodiment of the present utility model.

That the twin-lens camera module of prior art and the rigid of many camera lenses camera module of the present utility model when stressed are simulated and contrasted schematic diagram shown in Fig. 6.

Fig. 7 is the schematic perspective view of the many camera lenses camera module according to another preferred embodiment of the present utility model.

Fig. 8 is the cross-sectional schematic of the many camera lenses camera module according to above preferred embodiment of the present utility model.

Fig. 9 is the schematic perspective view of the many camera lenses camera module disjunctor support according to above preferred embodiment of the present utility model.

The schematic flow sheet of the method for deviation is there is in Figure 10 according to the image-forming module of many camera lenses camera module that prevents of above preferred embodiment of the present utility model.

Embodiment

Below by the utility model is described in further detail with embodiment in conjunction with the drawings, manufacture to enable any those skilled in the art and use the utility model.Embodiment in the following description will be only apparent with amendment thing to this field those skilled in the art as an example.The General Principle defined in the following description will be applicable to other embodiment, substitute, amendment thing, and equivalence is implemented and in application, and do not departed from spirit and scope of the present utility model.

It is the many camera lenses camera module according to a preferred embodiment of the present utility model as shown in Fig. 2 to Fig. 5 B, described many camera lenses camera module can be applied to various electronic equipment, can by the image of described many camera lenses camera module shot object or personage with auxiliary user, such as described many camera lenses camera module can be used to the image datas such as the image of shot object or personage or video.Preferably, described many camera lenses camera module can be applied to a mobile electronic device, and such as described mobile electronic device can be but be not limited to mobile phone or panel computer equipment.

As shown in Figures 2 and 3, described many camera lenses camera module of the present utility model is implemented as a twin-lens camera module in ensuing description for it and sets forth content of the present utility model and advantage.Specifically, described twin-lens camera module can comprise the camera module of camera lens more than disjunctor support 10, two lens assembly 20 and two photosensory assemblies 30, each described lens assembly 20 and each described photosensory assembly 30 are connected by the different sidepieces of described many camera lenses camera module disjunctor support 10 respectively, and each described lens assembly 20 is positioned at the photosensitive path of each described photosensory assembly 30 of correspondence position, and described photosensory assembly 30 can be coupled to described electronic equipment.It will be appreciated by those skilled in the art that, a described lens assembly 20 and a described photosensory assembly 30 can cooperatively interact for filmed image.Particularly, can be accepted to carry out photoelectric conversion by described photosensory assembly 30 after by described lens assembly 20 by the light of object or personage's reflection, in other words, light signal can be converted into the signal of telecommunication by described photosensory assembly 30, and the described signal of telecommunication can be sent to described electronic equipment by described photosensory assembly 30, thus generate the image relevant to object or personage on described electronic equipment.

Described many camera lenses camera module disjunctor support 10 has upper lateral part 101 and a following side 102, and described upper lateral part 101 and the described following side 102 of described many camera lenses camera module disjunctor support 10 are corresponding, each described lens assembly 20 is all connected to the described upper lateral part 101 of described many camera lenses camera module disjunctor support 10, and each described photosensory assembly 30 is all connected to the described following side 102 of described many camera lenses camera module disjunctor support 10.It is worth mentioning that, as shown in Figure 4, define the described upper lateral part 101 that described twin-lens camera module is described twin-lens camera module disjunctor support 10 near the side of the object that is taken or portrait when using, accordingly, define the described following side 102 that described twin-lens camera module is described many camera lenses camera module disjunctor support 10 away from the side of the object be taken or portrait when using, therefore be understandable that, when described twin-lens camera module is applied to the mobile electronic devices such as mobile phone and is used by hand-held mode by user, described upper lateral part 101 and the described following side 102 of described many camera lenses camera module disjunctor support 10 can not have upper and lower relation on locus yet, but context.

