CN209327646U - Multigroup group camera lens, camera module and mobile electronic device - Google Patents

Abstract

The utility model provides a multigroup group camera lens, camera module and electronic equipment, wherein the multigroup group camera lens includes multiple eyeglasses and at least two load bearing components, one first load bearing component and one second load bearing component, eyeglass described in wherein at least one is installed in first load bearing component to form independent one first group's camera lens, eyeglass described in wherein at least one is installed in second load bearing component to form independent one second group's camera lens, and eyeglass described in wherein at least one is a cissing eyeglass.

Description

Multigroup group camera lens, camera module and mobile electronic device

Technical field

The utility model relates to optical technical field more particularly to multigroup group camera lenses, camera module and electronic equipment.

Background technique

Mobile electronic device has whether all obtained more and more applications in daily life or at work, related Technology is all in development at full speed.Mobile electronic device starts to carry more and more functions to meet the needs of users, and this One trend still continues.

Camera module is a highly important component of mobile electronic device, can obtain video or image letter Breath, application are very extensive.One important performance of camera module is pickup quality, is wanted to meet user for pickup quality It asks, high pixel, small size, large aperture are the irreversible trend of existing camera module.For mobile electronic device, camera shooting The size of mould group is bigger, and the installation space for needing to provide for it is more, it is clear that mobile electronic device needs reserved installation space It is more, more it is unfavorable for the extension of mobile electronic device function itself, because the space that can be provided will become smaller.

Camera module mainly includes lens assembly and photosensory assembly, and for receiving light, photosensory assembly is used for lens assembly It is photosensitive to carry out photoelectric conversion.The size of current lens assembly and the size of photosensory assembly have approached under current technique One limit, further size reduction are very high and very difficult for technologic requirement, may also need to spend not Necessary cost.

The image quality of camera module is related with numerous components, for example has with the performance of a photosensitive element of photosensory assembly Pass is related with the number of lenses of camera lens related with the craft precision that can achieve when manufacture, therefore the development of camera module needs Various cooperations are wanted to develop.Therefore the camera shooting mould is reduced under the premise of how to guarantee the pickup quality of the camera module The size of group is a problem to be solved.

Utility model content

The one of the utility model is designed to provide a multigroup group camera lens, camera module and electronic equipment, wherein described Camera module can guarantee image quality while size reduction.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute The size for stating the multigroup group camera lens of camera module can be reduced.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute Stating multigroup group camera lens includes an at least eyeglass and an at least lens barrel, wherein the quality of the eyeglass can be reduced, thus corresponding It can be reduced in the size of the lens barrel of the eyeglass.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute The size for stating lens barrel can be reduced, so that the overall dimension of the eyeglass and the lens barrel can be reduced.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute A non-circular structure can be designed to from a round either ellipsoidal structure by stating eyeglass, to reduce the size of the camera lens.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute Stating multigroup group camera lens includes one first group's camera lens and second group camera lens, wherein first group camera lens and described the Can be adjusted relatively between two group's camera lenses, thus solve the non-circular eyeglass can not with the corresponding lens barrel into The problem of row adjusts relatively.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein dividing Relative rotating angle energy between the non-circular eyeglass and the non-circular eyeglass of the lens barrel that Wei Yu be not different It is enough adjusted, to reach a preferable performance.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein non- Relative position between the circular eyeglass and the circular eyeglass can be adjusted.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein non- The circular eyeglass and the non-circular eyeglass can be adjusted simultaneously.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein non- The circular eyeglass and the circular eyeglass can be adjusted simultaneously.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein non- The circular eyeglass can be independently adjusted.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute An entirety can be assembled into after the adjustment by stating multigroup group camera lens, and a complete camera shooting mould is then assembled into a photosensory assembly Group.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute It states first group's camera lens, second group camera lens and the photosensory assembly to be adjusted jointly, it is complete to be then assembled into one Camera module.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein non- The circular eyeglass can be used cooperatively with conventional eyeglass.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute The each eyeglass for stating camera module can be replaced by the non-circular eyeglass.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein non- The circular eyeglass can be located at first group camera lens, can also be located at second group camera lens.

The another object of the utility model is to provide a multigroup group camera lens, camera module and its electronic equipment and assembling side Method, wherein the space that the camera module occupies the electronic equipment is also corresponding after the size of the camera module is reduced It reduces.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute Stating at least one eyeglass forward in camera module is cissing eyeglass, is conducive to reduce the camera module relative to the electricity The screen accounting of sub- equipment.

The another object of the utility model is to provide a multigroup group camera lens, camera module and electronic equipment, wherein institute Camera module is stated particularly suitable for being assemblied in the electronic equipment for having a display screen.

One side according to the present utility model, the utility model provide a multigroup group camera lens comprising multiple eyeglasses and At least two load bearing components, one first load bearing component and one second load bearing component, eyeglass described in wherein at least one are installed in institute The first load bearing component is stated to form independent one first group's camera lens, eyeglass described in wherein at least one is installed in described second For load bearing component to form independent one second group's camera lens, eyeglass described in wherein at least one is a cissing eyeglass.

An embodiment according to the present utility model, at least one the described eyeglass for being installed in first load bearing component are The cissing eyeglass.

An embodiment according to the present utility model, at least one the described eyeglass for being installed in second load bearing component are The cissing eyeglass.

An embodiment according to the present utility model, at least one the described eyeglass for being installed in first load bearing component are The cissing eyeglass, and at least one the described eyeglass for being installed in second load bearing component is the cissing eyeglass.

An embodiment according to the present utility model, the trimming camera lens have one week along side, wherein the side includes An at least string side.

An embodiment according to the present utility model, the side further comprise an at least round edge, wherein the round edge and The string side is connected with each other, and the round edge is different with the curvature on the string side.

An embodiment according to the present utility model, the string side are a straightways.

The quantity of an embodiment according to the present utility model, the string side and the round edge is one respectively.

The quantity of an embodiment according to the present utility model, the string side and the round edge is two respectively, and described in one The two sides on string side are connected to a round edge.

An embodiment according to the present utility model, the cissing eyeglass are integrated injection molding formation.

Another aspect according to the present utility model, the utility model provide a camera module comprising:

According to above-mentioned multigroup group camera lens；With

One photosensory assembly, wherein the multigroup group camera lens is located at the photosensitive path of the photosensory assembly, wherein the cissing Eyeglass includes a central area and a fringe region, and the fringe region is located on the outside of the central area, passes through the center At least partly light in region is projeced into the photosensory assembly, wherein the string side is located at the fringe region.

An embodiment according to the present utility model, the camera module includes a driving element, wherein the multigroup group mirror Head is installed in the driving element, and the driving element is installed in the photosensory assembly.

Another aspect according to the present utility model, the utility model provide a camera module comprising:

According to above-mentioned multigroup group camera lens；With

One photosensory assembly, wherein the multigroup group camera lens is located at the photosensitive path of the photosensory assembly, wherein the cissing Eyeglass includes a central area and a fringe region, wherein the fringe region is located on the outside of the central area, wherein described Central area further comprises an effective coverage and a non-active area, wherein the non-active area is located at the effective coverage Outside is projeced into a photosensitive region of the photosensory assembly by the light of the effective coverage, wherein the string side is located at The non-active area.

An embodiment according to the present utility model, the camera module includes a driving element, wherein the multigroup group mirror Head is installed in the driving element, and the driving element is installed in the photosensory assembly.

An embodiment according to the present utility model, the photosensory assembly include a photosensitive element, a circuit board and a microscope base, The photosensitive element is electrically connected to the circuit board, and the microscope base is installed in the circuit board.

Another aspect according to the present utility model, the utility model provide a mobile electronic device comprising:

One electronic equipment ontology；With

An at least camera module, wherein the camera module is arranged at the electronic equipment ontology, wherein the camera shooting Mould group includes:

According to above-mentioned multigroup group camera lens；With

One photosensory assembly, wherein the multigroup group camera lens is located at the photosensitive path of the photosensory assembly.

Another aspect according to the present utility model, the utility model provide a mobile electronic device comprising:

One electronic equipment ontology；With

An at least camera module, wherein the camera module includes a multigroup group camera lens and a photosensory assembly, wherein described Multigroup group camera lens is located at the photosensitive path of the photosensory assembly, wherein the multigroup group camera lens includes one first group's camera lens and one Second group's camera lens, wherein first group camera lens is supported on the photosensory assembly by second group camera lens, Described in first group's camera lens include multiple eyeglasses and one first load bearing component, wherein at least one eyeglass is a cissing mirror Piece, first load bearing component is matched with the cissing eyeglass and supports the cissing eyeglass, wherein the camera module It is arranged at the electronic equipment ontology.

An embodiment according to the present utility model, the cissing camera lens have one week along side, wherein the side includes An at least string side, wherein a side of the string side towards the electronic equipment ontology.

An embodiment according to the present utility model, the side further comprise an at least round edge, wherein the round edge and The string side is connected with each other, and the round edge is different with the curvature on the string side.

An embodiment according to the present utility model, the string side are a straightways.

The quantity of an embodiment according to the present utility model, the string side and the round edge is one respectively.

The quantity of an embodiment according to the present utility model, the string side and the round edge is two respectively, and described in one The two sides on string side are connected to a round edge.

An embodiment according to the present utility model, the cissing eyeglass are integrated injection molding formation.

Detailed description of the invention

Fig. 1 is the schematic diagram of a camera module of a preferred embodiment according to the present utility model.

Fig. 2 is the schematic diagram of a multigroup group camera lens of a preferred embodiment according to the present utility model.

Fig. 3 A is the schematic diagram of a cissing eyeglass of a preferred embodiment according to the present utility model.

Fig. 3 B is the schematic diagram of a cissing eyeglass of a preferred embodiment according to the present utility model.

Fig. 3 C is the schematic diagram of a cissing eyeglass of a preferred embodiment according to the present utility model.

Fig. 3 D is the schematic diagram of a cissing eyeglass of a preferred embodiment according to the present utility model.

Fig. 4 A is the scheme of installation of a multigroup group camera lens of a preferred embodiment according to the present utility model.

Fig. 4 B is the installation process schematic block diagram of a multigroup group camera lens of a preferred embodiment according to the present utility model.

Fig. 5 A is the scheme of installation of a camera module of a preferred embodiment according to the present utility model.

Fig. 5 B is the installation process schematic block diagram of a camera module of a preferred embodiment according to the present utility model.

Fig. 5 C is the installation process schematic block diagram of a camera module of a preferred embodiment according to the present utility model.

Fig. 6 is the schematic diagram of a multigroup group camera lens of a preferred embodiment according to the present utility model.

Fig. 7 is the schematic diagram of a multigroup group camera lens of a preferred embodiment according to the present utility model.

Fig. 8 is the schematic diagram of an electronic equipment of a preferred embodiment according to the present utility model.

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.

With the development of intelligent electronic device, the requirement for camera module is higher and higher, for example, smart phone towards Ultra-thin, large screen, unchanged, high imaging quality direction are developed.Camera module is made of different components, with height The development of speed, the simplifying of component have almost been accomplished ultimate attainment, and are further developed, in addition to studying each possible improvement of component, It is also contemplated that cooperating improvement relationship between all parts.And one side according to the present utility model, the utility model provide one Multigroup group camera lens can improve the camera lens of camera module, obtain its bodily form under the premise of guaranteeing image quality To reduce；Further, the multigroup group camera lens and other component, such as the structure between photosensory assembly can cooperate, and make The overall dimensions for obtaining camera module are reduced, and outer shape is more consistent, is more suitable for being installed in electronic equipment.

Attached drawing 1 shows a camera module 1 of a preferred embodiment according to the present utility model to attached drawing 3A.Attached drawing 3B is extremely Attached drawing 3D respectively illustrates multiple variant embodiments of cissing eyeglass according to the present utility model.Attached drawing 8 is shown according to this One mobile electronic device 1000 of one preferred embodiment of utility model.

The camera module 1 includes a multigroup group camera lens 10 and a photosensory assembly 20, wherein described 10, multigroup group camera lens In a photosensitive path of the photosensory assembly 20.

Further, the camera module 1 can also include a driving element 30, wherein the driving element 30 is pacified Loaded on the photosensory assembly 20, so that the multigroup group camera lens 10 can be held in the photosensitive path of the photosensory assembly 20. The driving element 30 can be a motor, and the camera module 1 is automatic focusing camera mould group 1.

The multigroup group camera lens 10 can also be directly mounted to the photosensory assembly 20, and the camera module 1 is certain Burnt camera module 1.

The multigroup group camera lens 10 has a lesser size, so that being matched with the described photosensitive of the multigroup group camera lens 10 Component 20 can be designed accordingly as a lesser size, so that the camera module 1 has a lesser size.

Specifically, the multigroup group camera lens 10 includes one first group's camera lens 11 and one second group's camera lens 12, wherein First group camera lens 11 and second group camera lens 12 are cooperated with each other to form a complete optical lens.

First group camera lens 11 is located at second group camera lens, 12 top, to form a complete light system. The optical system of the multigroup group camera lens 10 is corresponding by first group camera lens 11 and second group camera lens 12 Two optical systems are constituted.That is, to a certain extent, first group camera lens 11 and second group camera lens 12 When being respectively individually present, the function of a full lens can not be completed, and works as first group camera lens 11 and described second When group's camera lens 12 cooperates, the full lens that can achieve image quality requirement are constituted.

Further, first group camera lens 11 includes one first load bearing component 111 and at least one first eyeglass, wherein First eyeglass is installed in first load bearing component 111, in order to constitute an independent eyeglass.Second group camera lens 12 include one second load bearing component 121 and at least one second eyeglass, wherein second eyeglass is installed in second carrying Component 121, in order to constitute an independent eyeglass.First eyeglass and second eyeglass can be identical, be also possible to Different, " first " and " second " in this are only the difference for illustrating first eyeglass and second lens position, described First eyeglass belongs to first group camera lens 11, and second eyeglass belongs to second group camera lens 12.

It is understood that in this example, the multigroup group camera lens 10 includes first group camera lens 11 and described Second group's camera lens 12 the two camera lenses.The camera lens number that the multigroup group camera lens 10 includes is not restricted to two, can be three, It is even more.

In this example, the number of first eyeglass is one, and first eyeglass is a cissing eyeglass.Described One load bearing component 111 is a cissing lens barrel.The cissing lens barrel is matched with the cissing eyeglass.