Described many camera lenses camera module disjunctor support 10 comprises a connection body 11 and two stands body 12, each described rack body 12 extends described connection body 11 integratedly, and each described connection body 12 is respectively used to support each described lens assembly 20 and each described photosensory assembly 30.What it will be appreciated by those skilled in the art that is, in described twin-lens camera module of the present utility model, described connection body 11 and each described rack body 12 of described many camera lenses camera module disjunctor support 10 are shaping integratedly, thus described many camera lenses camera module disjunctor support 10 that the utility model provides can overcome prior art by connect each independently support time between each support, easily there is position, the technological deficiency of the deviations such as angle, and then, described many camera lenses camera module disjunctor support 10 can avoid the photosensitive path of each described lens assembly 20 and each described photosensory assembly 30 to occur the situation of relative tilt, to ensure consistency and the image quality of described twin-lens camera module.

At one preferably in execution mode of the present utility model, each described lens assembly 20 can comprise an optical lens 21 respectively, and each described optical lens 21 can be directly connected in each described rack body 12 of described many camera lenses camera module disjunctor support 10.That is, in this embodiment, described lens assembly 20 is tight shot assemblies, namely the focal length of described lens assembly 20 cannot freely be adjusted, what it will be appreciated by those skilled in the art that is, described optical lens 21 described by the utility model can be directly connected in described rack body 12, comprises described optical lens 21 is connected to described rack body 12 situation by a housing.And of the present utility model another preferably in execution mode, each described camera lens lens assembly 20 can also comprise a CD-ROM drive motor 22 respectively, each described CD-ROM drive motor 22 is connected to each described rack body 12 of described many camera lenses camera module disjunctor support 10, described optical lens 21 can be drivingly coupled to described CD-ROM drive motor 22, thus described CD-ROM drive motor 22 can drive described optical lens 21 to move along the photosensitive path of described photosensory assembly 30, to adjust the focal length of described lens assembly 20.That is, in this embodiment, described lens assembly 20 is zoom lens assembly, namely the focal length of described lens assembly 20 can be adjusted, such as user, when using described twin-lens camera module filmed image, can adjust shooting effect by the focal length adjusting described lens assembly 20.

In addition, each described photosensory assembly 30 can comprise a sensitive chip 31 respectively, the photosurface of described sensitive chip 31 is towards the described optical lens 21 of described lens assembly 20, and the optical axis of described optical lens 21 is perpendicular to the photosurface of described sensitive chip 31, thus light is by after described optical lens 21, can be accepted to carry out follow-up photoelectric conversion by the photosurface of described sensitive chip 31.At one preferably in execution mode of the present utility model, the circuit of each described photosensory assembly 30 can be located at described sensitive chip 31, and each described photosensory assembly 30 is coupled to described electronic equipment by this circuit.And of the present utility model another preferably in execution mode, described photosensory assembly 30 also can comprise a wiring board 32, each described sensitive chip 31 all can be electrically connected on described wiring board 32, described wiring board 32 is coupled to described electronic equipment, thus described wiring board 32 is sent to described electronic equipment for the described signal of telecommunication that described sensitive chip 31 is carried out photoelectric conversion generation.Such as each described sensitive chip 31 can by being mounted on the diverse location of described wiring board 32 to be electrically connected on described wiring board 32, and when encapsulating described twin-lens camera module, described wiring board 32 is connected to described many camera lenses camera module disjunctor support 10, and each described sensitive chip 31 corresponds respectively to each described rack body 12.As an exemplary explanation, after described sensitive chip 31 is mounted on described wiring board 32, described wiring board 32 can be electrically connected on described wiring board 32 by least one group of gold thread.Particularly, described twin-lens camera module provides at least one group of gold thread, and the two ends of described gold thread extend the edge and the described wiring board 32 that are connected to described sensitive chip 31 respectively, thus realize the electrical connection between described sensitive chip 31 and described wiring board 32.However, what it will be appreciated by those skilled in the art that is, described gold thread is not the execution mode of the unique feasible of the described sensitive chip 31 of electrical connection and described wiring board 32, such as in another feasible execution mode of the present utility model, can also be connected together by tin ball bonding between described sensitive chip 31 and described wiring board 32.It is worth mentioning that, in described twin-lens camera module of the present utility model, the connected mode of described sensitive chip 31 and described wiring board 32 does not limit and the content of utility model and scope.