Specifically, at least partly circular edge of first eyeglass is removed, so that first eyeglass Size is relative to original round advantage reduced and bring reduction veiling glare.Further, 111 phase of the first load bearing component Original round lens barrel at least partly circular edge is removed, so that the size of first group camera lens 11 subtracts It is small, so that being matched with the size of second group camera lens 12 of first group camera lens 11 also can accordingly be reduced, from And the size for being matched with the photosensory assembly 20 of the multigroup group camera lens 10 also can accordingly be reduced.

It is understood that the cissing eyeglass and the cissing lens barrel are all for a circular configuration one The part of circular configuration at least partly round edge is removed or is replaced, so that the edge of the cissing eyeglass is not It is a complete circle.It is understood that " cissing " herein refers to that processing a profile is contained in original round shape The structure of shape, say by integral forming process, the description of the cissing lens barrel is only the description to form, is not implied by it The method that processing obtains the shape is also similar for the cissing eyeglass.Further, the multigroup group camera lens 10 Including multiple eyeglasses 13, eyeglass 13 described in wherein at least one is a cissing eyeglass, wherein being installed in first supporting part Part 111 is first eyeglass, and be installed in second load bearing component 121 is second eyeglass.The cissing mirror The position of piece and quantity can be selected according to demand.The cissing eyeglass is installed in the corresponding cissing lens barrel.

In this example, understanding definitions is carried out by taking the multigroup group camera lens 10 that 5 eyeglasses 13 are constituted as an example, wherein The number of first eyeglass of first group camera lens 11 is one, second eyeglass of second group camera lens 12 Number be four.It is, of course, understood that the number of first eyeglass of first group camera lens 11 can be two, The number of second eyeglass of second group camera lens 12 can be three or first group camera lens 11 it is described The number of first eyeglass can be three, and the number of second eyeglass of second group camera lens 12 can be two, either The number of first eyeglass of first group camera lens 11 can be four, second mirror of second group camera lens 12 The number of piece can be one.It is, of course, understood that the number of the eyeglass of the multigroup group camera lens 10 can also be 2,3,4 or 5 with first-class.And in the multigroup group camera lens 10 of the different eyeglass numbers, it can be according to actual demand Design the number of first eyeglass and second eyeglass in first group camera lens 11 and second group camera lens 12 Amount, can also the contracting in first group's camera lens 11 and second group camera lens 12 according to actual Demand Design The quantity of side eyeglass and position, so that at least one eyeglass becomes the cissing eyeglass.

Furthermore, it is to be understood that in this example, the camera lens number of the multigroup group camera lens 10 is 2, respectively It is first group camera lens 11 and second group camera lens 12.In other embodiments of the utility model, the multigroup The single camera lens number of group camera lens 10 can be 3 even more, then can select each mirror according to actual demand The number of the eyeglass of head.

More specifically, in this example, the number of the cissing eyeglass is one, and is installed in first carrying Component 111, second eyeglass for being installed in second load bearing component 121 is all the eyeglass with a circular shape.Institute First group's camera lens 11 is stated to be located at the optical axis direction of second group camera lens 12 and be located at second group camera lens 12 Top.

In this example, the multigroup group camera lens 10 includes first load bearing component 111, second load bearing component 121 and multiple eyeglasses 13, the quantity of the plurality of eyeglass 13 is five, is one first son respectively from object side to phase side The sub- eyeglass 133 of eyeglass 131, one second sub- eyeglass 132, a third, one the 4th sub- eyeglass 134 and one the 5th sub- eyeglass 135, Described in the first sub- eyeglass 131 be installed in first load bearing component 111 with assemble form the first multigroup group camera lens 10, Wherein the described second sub- eyeglass 132, the sub- eyeglass 133 of the third, the 4th sub- eyeglass 134 and the 5th sub- eyeglass 135, which are installed in second load bearing component 121, forms the second multigroup group camera lens 10 to assemble.The first sub- eyeglass 131 be a cissing eyeglass.The second sub- eyeglass 132, the sub- eyeglass 133 of the third, the 4th sub- eyeglass 134 and described 5th sub- eyeglass 135 is a circular eyeglass respectively.Correspondingly, first load bearing component 111 is a cissing lens barrel.

First group camera lens 11 and second group camera lens 12 can also respectively include a connection piece, wherein described Connector can be installed in each eyeglass 13, so that the eyeglass 13 is preferably installed on first load bearing component Either second load bearing component.The connector can be a rubber pad, can be for while playing a supporting role The eyeglass 13 plays a protective role.

In this example, during first group camera lens 11 and second group camera lens 12 adjust position, The cissing eyeglass of first group camera lens 11 can adjust position relative to the circular eyeglass of second group camera lens 12 It sets.In other embodiments of the utility model, adjusted in first group camera lens 11 and second group camera lens 12 During position, the cissing eyeglass of first group camera lens 11 can be relative to the institute of second group camera lens 12 State cissing eyeglass adjustment position.That is, the relative position energy between the non-circular eyeglass and the circular eyeglass It is enough adjusted, first group camera lens 11 and second group camera lens 12 can be independently adjusted, and can also be adjusted simultaneously It is whole, it, also can be by so that the relative position between the non-circular eyeglass and the circular eyeglass can be independently adjusted It adjusts separately.Similarly, it is located at the non-circular described of first group camera lens 11 and second group camera lens 12 Relative position between eyeglass can also be independently adjusted or be adjusted separately.In this way, it is equipped with described The position of first group camera lens 11 of cissing eyeglass can be adjusted relative to second group camera lens 12, at this Enable to first group camera lens 11 and the acquisition of second group camera lens 12 that effect is preferably imaged during adjustment Fruit, to be conducive to the last image quality of the camera module 1.

It is noted that the mobile electronic device 1000 includes at least one camera shooting with reference to shown in attached drawing 8 Mould group 1 and an electronic equipment ontology 2 are located at described the after the camera module 1 is installed in the electronic equipment ontology 2 First group camera lens 11 of two group's camera lenses, 12 top can be viewed by a user on the outside.

In other words, described the first of first group camera lens 11 the sub- eyeglass 131 can appear in the visual field of user. The mobile electronic device 1000 has a front and a back side, is mounted with a display screen in the front, observes in user During either using the display screen, the top of the camera module 1, such as the institute of first group camera lens 11 It states the first sub- eyeglass 131 and causes influence in perception for user.The current mobile electronic device 1000, is especially moved The large screen and boundlessization of the development trend of mobile phone, exactly in order to achieve the effect that one " screen comprehensively ", so that in the movement What the front of electronic equipment 1000 occupied user's sight is exactly a large screen, and the front side of the camera module 1 is extend into The front, to influence screen accounting.In this example, the described first sub- eyeglass 131 and first load bearing component The reduction of 111 bodily form directly reduces the screen accounting of the camera module 1, to promote the use feeling and experience sense of user, band Give user preferable visual enjoyment.

In this example, 5 eyeglasses are sequentially increased, i.e., the described first sub- eyeglass 131 is less than second eyeglass 132, the second sub- eyeglass 132 is less than the sub- eyeglass 133 of the third, and the sub- eyeglass 133 of third is less than the 4th sub- mirror Piece 134, the 4th sub- eyeglass 134 are less than the described 5th sub- eyeglass 135.In other embodiments of the utility model, institute Stating eyeglass 13 can be with the arrangement of other shapes, such as wait big arrangement, or the intermediate eyeglass is maximum, front end The eyeglass it is minimum, described eyeglass of rear end etc. is big.The arrangement of the eyeglass of different shapes can be selected according to actual needs It selects.

The photosensory assembly 20 includes a photosensitive element 21, a circuit board 22 and a pedestal 23, wherein the photosensitive element 21 are electrically connected to the circuit board 22, and the pedestal 23 is installed in the circuit board 22.12, second group camera lens Between first group camera lens 11 and the photosensory assembly 20.

The eyeglass includes a central area 1311 and a fringe region 1312, wherein the fringe region 1312 is located at Around the central area 1311, and the fringe region 1312 is for being connected to first load bearing component 111 either Second load bearing component 121.The central area 1311 of the eyeglass has influenced the imaging of the entire camera module 1 Quality.The fringe region 1312 of the eyeglass hardly impacts the image quality of the entire camera module 1 It influences can be ignored caused by either.During trimming designs the eyeglass, need in view of after trimming for The influence of the central area 1311, to avoid the image quality for influencing the entire camera module 1.

Specifically, the fringe region 1312 is a circular ring structure, the central area 1311 is a kind of spherical structure, The fringe region 1312 is mainly used for being connected to the cissing lens barrel, and the central area 1311 is mainly used for logical for light It crosses.

The cissing eyeglass has a side 1313, wherein the side 1313 is used for and first load bearing component 111 Either described second load bearing component 121 is combined to form an independent component.The side 1313 includes an at least string side 13131, wherein the string side 13131 is a straightway.For complete circular eyeglass, the first sub- eyeglass 131 The presence on the string side 13131 size of described first sub- eyeglass 131 is accordingly contracted relative to original circular eyeglass Subtract.Further, the described first sub- eyeglass 131 is matched with first load bearing component 111, wherein first load bearing component 111 be a cissing lens barrel.The size of the first multigroup group camera lens 10 with the cissing eyeglass is relative to original circle The size reduction of the first multigroup group camera lens 10 of the eyeglass of shape.

The electronic equipment ontology 2 is installed in the camera module 1, it is preferable where the string side 13131 Side is by the either edge of a side toward the electronic equipment ontology 2, to advantageously reduce the camera module 1 in length Spend direction either width direction occupying for 2 space of electronic equipment ontology.

It is understood that the string side 13131 of the first sub- eyeglass 131 is in the non-of the described first sub- eyeglass 131 The marginal portion that the line segment of former round edge is constituted.The first sub- eyeglass 131 can also include an at least round edge 13132.It is described String side 13131 is not restricted to straightway, can also be an arcuate line segment, or in order to cooperate the central area 1311 Any line segment, the edge shape for being also possible to be matched with the mobile electronic device are designed.Possess completely relative to original The circular eyeglass for, the string side 13131 is it also will be understood that least a portion of described at lacking relative to complete original The edge of eyeglass.It is described so for reducing the size of the first sub- eyeglass 131 and first load bearing component 111 The presence on string side 13131 has a very important significance.

In some examples of the utility model, the side 1313 of the cissing eyeglass can pass through at least two parts The different line segment of curvature is adjacent to be formed so that the side 1313 of the cissing eyeglass is not a complete circle.? In some examples of the utility model, the side 1313 of the cissing eyeglass can be connect by the identical line segment phase bell of curvature It is formed, such as the eyeglass of square.

In this example, the quantity of the string side 13131 and the round edge 13132 is one respectively.The second sub- eyeglass 132, the sub- eyeglass 133 of the third, the 4th sub- eyeglass 134 and the 5th sub- eyeglass 135 respectively have a round side Side.That is, the second sub- eyeglass 132, the sub- eyeglass 133 of the third, the 4th sub- eyeglass 134 and the described 5th Sub- eyeglass 135 is a circular eyeglass respectively.

It is understood that the quantity of the round edge 13132 can be 0 in other examples of the utility model, That is the side 1313 of the cissing eyeglass is all formed by the string side 13131.In the another of the utility model In a little examples, the quantity of the round edge 13132 can be 1, and the quantity on the string side 13131 can be 2.In the utility model Other examples in, the quantity of the round edge 13132 can be 2, and the quantity on the string side 13131 can be 2, such as The two sides of one round edge 13132 are connected separately with a string side 13131 or the side of a round edge 13132 and connect It is connected to a string side 13131 and another round edge 13132.In other examples of the utility model, the round edge 13132 quantity can be 1, and the quantity on the string side 13131 can be 3.The string side 13131 and the round edge 13132 Scale and position can be set according to different needs, such as symmetrical or asymmetric setting, according to scheduled big Small scale etc..

Attached drawing 3B shows a kind of embodiment of the cissing eyeglass, and the cissing eyeglass is the described first sub- eyeglass 131, it is, of course, understood that the eyeglass of other positions can be the cissing eyeglass, in this example, the contracting In the round edge 13132 and the string of eyeglass, 13131 number is 2 respectively, and a round edge 13132 and another institute It states round edge 13132 to be oppositely arranged, a string 13131 is oppositely arranged at 13131 and another string.When the cissing Eyeglass is the described first sub- eyeglass 131, and the camera module 1 with the cissing eyeglass is applied to the mobile electricity Sub- equipment 1000, when the string side 13131 is located at a length direction, the camera module 1 occupies the shifting in length direction The ratio decline of the display screen of dynamic electronic equipment 1000.

Attached drawing 3C shows a kind of embodiment of the cissing eyeglass, and the cissing eyeglass is the described first sub- eyeglass 131, it is, of course, understood that the eyeglass of other positions can be the cissing eyeglass, in this example, the contracting When the side 1313 of eyeglass includes the string 13131, and the number on the string side 13131 is 4.When the cissing Eyeglass is the described first sub- eyeglass 131, and the camera module 1 with the cissing eyeglass is applied to the mobile electricity Sub- equipment 1000, the camera module 1 occupy the described aobvious of the mobile electronic device 1000 in length direction and width direction The ratio of display screen all will decline.The number of the round edge 13132 is 4, wherein 13132 phase of the string side 13131 and the round edge Mutually adjacent, the both ends on each string side 13131 are connected to the round edge 13132 respectively, each round edge 13132 Both ends are connected to the string side 13131 respectively.

Attached drawing 3D shows a kind of embodiment of the cissing eyeglass, and the cissing eyeglass is the described first sub- eyeglass 131, it is, of course, understood that the eyeglass of other positions is also possible to the cissing eyeglass, it is in this example, described Cissing eyeglass includes a central area 1311 and a fringe region 1312, wherein the fringe region 1312 is located at the center The marginal position in domain 1311 is mainly used for being connected to the cissing lens barrel.Further, the central area 1311 has including one Region 13111 and a non-active area 13112 are imitated, wherein the effective coverage 13111 influences the institute of the photosensory assembly 20 The work for stating photosensitive element 21 causes influence hence for last imaging effect, and the non-active area 13112 for Last imaging effect is almost without impacting.In this example, the number on the string side 13131 is 2, the round edge 13132 number is 2, and the string side 13131 is located at the described of the central area 1311 of the cissing eyeglass and non-has Imitate region 13112, that is to say, that the cissing eyeglass relative to original circular eyeglass size reduction not for last Imaging effect impacts.