It is worth mentioning that, the described lens assembly 20 of described twin-lens camera module can be zoom lens assembly, that is, after described lens assembly 20 and described photosensory assembly 30 are all connected by described many camera lenses camera module disjunctor support 10, the distance between the described optical lens 21 of described lens assembly 20 and the described sensitive chip 31 of described photosensory assembly 30 can be adjusted.Such as described optical lens 21 can be driven to move along the photosensitive path direction of described sensitive chip 31 by described CD-ROM drive motor 22, thus adjusts the focal length of described twin-lens camera module by changing described optical lens 21 and the mode of the photosurface of described sensitive chip 31.Be understandable that, at one preferably in execution mode of the present utility model, the each described lens assembly 20 of described twin-lens camera module and the relative position of each described photosensory assembly 30 can synchronously be adjusted, and of the present utility model another preferably in execution mode, each described lens assembly 20 of described twin-lens camera module and the relative position of each described photosensory assembly 30 also can be regulated individually.

The each described rack body 12 of described many camera lenses camera module disjunctor support 10 extends the both sides of described connection body 11 integratedly, and each described rack body 12 is respectively used to connect each described lens assembly 20 and each described photosensory assembly 30, to form described twin-lens camera module.The specification of each described rack body 12 can be unrestricted, such as in one embodiment, the size of each described rack body 12 can be inconsistent, and as another preferably execution mode of the present utility model, the specification comprising size of each described rack body 12 is consistent, and namely each described rack body 12 can be the both sides extending described connection body 11 symmetrically.

Further, each described rack body 12 has a light channel 121 respectively to be communicated in described upper lateral part 101 and the described following side 102 of described many camera lenses camera module disjunctor support 10.The each described lens assembly 20 of described twin-lens camera module and each described photosensory assembly 30 can be interactive by the described light channel 121 of each described rack body 12.In other words, in the process of described twin-lens photography module filmed image, light can successively by the described optical lens 21 of described lens assembly 20 and described light channel 121, is follow-uply accepted by the photosurface of the described sensitive chip 31 of described photosensory assembly 30 to carry out photoelectric conversion.It is worth mentioning that, described light channel 121 is located at the center of described rack body 12.

Each described rack body 12 can also comprise an integrated supporting part 122, a junction 123 and a fixed part 124, and described light channel 121 is located at described supporting part 122.Be understandable that, described supporting part 122 is positioned at the inside of described rack body 12, and described fixed part 124 is positioned at the outside of described rack body 12, and described connecting portion 123 is for connecting described supporting part 122 and described fixed part 124.In other words, described supporting part 122, described connecting portion 123 and described fixed part 124 are arranged along the interior of described rack body 12.

At the photosensitive path direction of described sensitive chip 31, the gauge of described supporting part 122 is less than the gauge of described connecting portion 123, thus described rack body 12 forms a step 1221 in the position of described supporting part 122 correspondence.Described twin-lens camera module also comprises two filter elements 40, and described filter element 40 is arranged on the described step 1221 that described supporting part 122 is formed, to be supported by described supporting part 122.It is worth mentioning that, the position of the described step 1221 that described supporting part 122 is formed can limit, the described step 1221 that such as described supporting part 122 is formed can at the described upper lateral part 101 of described many camera lenses camera module disjunctor support 10, also can in the described following side 102 of described many camera lenses camera module disjunctor support 10.