Further, it is preferable to ground, in the fabrication process, each eyeglass is integrally formed, whether circular institute State eyeglass or the cissing eyeglass.It will be appreciated by persons skilled in the art that the eyeglass can integrally be infused by mold It is moulded into type, and relative to original circular eyeglass, the cost of manufacture of the cissing eyeglass is reduced.The cissing eyeglass it is described String side 13131 facilitates the positioning when cissing eyeglass and the installation of the corresponding cissing lens barrel.

It is understood that the string side 13131 is located at the fringe region 1312 of the eyeglass, hence for described The quality influence of camera module 1 is smaller even to be had little effect.The central area 1311 of the cissing eyeglass is opposite Do not change in the central area 1311 of original circular eyeglass, that is to say, that the size of the cissing eyeglass Diminution is the size reduction based on the fringe region 1312.The central area 1311 of the eyeglass corresponds to described photosensitive One photosensitive region of component 20 is the main region for receiving light.The fringe region 1312 of the eyeglass is for connecting institute The first load bearing component 111 either second load bearing component 121 is stated, which needs that light is stopped to pass through, to avoid too many Stray light image quality is impacted.

By way of being formed with the string side 13131, the light intensity meeting of the fringe region 1312 of the cissing eyeglass Weaken, then the formation of stray light is advantageously reduced, to be conducive to the image quality of the camera module 1, while at this The string side 13131 can't impact the central area 1311 in the process, to ensure that the camera module 1 Imaging effect.

According to the size of first eyeglass 131, ruler of first load bearing component 111 based on first eyeglass 131 It is very little to design and manufacture.First load bearing component 111 can also be fabricated by integrated injection molding technique.First carrying Component 111 can be a cissing lens barrel.

Specifically, the cissing lens barrel includes an at least string edge 141 and an at least round edge portion 142, wherein the string Edge 141 corresponds to the string side 13131 of the cissing eyeglass, and the round edge portion 142 corresponds to the institute of the cissing eyeglass State round edge 13132.

Preferably, the string edge 141 and the quantity on the string side 13131, position and shape correspond to each other, the circle Edge 142 and the quantity of the round edge 13132, position and shape correspond to each other.In this way, the cissing lens barrel Size relative to original round lens barrel also can reduce, and the cost of manufacture of the cissing lens barrel also can reduce.It is worth One is mentioned that, the cissing lens barrel does not need to make a complete circle, so that entire manufacture difficulty can also reduce.

Further, the production of an optical lens is needed by processes such as optical design, performance detection, assemblings, whole A optical system is a very sensitive and complicated system.The eyeglass be assembled in first load bearing component 111 or After person is second load bearing component 121, since the eyeglass and first load bearing component 111 either described second are held It carries component 121 to be formed with batch, per a batch of performance, either shaped form needs to adjust each described there is difference Angle of revolution of the eyeglass in first load bearing component 111 either second load bearing component 121 is to seek optimal property Can, the best angle of revolution for the eyeglass being fabricated using distinct device either different batches all can be different, therefore not With the product of batch manufacture, requires to re-start adjustment, then be assembled according to position adjusted.

For the cissing eyeglass, once the cissing eyeglass is applied in integral type camera lens, because of the string The positioning action that edge 141 and the correspondence on the string side 13131 play, the established angle of the cissing eyeglass and the cissing lens barrel Degree is fixed, to be unfavorable for last image quality.

In the utility model, the multigroup group camera lens 10 is a split type camera lens, and in this example, the contracting Side eyeglass is located at first load bearing component 111 to form first group camera lens 11, and first group camera lens 11 can be with It is adjusted relative to second group camera lens 12.That is, for cissing eyeglass first eyeglass 131 relative to being located at Second eyeglass 132, the third eyeglass 133, the 4th eyeglass 134 and described of second group camera lens 12 The position of five eyeglasses 135 can opposite adjustment, first group camera lens 11 and described is enabled to during this adjustment The preferable imaging effect of acquisition of second group's camera lens 12, to be conducive to the last image quality of the camera module 1.

With reference to attached drawing 4A and attached drawing 4B, another aspect according to the present utility model, the utility model provides a multigroup group The assemble method of camera lens 10, wherein the assemble method includes the following steps:

S1, one first group's camera lens 11 and one second group's camera lens 12 are provided, wherein first group camera lens 11 and institute Stating second group's camera lens 12 is selectively included at least one cissing eyeglass；

S2, can be to constitute one by the way that first group camera lens 11 to be arranged in the optical axis of second group camera lens 12 The mode of the optical system of picture and optical performance parameter based on real scene shooting adjusts first group camera lens 11 and described second The relative position of group's camera lens 12；And

S3, connection first group camera lens 11 and second group camera lens 12, so that first group camera lens 11 Position after the adjustment is kept with the relative distance of second group camera lens 12 on the optical axis direction.

It is understood that first group camera lens 11 is arranged in the optical axis of second group camera lens 12 simultaneously First group camera lens 11 is not represented and second group camera lens 12 is located at same optical axis.In fact, first group May exist an angle being not zero between the axis of camera lens 11 and the axis of second group camera lens 12.

In some examples of the utility model, in the step S2, described first group is adjusted by way of rotation The relative position of group camera lens 11 and second group camera lens 12.Such as along the axis of first group camera lens 11 First group camera lens 11 is rotated, rotates second group camera lens along the axis of second group camera lens 12 12。

In some examples of the utility model, in the step S1, for first group camera lens 11 and described Second group's camera lens 12 carries out a position pre-adjustment.

In some examples of the utility model, the step S1 can also include the following steps:

First group camera lens 11 and second group camera lens 12 are positioned respectively to a corresponding working position；

A position pre-adjustment is carried out respectively for first group camera lens 11 and second group camera lens 12.

In some examples of the utility model, the step S1 can also include the following steps:

First group camera lens 11 and second group camera lens 12 are positioned respectively to a corresponding working position；

A position pre-adjustment is carried out simultaneously for first group camera lens 11 and second group camera lens 12.

Specifically, first group's camera lens 11 and second group camera lens 12 can be separately fixed at a job Position, then carries out position pre-adjustment respectively for first group camera lens 11 and second group camera lens 12, and flat axis is mobile First group camera lens 11 and second group camera lens 12 are so that first group camera lens 11 is located at second group The optical axis direction of camera lens 12, and first group camera lens 11 and described second can be kept respectively in this course Position of the group's camera lens 12 after pre-adjustment, then according to the one of first group camera lens 11 and second group camera lens 12 Actual photographed effect further adjusts the relative position of first group camera lens 11 and second group camera lens 12, at this time There are certain spaces between first group camera lens 11 and second group camera lens 12 for adjusting phase between the two To position.

First group camera lens 11 and second group camera lens 12 are finally being determined according to actual shooting effect Behind relative position, the opposite of fixed first group camera lens 11 of a connection medium and second group camera lens 12 can be passed through Position.

In the present invention, the connection of the relative position of first group camera lens 11 and second group camera lens 12 Technique can be selected according to practical situation.In one embodiment of the utility model, first group camera lens 11 can be with Second group camera lens 12 is connected to by bonding process.In another embodiment of the utility model, described first group Group camera lens 11 can be connected to second group camera lens 12 by laser welding process.In another reality of the utility model It applies in example, first group camera lens 11 can be connected to second group camera lens 12 by ultrasonic Welding.In this reality With in another novel embodiment.Other than above-mentioned technique, it also can choose other welding procedures.

Further, first group camera lens 11 and second group camera lens 12 can pass through the connection medium phase It connects, the connection medium makes first group camera lens 11 and second group camera lens 12 in the optical axis direction Relative distance remain unchanged.The connection medium is also possible to another camera lens, such as a third group camera lens.

It is either a variety of that the connection medium can be one of UV glue, hot-setting adhesive, UV hot-setting adhesive, epoxy resin.

More particularly, it is pre- to carry out position respectively for first group camera lens 11 and second group camera lens 12 When adjustment, the mode that can take are as follows:

First group camera lens 11 and second group camera lens 12 are individually secured to a different working positions first, The tilt information of first group camera lens 11 and second group camera lens 12, i.e. inclination information are obtained respectively.It can pass through Laser-measured height either other modes successively obtain, and first group camera lens 11 can be not kept described the at this time The optical axis direction of two group's camera lenses 12, i.e., the described first group camera lens 11 and second group camera lens 12 are in height side To being not on same straight line.According to the information of first group camera lens 11 and second group camera lens 12 that obtain respectively Pre-adjustment is carried out individually for the position of first group camera lens 11 and second group camera lens 12, at described first group After the coherent detection information of group camera lens 11 and second group camera lens 12 can satisfy certain requirement, mobile described first group Organize the institute that camera lens 11 and second group camera lens 12 make first group camera lens 11 be in second group camera lens 12 State optical axis direction.The position that second group camera lens 12 can be to maintain is fixed, then in movement the first group camera lens 11 to second group camera lens 12 the optical axis direction.The position that first group camera lens 11 can be to maintain is fixed, Then the light that second group camera lens 12 is located at second group camera lens 12 to first group camera lens 11 is moved Axis direction.It is also possible to move first group camera lens 11 simultaneously and second group camera lens 12 makes first group Camera lens 11 is located at the optical axis direction of second group camera lens 12.

It is understood that in this course, keeping first group camera lens 11 and second group camera lens 12 Angle after the adjustment is constant.

Further, first group camera lens 11 and second group camera lens 12 are carrying out position pre-adjustment respectively In the process, a standard lens can be matched with respectively to be adjusted.Such as first group camera lens 11 is moved into one The top of standard lens, so that first group camera lens 11 and the standard lens can make up a complete optical frames Head.First group camera lens is adjusted by an actual imaging effect of first group camera lens 11 and the standard lens 11 position.Correspondingly, second group camera lens 12 is moved into the lower section of another standard lens or another described Standard lens is moved into the top of second group camera lens 12, and second group camera lens 12 and the standard lens are located at Same optical axis.Second group camera lens 12 and the standard lens can make up a complete optical lens, pass through described The actual imaging effect of two group's camera lenses 12 and the standard lens adjusts the position of second group camera lens 12.Pass through this The mode of sample realizes the pre-adjustment of the position for first group camera lens 11 and second group camera lens 12.

Of course, it should be understood that herein by way of example only, other modes can also be taken for described first group Group camera lens 11 and second group camera lens 12 carry out position pre-adjustment.First group camera lens 11 and second group Then camera lens 12, which can also be located at same optical axis, to carry out while being adjusted.

Further, another aspect according to the present utility model, the utility model provide the assembling side of a camera module 1 Method, wherein the assemble method of the camera module 1 includes the following steps:

The multigroup group camera lens 10 is obtained according to above-mentioned step assembling；With

The multigroup group camera lens 10 is held in the photosensitive path of the photosensory assembly 20.

Further, during the adjustment, the photosensory assembly 20 with synthesized image can be a standard photosites component 20, It can be the photosensory assembly 20 for being directly used in and being installed on second group camera lens 12.

Further, Fig. 5 A, attached drawing 5B and attached drawing 5C show a camera shooting of another embodiment according to the present utility model Another better embodiment of the assemble method of the assemble method of mould group 1 and the camera module 1 according to the present utility model, The assemble method includes the following steps:

Step A: one first group of cells 100 and one second group of cells 200 are provided, wherein first group of cells 100 include first group camera lens 11, and second group of cells 200 includes second group camera lens 12 and described photosensitive Component 20, wherein first group camera lens 11 and second group camera lens 12 are selectively included an at least cissing Eyeglass.A color-filter element 40 is also equipped between second group camera lens 12 and the photosensory assembly 20.Described first Group's camera lens 11 includes at least 1 first eyeglass and first load bearing component 111, and second group camera lens 12 includes At least 1 second eyeglass and second load bearing component 121.In this example, the number of first eyeglass is one, and And first eyeglass is a cissing eyeglass, it is to be understood that the number of first eyeglass is not restricted to one.Originally showing In example, the number of second eyeglass is four, and each second eyeglass is all a circular eyeglass, it is to be understood that The number of second eyeglass is not limited to this, and second eyeglass is also possible to a cissing eyeglass.

Step B: by the way that first group of cells 100 to be arranged in the optical axis of second group of cells 200 to constitute The mode of one imageable optical system and optical performance parameter based on real scene shooting adjusts first group of cells 100 and institute State the relative position of the second group of cells 200.In this example, the optical system includes first group camera lens 11, institute State second group's camera lens 12 and the built-in photosensory assembly 20.The photosensory assembly 20 includes 21, one electricity of a photosensitive element Road plate 22 and a microscope base 23, wherein the photosensitive element 21 is electrically connected to the circuit board 22, the microscope base 23 is installed in The circuit board 22 and microscope base 23 is formed with an optical window, for use by first group camera lens 11 and second group The light of camera lens 12 reaches the photosensitive element 21 after passing through the optical window.

The photosensitive element 21 has a photosurface 211, can be for the optical system using the photosurface 211 Image planes are detected.

Step C: first group of cells 100 and second group of cells 200 are connected, so that first group is single The relative distance of member 100 and second group of cells 200 on the optical axis direction keeps position after the adjustment.

For the camera module 1 being completed, a desired imaging surface is had, a target face is referred to alternatively as. In some cases, the target face is a plane.Such as the sense of the photosensitive element 21 when the camera module 1 Smooth surface 211 is a plane, in order to reach the quality of imaging, then the desired imaging surface of the multigroup group camera lens 10 is also one flat Face, that is, the target face is a plane.In other cases, the target face be also possible to spill either convex or Wavy curved surface.Such as the photosurface 211 of the photosensitive element 21 of the camera module 1 is a wavy song Face, then the desired imaging surface of the multigroup group camera lens 10 is also a plane, the photosensitive element of the camera module 1 21 photosurface 211 is a convex surface, then the desired imaging surface of the multigroup group camera lens 10 is also a convex surface.

Further, in this example, the imaging for the image recognition real scene shooting that can be exported according to the photosensitive element 21 Whether face and the target face match.Since the shape of the photosurface 211 of the photosensitive element 21 is exactly desired institute State the shape of imaging surface.That is to say, the photosurface 211 is exactly the target face, therefore pass through the institute of the photosensitive element 21 State the curvature of field information that the received image of photosurface 211 has implied the target face.So to provide image quality, according to The curvature of field for the image that the photosensitive element 21 is exported should be as small as possible.In this case, the optical system imaging institute The imaging surface of formation and target face matching, so as to obtain preferably image quality.

In this way, it can solve the problem of cissing eyeglass can not adjust in an assembling process, thus one Aspect is conducive to reduce the size of the camera module 1, is on the other hand conducive to raising and takes the photograph with the described of the cissing eyeglass As the product quality of mould group 1.