Equally at the photosensitive path direction of described sensitive chip 31, the gauge of described connecting portion 123 is less than the gauge of described fixed part 124, to form one first encapsulation groove 125 and one second encapsulation groove 126 of described rack body 12 respectively in the position of described connecting portion 123 correspondence, wherein said first encapsulation groove 125 is positioned at the described upper lateral part 101 of described many camera lenses camera module disjunctor support 10, and described second encapsulation groove 126 is positioned at the described following side 102 of described many camera lenses camera module disjunctor support 10.It will be appreciated by those skilled in the art that, described first encapsulation groove 125 and described second encapsulation groove 126 are communicated in described light channel 121 respectively.The described first encapsulation groove 125 that described lens assembly 20 can correspond to described rack body 12 is packaged in described many camera lenses camera module disjunctor support 10, and the described second encapsulation groove 126 that described photosensory assembly 30 can correspond to described rack body 12 is packaged in described many camera lenses camera module disjunctor support 10.

Specifically, the side of described lens assembly 20 can be corresponded to described first encapsulation groove 125 and is packaged in described rack body 12, such as this side of described lens assembly 20 can be provided with at least one reference column, described reference column extends to described first encapsulation groove 125, by such mode, realize the encapsulation of described lens assembly 20 and described rack body 10.As a preferred example, the described wiring board 32 of described photosensory assembly 30 can be mounted on the described fixed part 124 of described rack body 12, the described sensitive chip 31 being mounted on described wiring board 32 to be packaged in the described second encapsulation groove 126 of described rack body 12, and make the optical axis of the described optical lens 21 of described lens assembly 20 perpendicular to the photosurface of the described sensitive chip 31 of described photosensory assembly 30.It is worth mentioning that, in another exemplary explanation of the present utility model, the surrounding of the described sensitive chip 31 of described photosensory assembly 30 can extend directly to be packaged in described fixed part 124, and described sensitive chip 31 is positioned at described second encapsulation groove 126.

What it will be appreciated by those skilled in the art that is, described many camera lenses camera module disjunctor support 10 is integrated, relative to the connected mode forming the support of described twin-lens camera module by each independent support after connection of prior art, described many camera lenses camera module disjunctor support 10 of the present utility model has the advantage of high-lighting.

Specifically, one of advantage of described many camera lenses camera module disjunctor support 10 is, described many camera lenses camera module disjunctor support 10 can overcome the support of the twin-lens camera module of prior art by easily there is the technological deficiency of the deviation such as position, angle during each independent support of connection between each support, occurs the situation of relative tilt in its photosensitive path after encapsulation to avoid described lens assembly 20 and described photosensory assembly 30.

Two of the advantage of described many camera lenses camera module disjunctor support 10 is, described twin-lens camera module of the present utility model is when being subject to violent rocking, the each described rack body 12 extending described connection body 11 integratedly ensures that the relative position of each described lens assembly 20 and each described photosensory assembly 30 can not be changed, and such as the relative position of described lens assembly 20 and described photosensory assembly 30 can be distance, gradient etc.

Three of the advantage of described many camera lenses camera module disjunctor support 10 is, each support of prior art is coupled together by wiring board, in order to ensure the stability of the relative position of each support, the dual-lens camera head camera module of prior art requires that wiring board has certain thickness and hardness, the twin-lens camera module of such as prior art is merely able to use PCB, and this adds the thickness of the twin-lens camera module of prior art undoubtedly.And the described wiring board 32 of described twin-lens camera module of the present utility model does not need to provide the function connecting each support, therefore, the all not requirements of the thickness of described wiring board 32 and hardness, such as in the utility model, described wiring board 32 can be PCB, or there is the FPC wiring board of thinner size, even in another embodiment of described twin-lens camera module of the present utility model, described wiring board 32 can not be needed, but circuit is integrated in described sensitive chip 31, by such mode, greatly can reduce the thickness of described twin-lens module at its photosensitive path direction, thus make described twin-lens camera module can be applied to pursuing lightening described electronic product.

In addition, those skilled in the art it will also be appreciated that, each support of prior art is only connected by wiring board, between adjacent stent, need a reserved space for holding the various electronic devices and components being mounted on wiring board, and in the process used at the twin-lens camera module of prior art, easily distortion is produced after wiring board is heated, and wiring board will inevitably cause the gradient of each support to be changed once produce distortion, to such an extent as to the image quality of the twin-lens camera module of prior art is impacted.