Another aspect according to the present utility model, the utility model provide the assemble method of a camera module comprising such as Lower step:

Step a: providing one first group's camera lens 11, one second group's camera lens 12 and a photosensory assembly 20, wherein described First group's camera lens 11 and second group camera lens 12 are selectively included an at least cissing eyeglass；

Step b: first group camera lens 11, second group camera lens 12 and the photosensory assembly 20 are arranged First group camera lens 11, described second is adjusted at an imageable optical system and the optical performance parameter based on real scene shooting The relative position of 20 three of group's camera lens 12 and the photosensory assembly；And

Step c: connection first group camera lens 11, second group camera lens 12 and the photosensory assembly 20 make It obtains first group camera lens 11, second group camera lens 12 and the photosensory assembly 20 and keeps position after the adjustment.

A color-filter element 40 is also equipped between second group camera lens 12 and the photosensory assembly 20.Described One group's camera lens 11 includes at least 1 first eyeglass and first load bearing component 111, and second group camera lens 12 wraps Include at least 1 second eyeglass and second load bearing component 121.In this example, the number of first eyeglass is one, And first eyeglass is a cissing eyeglass, it is to be understood that the number of first eyeglass is not restricted to one.At this In example, the number of second eyeglass is four, and each second eyeglass is all a circular eyeglass, it is possible to understand that It is that the number of second eyeglass is not limited to this, and second eyeglass is also possible to a cissing eyeglass.

The photosensory assembly 20 includes a photosensitive element 21, a circuit board 22 and a microscope base 23, wherein the photosensitive element 21 are electrically connected to the circuit board 22, and the microscope base 23 is installed in the circuit board 22 and the microscope base 23 is formed with one Optical window, for use by the light of first group camera lens 11 and second group camera lens 12 by reaching institute after the optical window State photosensitive element 21.

In other words, during assembling the camera module, the photosensory assembly 20 can first be assembled in described Second group's camera lens 12 is also possible to the photosensory assembly 20, second group to form second group of cells 200 Camera lens 12 and first group camera lens 11 are assembled again after independently being adjusted.

Further, attached drawing 6 shows another embodiment of the multigroup group camera lens 10A, with reference to attached drawing 8, In this example, the multigroup group camera lens 10A includes one first group camera lens 11A and one second group camera lens 12A, wherein described the One group camera lens 11A is held in an optical axis direction of the second group camera lens 12A and first group camera lens 11A In the top of the second group camera lens 12A.Light reaches second group after passing through the first group camera lens 11A first Camera lens 12A.

The first group camera lens 11A includes one first load bearing component 111A and at least one first eyeglass, wherein described the One eyeglass is installed in the first load bearing component 111A.The second group camera lens 12A includes one second load bearing component 121A At least one second eyeglass, wherein second eyeglass is installed in the second load bearing component 121A.

In this example, the multigroup group camera lens 10A includes the first load bearing component 111A, second load bearing component 121A and multiple eyeglass 13A, the plurality of eyeglass 13A include one first sub- eyeglass 131A, one second sub- eyeglass The sub- eyeglass 133A of 132A, a third, one the 4th sub- eyeglass 134A, one the 5th sub- eyeglass 135A and one the 6th sub- eyeglass 136A, Wherein the described first sub- eyeglass 131A and the second sub- eyeglass 132A are located at the first load bearing component 111A, wherein described Three sub- eyeglass 133A, the 4th sub- eyeglass 134A, the 5th sub- eyeglass 135A and the 6th sub- eyeglass 136A are located at The second load bearing component 121A.The first sub- eyeglass 131A, the second sub- eyeglass 132A, the sub- eyeglass of the third 133A, four eyeglass 134A of the son, the 5th sub- eyeglass 135A and the 6th sub- eyeglass 136A are lateral from object respectively Image side arrangement.

The 6th sub- eyeglass 136A is a cissing eyeglass, and the size of the 6th sub- eyeglass 136A is greater than described the Five sub- eyeglass 135A, the 4th sub- eyeglass 134A, the sub- eyeglass 133A of the third, the second sub- eyeglass 132A and described First sub- eyeglass 131A.

The 6th sub- eyeglass 136A includes an a central area 1311A and fringe region 1312A, wherein the marginal zone Domain 1312A is located at the outside of the central area 1311A.Light can reach described after passing through the described 6th sub- eyeglass 136A Photosensitive element 21A.The photosensitive element 21A has a photosensitive region and a non-photo-sensing region, passes through the 6th sub- eyeglass The light of the central area 1311A of 136A mainly reaches the photosensitive region of the photosensitive element 21A, passes through described The light of the fringe region 1312A of six sub- eyeglass 136A mainly reaches the non-photo-sensing area of the photosensitive element 21A Domain.That is, image quality of the central area 1311A of the 6th sub- eyeglass 136A for the camera module 1A Cause important influence.

There is the 6th sub- eyeglass 136A one week to include an at least string side along side 1313A, the side 1313A 13131A and at least a round edge 13132A, wherein the round edge 13132A is a circular arc, the string side 13131A relative to and institute It states the part that round edge 13132A formation one is completely justified and is removed the marginal portion formed behind part.The string side 13131A can be with It is a straightway, is also possible to a curved section, and preferably, the string side 13131A is located at the fringe region 1312A.It changes Sentence is talked about, and the 6th eyeglass 136A of trimming can't correspond to last imaging effect and impact either trimming The 6th eyeglass 136A hardly influences last imaging effect.

In other examples of the utility model, the string side 13131A can also be located at the central area 1311A The non-active area, last imaging effect will not be impacted or hardly while minification Last imaging effect is impacted.

In this example, described since the described 6th sub- eyeglass 136A is that size is maximum a piece of in six eyeglasses The diminution of 6th sub- eyeglass 136A size can largely reduce the size of the entire multigroup group camera lens 10A.

The corresponding second load bearing component 121A is a cissing lens barrel, wherein the cissing lens barrel includes a round edge portion A 142A and string edge 141A, wherein the string edge 141A is connected to the round edge portion 142A.Preferably, the cissing mirror Cylinder can be formed by integrated injection molding technique.The size of the 6th sub- eyeglass 136A is reduced, to be matched with the described 6th The size of the part the second load bearing component 121A of sub- eyeglass 136A also can accordingly be reduced.

The string edge 141A is positioned corresponding to the string side position 13131A of the described 6th sub- eyeglass 136A.The circle Edge 142A is positioned corresponding to the position the round edge 13132A and the sub- eyeglass of the third of the described 6th sub- eyeglass 136A The marginal position of 133A, the 4th sub- eyeglass 134A, the 5th sub- eyeglass 135A.

Further, when the described first sub- eyeglass 131A and the second sub- eyeglass 132A are mounted respectively in described first During load bearing component 111A, the position of the circular first sub- eyeglass 131A and the circular second sub- eyeglass 132A Opposite adjustment can be carried out relative to the position of the circular first load bearing component 111A.As the third mirror piece 133A, institute It states the 4th sub- eyeglass 134A and the 5th sub- eyeglass 135A is mounted respectively in the process of the second load bearing component 121A In, the sub- eyeglass 133A of the circular third, the circular 4th eyeglass 134A and the circular 5th sub- eyeglass The position of 135A can the round edge portion 142A of the relatively described second load bearing component 121A carry out opposite adjustment.