And in the utility model, the described connection body 11 of described many camera lenses camera module disjunctor support 10 also has an electronic devices and components container cavity 111, for holding the electronic devices and components 321 being mounted on described wiring board 32.The described electronic devices and components container cavity 111 of described connection body 11 and the described light channel 121, described first of described rack body 12 encapsulate groove 125 and described second and encapsulate groove 126 and be not communicated with.In the process of the described twin-lens camera module of encapsulation, after described wiring board 32 is mounted on described many camera lenses camera module disjunctor support 10, described electronic devices and components 321 are packaged in the described electronic devices and components container cavity 111 of described connection body 11 individually, by such mode, the pollutants such as the welding slag dropped in the surface of described electronic devices and components 11 or dust can not enter into the described second encapsulation groove 126 of described rack body 12 and pollute the photosurface of the described sensitive chip 31 of the described photosensory assembly 30 of the described second encapsulation groove 126 being packaged in described rack body 12, thus prevent the photosurface of described sensitive chip 31 from occurring the situation of dirty bad point, to improve the image quality of described twin-lens camera module further.

In addition, the described electronic devices and components container cavity 111 of described connection body 11 is formed at the clearance position of adjacent described rack body 12, not only make use of the unnecessary space of described twin-lens camera module, and the described electronic devices and components container cavity 111 of described connection body 11 also prevents the stress of described many camera lenses camera module disjunctor support 10 easily to occur distortion because of concentrating in the position of described connection body 11, thus guarantee the stability of described many camera lenses camera module disjunctor support when being used.

As shown in the figure, the each described rack body 12 of described many camera lenses camera module disjunctor support 10 has a central shaft respectively, and the distance between the central shaft of each described rack body 12 can be 5mm ~ 200mm, preferably, in this embodiment, the distance between the central shaft of each described rack body 12 can be 9mm.In addition, line between the central shaft of each described rack body 12 is parallel or perpendicular to each edge of described many camera lenses camera module disjunctor support 10, thus when described many camera lenses camera module disjunctor support 10 and described lens assembly 20, described photosensory assembly 30 are assembled after the described twin-lens camera module formed is installed in described electronic equipment, the photosensitive path of each described lens assembly 20 and each described photosensory assembly 30 is more easily controlled.

The twin-lens camera module of described twin-lens camera module of the present utility model and prior art is in structure or the difference all having essence on technique effect.The twin-lens camera module of prior art need by two independently support be fixed on wiring board, thus from assembling process, it is consistent that distance between the central shaft of two of the twin-lens camera module of prior art independently supports is difficult to by management and control, and the consistency which results in twin-lens camera module is poor.Structure, two of the twin-lens camera module of prior art independently support be only fixed by wiring board, that is, the twin-lens camera module of prior art take wiring board as benchmark, by two independently support symmetrically fixing in the circuit board, at the twin-lens camera module of prior art by the process that uses, once wiring board creates distortion, position relationship then between two supports must be changed, this impact for the image quality of the twin-lens camera module of prior art is fatal, and in the practical application of the twin-lens camera module of prior art, wiring board is PCB, this wiring board is not enough to support two independently support and lens assembly and photosensory assembly, in addition, PCB is also easily distortion after being heated.In addition, many camera lenses camera module needs more lens assembly and photosensory assembly, and this structure of the support of prior art is more not suitable for many camera lenses camera module of manufacturing more than two supports and two lens assemblies and photosensory assembly.

At one preferably in execution mode of the present utility model, described many camera lenses camera module disjunctor support 10 can be formed by thermoplastic resin material, to strengthen the stability of described many camera lenses camera module disjunctor support 10.Of the present utility model another preferably in execution mode, described many camera lenses camera module disjunctor support 10 can also be formed by engineering plastic materials, can granuloplastic for engineering plastics stream be injected in mould, form described many camera lenses camera module disjunctor support 10, specifically, the material of described many camera lenses camera module disjunctor support 10 can ishiNTB982 engineering plastics or LCP (LiquidCrystalPolymer, liquid crystal polymer) engineering plastics.In addition, described many camera lenses camera module disjunctor support 10 can also be that metal material or alloy material are made, with on the basis of intensity ensureing described many camera lenses camera module disjunctor support 10, improve the thermal diffusivity of described many camera lenses camera module disjunctor support 10, particularly, described many camera lenses camera module disjunctor support 10 can print technique by the mixture of metal dust or metal dust and non-metal powder by Shooting Technique or 3D and form, and such as the material of described many camera lenses camera module disjunctor support 10 can be aluminium alloy or kirsite etc.

It is worth mentioning that, relative to the twin-lens camera module of prior art, described many camera lenses camera module disjunctor support 10 of the present utility model is that described twin-lens camera module provides a kind of heat radiation thinking completely newly, and namely the utility model realizes heat radiation by the described many camera lenses camera module disjunctor support 20 being arranged in the circumference of the described sensitive chip 31 of described photosensory assembly 30.Described many camera lenses camera module disjunctor support has larger area of dissipation on the one hand, so that the radiating effect of described twin-lens camera module can be improved, the heat that the described sensitive chip 31 of described photosensory assembly 30 produces on the other hand does not need by described wiring board 32 or dispels the heat at least partially through described wiring board 32 very much, thus make described wiring board 32 can not produce distortion because temperature is too high, and do not need the fin at the outside portion of described wiring board 32 attachment auxiliary heat dissipation, thus its thickness can be reduced at the photosensitive path direction of described twin-lens camera module, be specially adapted to make described twin-lens camera module pursue lightening described electronic equipment.

That twin-lens camera module and the rigid of described twin-lens camera module of the present utility model when stressed of prior art simulates comparison schematic diagram as shown in Figure 6.What it will be appreciated by those skilled in the art that is, relative to the support of the twin-lens camera module of prior art by the mode of line bonding, described many camera lenses camera module disjunctor support 10 of described twin-lens camera module of the present utility model adopts integral structure, thus its rigidity obtains obvious reinforcement.By testing twin-lens camera module and the integral rigidity of described twin-lens camera module of the present utility model when stressed of prior art, it will be appreciated by those skilled in the art that, when causing the twin-lens camera module of prior art to produce same distortion with twin-lens camera module of the present utility model, the external force putting on described twin-lens camera module of the present utility model obviously will be greater than the external force of the twin-lens camera module putting on prior art.Such as in figure 6, the optical axis of the optical axis of the twin-lens camera module of prior art and described many camera lenses camera module of the present utility model is made to produce the change of 0.5 ° of angle respectively, in the process of test, apply external force to the support being in right side in Fig. 6, to change by the optical axis angle of the lens assembly of the stent support on right side in Fig. 6, thus the deformation quantity of the position on the right side of support is made to be greater than the deformation quantity of the position on the left of support.The result of test is, externally applied forces is needed to be 1.17N when causing the optical axis of the twin-lens camera module of prior art to produce the change of 0.5 ° of angle, and need externally applied forces to be 11.8N when causing the optical axis of twin-lens camera module of the present utility model to produce the change of 0.5 ° of angle, the result of test shows, the integral rigidity of described twin-lens camera module of the present utility model is far longer than the integral rigidity of the twin-lens camera module of prior art, thus makes described twin-lens camera module of the present utility model have more stability.

What it will be appreciated by those skilled in the art that is, foregoing description of the present utility model is implemented as described twin-lens camera module for described many camera lenses camera module and is described and sets forth content of the present utility model and scope, and in the application of reality, described many camera lenses camera module disjunctor support 10 can also provide the described rack body 12 of more than three or three, thus make described many camera lenses camera module be not limited to described twin-lens camera module, such as described many camera lenses camera module can form three-lens camera module, four-barrel camera module etc.This is that the twin-lens camera module of prior art is unexpected, and the structure E of the twin-lens camera module of prior art cannot provide any technology enlightenment of described many camera lenses camera module of the present utility model, therefore, described many camera lenses camera module of the present utility model has significant progressive.

Such as in this exemplary description as shown in Figure 7 to 9, described many camera lenses camera module can comprise a described lens assembly 20 of integrated described 10, six, many camera lenses camera module disjunctor support and six described photosensory assemblies 30, wherein said many camera lenses camera module disjunctor support 10 provides six described rack bodies 12, each described rack body 12 is respectively used to support each described lens assembly 20 and each described photosensory assembly 30, thus forms described many camera lenses camera module.It is worth mentioning that, each described photosensory assembly 30 of each described lens assembly 20 and correspondence position arranges in array, forms an array camera module to make described many camera lenses camera module.

It is worth mentioning that, as shown in Figure 10, the utility model also provides a kind of method preventing each described lens assembly 20 of many camera lenses camera module and each described photosensory assembly 30 from skew occurring, and the wherein said offset method that prevents comprises the steps:

A () forms the camera module of camera lens more than disjunctor support 10; With

B () is connected each described lens assembly 20 and each described photosensory assembly 30 at the upper lateral part of described many camera lenses camera module disjunctor support 10 respectively with following side, wherein each described lens assembly 20 is positioned at the photosensitive path of each described photosensory assembly 30.

Those skilled in the art should understand shown in accompanying drawing to be only to example of the present utility model instead of restriction with the utility model embodiment described above.

Can see that the utility model object can fully effectively be completed thus.For explaining that this embodiment of the utility model function and structure principle has been absolutely proved and described, and the utility model is not by the restriction based on the change on these embodiment basis.Therefore, the utility model comprises all modifications be encompassed within appended claims book claimed range and spirit.

Claims (24)

1. the camera module of camera lens more than, is characterized in that, comprising:

At least two lens assemblies;

At least two photosensory assemblies; And

The integrated camera module of camera lens more than disjunctor support, it has a upper lateral part and a following side, each described lens assembly is connected to the described upper lateral part of described many camera lenses camera module disjunctor support, each described photosensory assembly is connected to the described following side of described many camera lenses camera module disjunctor support, and wherein said lens assembly is positioned at the photosensitive path of described photosensory assembly.

2. many camera lenses camera module according to claim 1, wherein said many camera lenses camera module disjunctor support comprises at least one connection body and at least two stands body, each described rack body extends described at least one and connects body, and each described rack body supports each described lens assembly and each described photosensory assembly respectively.

3. many camera lenses camera module according to claim 2, wherein said many camera lenses camera module disjunctor support comprises a described connection body and two described rack bodies, and each described rack body symmetrically and extend described connection body integratedly.

4. many camera lenses camera module according to claim 3, wherein each described rack body has a light channel, one first encapsulation groove and one second encapsulation groove respectively, described first encapsulation groove and described second encapsulation groove are communicated in described light channel respectively, and described lens assembly corresponds to the described upper lateral part that described first encapsulation groove is connected to described many camera lenses camera module disjunctor support, described photosensory assembly corresponds to the described following side that described second encapsulation groove is connected to described many camera lenses camera module disjunctor support.

5. many camera lenses camera module according to claim 1, wherein said many camera lenses camera module disjunctor support has at least two light channels, at least two first encapsulation grooves and at least two second encapsulation grooves, each described first encapsulation groove is connected with each described light channel respectively with each described second encapsulation groove, and described lens assembly corresponds to the described upper lateral part that described first encapsulation groove is connected to described many camera lenses camera module disjunctor support, described photosensory assembly corresponds to the described following side that described second encapsulation groove is connected to described many camera lenses camera module disjunctor support

6. many camera lenses camera module according to claim 4, wherein each described connection body comprises a junction and a fixed part respectively, described fixed part extends described rack body, described connecting portion extends the inner side of described fixed part, and the gauge of described connecting portion is less than the gauge of described fixed part, thus at the thickness direction of described many camera lenses camera module, the both sides of described connecting portion form described first encapsulation groove and described second encapsulation groove respectively.

7. many camera lenses camera module according to claim 6, wherein each described rack body comprises a supporting part respectively, described supporting part extends the inner side of described connecting portion, and described supporting part forms described light channel, the gauge of described supporting part is less than the gauge of described connecting portion, thus at the thickness direction of described many camera lenses camera module, the sidepiece of described connecting portion forms a step.

8. many camera lenses camera module according to claim 7, comprises at least two filter elements further, and described filter element is arranged at the described step that described supporting part is formed.

9. many camera lenses camera module according to claim 7, wherein said step and described first encapsulation slot are in the homonymy of described many camera lenses camera module disjunctor support.

10. many camera lenses camera module according to claim 7, wherein said step and described second encapsulation slot are in the homonymy of described many camera lenses camera module disjunctor support.

11. many camera lens photography modules according to claim 7, wherein said connection body is provided with an electronic devices and components container cavity, described electronic devices and components container cavity and described first encapsulates groove, described second encapsulation groove is not all communicated with described light channel, each described photosensory assembly comprises a sensitive chip and a wiring board respectively, described sensitive chip is electrically connected on described wiring board, described wiring board comprises electronic devices and components, described wiring board is mounted on the described following side of described many camera lenses camera module disjunctor support, described sensitive chip is packaged in described second encapsulation groove, described electronic devices and components are packaged in described electronic devices and components container cavity.

12. many camera lenses camera modules according to claim 11, wherein said electronic devices and components container cavity and described second encapsulates slot in the homonymy of described many camera lenses camera module disjunctor support.

13. many camera lenses camera modules according to claim 11, wherein said wiring board is PCB or FPC wiring board.

14. many camera lenses camera modules according to claim 7, wherein the line of the central shaft of each described rack body is parallel to or perpendicular to the periphery of described many camera lenses camera module disjunctor support.

15. many camera lenses camera modules according to claim 7, the distance range between the central shaft of wherein each described rack body is 5mm ~ 200mm.

16. many camera lenses camera modules according to claim 15, the distance range between the central shaft of wherein each described rack body is 9mm.

The disjunctor of camera lens camera module more than 17. 1 kinds support, for connecting at least two lens assemblies and at least two photosensory assemblies, it is characterized in that, described many camera lenses camera module disjunctor support is shaping integratedly.

18. many camera lenses camera module disjunctor supports according to claim 17, wherein said many camera lenses camera module disjunctor support comprises at least one connection body and at least two stands body, each described rack body extends described at least one and connects body, and each described rack body supports each described lens assembly and each described photosensory assembly respectively.

19. many camera lenses camera module disjunctor supports according to claim 18, wherein said many camera lenses camera module disjunctor support comprises a described connection body and two described rack bodies, and each described rack body symmetrically and extend described connection body integratedly.

20. many camera lenses camera module disjunctor supports according to claim 19, wherein each described rack body comprises a fixed part, a junction and a supporting part respectively, described fixed part extends described connection body, described connecting portion is connected to described fixed part and described supporting part, and wherein said supporting part is provided with a light channel.

21. many camera lenses camera module disjunctor supports according to claim 20, the gauge of wherein said supporting part is less than the gauge of described connecting portion, thus at the thickness direction of described many camera lenses camera module disjunctor support, the sidepiece of described connecting portion forms a step.

22. many camera lenses camera module disjunctor supports according to claim 19 or 20, the gauge of wherein said connecting portion is less than the gauge of described fixed part, thus at the thickness direction of described many camera lenses camera module disjunctor support, the both sides of described connecting portion form one first encapsulation groove and one second encapsulation groove respectively, and described first encapsulation groove is communicated with described light channel respectively with described second encapsulation groove.

23. many camera lenses camera module disjunctor supports according to claim 22, the distance range between the central shaft of wherein each described rack body is 5mm ~ 200mm.

24. many camera lenses camera module disjunctor supports according to claim 23, wherein the line of the central shaft of each described rack body is parallel to or perpendicular to the periphery of described many camera lenses camera module disjunctor support.