And for eyeglass 136A for the described 6th, due to the company of the string side 13131A and the round edge 13132A The positioning action at place is connect, so that the relative position of the 6th sub- eyeglass 136A and the second load bearing component 121A can not carry out Adjustment.

It further, can after the first group camera lens 11A and the second group camera lens 12A are assembled respectively With sub to adjust the described 6th by adjusting the relative position of the first group camera lens 11A and the second group camera lens 12A Eyeglass 136A is relative to the first load bearing component 111A, the first sub- eyeglass 131A and the second sub- eyeglass 132A Relative position.Then the first group camera lens 11A and the second group camera lens 12A are encapsulated as a complete optics Camera lens.

It is understood that when 1 quilt of the camera module of the multigroup group camera lens 10A and the composition of the photosensory assembly 20 It is installed on the mobile electronic device 1000, the described 6th sub- eyeglass 136A of the second group camera lens 12A and corresponds to institute State the size of the second part load bearing component 121A diminution be conducive to the camera module 1A in the mobile electronic device 1000 installation allows the mobile electronic device 1000 to provide lesser installation sky for the installation of the camera module 1A Between.

Further, attached drawing 7 shows another embodiment of the multigroup group camera lens 10B, with reference to attached drawing 8, In this example, the multigroup group camera lens 10B includes one first group camera lens 11B and one second group camera lens 12B, wherein described the One group camera lens 11B is held in an optical axis direction of the second group camera lens 12B and first group camera lens 11B In the top of the second group camera lens 12B.Light reaches second group after passing through the first group camera lens 11B first Camera lens 12B.

The first group camera lens 11B includes one first load bearing component 111B and at least one first eyeglass, wherein described the One eyeglass is installed in the first load bearing component 111B.The second group camera lens 12B includes one second load bearing component 121B At least one second eyeglass, wherein second eyeglass is installed in the second load bearing component 121B.

In this example, the multigroup group camera lens 10B includes the first load bearing component 111B, second load bearing component 121B and multiple eyeglass 13B, the plurality of eyeglass 13B include one first sub- eyeglass 131B, one second sub- eyeglass The sub- eyeglass 133B of 132B, a third, one the 4th sub- eyeglass 134B, one the 5th sub- eyeglass 135B and one the 6th sub- eyeglass 136B, Wherein the described first sub- eyeglass 131B, the second sub- eyeglass 132B and the sub- eyeglass 133B of the third are located at described first and hold Component 111B is carried, wherein the 4th sub- eyeglass 134B, the 5th sub- eyeglass 135B and the described 6th sub- eyeglass 136B In the second load bearing component 121B.The first sub- eyeglass 131B, the second sub- eyeglass 132B, the sub- eyeglass of the third 133B, the 4th sub- eyeglass 134B, the 5th sub- eyeglass 135B and the 6th sub- eyeglass 136B are lateral from object respectively Image side arrangement.

The 6th sub- eyeglass 136B, the 5th sub- eyeglass 135B, the 4th sub- eyeglass 134B, the sub- mirror of the third Piece 133B, the second sub- eyeglass 132B and the first sub- eyeglass 131B are all a cissing eyeglasses.

Illustrate by taking the described 6th sub- eyeglass 136B as an example, the 6th sub- eyeglass 136B include a central area 1311B and One fringe region 1312B, wherein the fringe region 1312B is located at the outside of the central area 1311B.Light passes through institute The photosensitive element 21B can be reached after stating the 6th sub- eyeglass 136B.The photosensitive element 21B is non-with a photosensitive region and one Photosensitive region mainly reaches the photosensitive element by the light of the central area 1311B of the described 6th sub- eyeglass 136B The photosensitive region of 21B mainly reaches described by the light of the fringe region 1312B of the described 6th sub- eyeglass 136B The non-photo-sensing region of photosensitive element 21B.That is, 1311B pairs of the central area of the 6th sub- eyeglass 136B Important influence is caused in the image quality of the camera module 1B.

There is the 6th sub- eyeglass 136B one week to include an at least string side along side 1313B, the side 1313B 13131B and at least a round edge 13132B, wherein the round edge 13132B is a circular arc, the string side 13131B relative to and institute It states the part that round edge 13132B formation one is completely justified and is removed the marginal portion formed behind part.The string side 13131B can be with It is a straightway, is also possible to a curved section, and preferably, the string side 13131B is located at the fringe region 1312B.It changes Sentence is talked about, the described 6th sub- eyeglass 136B of trimming can't last imaging effect impact the described of either trimming 6th sub- eyeglass 136B hardly impacts last imaging effect.

In other examples of the utility model, the string side 13131B can also be located at the central area 1311B The non-active area, last imaging effect will not be impacted or hardly while minification Last imaging effect is impacted.

The corresponding first load bearing component 111B and the second load bearing component 121B is all a cissing lens barrel, wherein institute It states and illustrates for the second load bearing component 121B,

Wherein the cissing lens barrel includes an a round edge portion 142B and string edge 141B, wherein the string edge 141B quilt It is connected to the round edge portion 142B.Preferably, the cissing lens barrel can be formed by integrated injection molding technique.

The 4th sub- eyeglass 134B, the 5th sub- eyeglass 135B and the 6th sub- eyeglass 136B are relative to original Circular eyeglass size it is reduced, be matched with the described 4th sub- eyeglass 134B, the 5th sub- eyeglass 135B and the described 6th The size of the second load bearing component 121B of sub- eyeglass 136B is also accordingly reduced, an especially area size.It is entire described The area size of second group camera lens 12B is reduced.

The string edge 141B corresponds to the described 4th sub- eyeglass 134B, the 5th sub- eyeglass 135B and the described 6th The string side position 13131B of sub- eyeglass 136B.The round edge portion 142B corresponds to the described 4th sub- eyeglass 134B, described the The position the round edge 13132B of five sub- eyeglass 135B and the 6th sub- eyeglass 136B.

Relatively, for the first load bearing component 111B, the first sub- eyeglass 131B, the second sub- eyeglass The 132B and sub- eyeglass 133B of the third is a cissing eyeglass respectively, and the first load bearing component 111B is a cissing lens barrel, The size of the entire first group camera lens 11B is reduced.

Further, described in the assembling process of the first group camera lens 11B or described second group camera lens 12B First sub- eyeglass 131B, the second sub- eyeglass 132B and the sub- eyeglass 133B of the third and the first load bearing component 111B Between relative position can not be adjusted, the 4th sub- eyeglass 134B, the 5th sub- eyeglass 135B and it is described 6th son Relative position between eyeglass 136B and the second load bearing component 121B can not be adjusted.

It, can be by adjusting after the first group camera lens 11B and the second group camera lens 12B are assembled respectively The relative position of the first group camera lens 11B and the second group camera lens 12B adjusts the described 6th sub- eyeglass 136B phase For the first load bearing component 111B, the relative position of the first sub- eyeglass 131B and the second sub- eyeglass 132B. Then the first group camera lens 11B and the second group camera lens 12B are encapsulated as a complete optical lens.

It is understood that as the camera module 1B of the multigroup group camera lens 10B and the composition of the photosensory assembly 20 It is installed in the mobile electronic device 1000, the size of the first group camera lens 11B and the second group camera lens 12B The installation in the mobile electronic device 1000 for being conducive to the camera module 1B is reduced, so that the mobile electronic device 1000 can provide lesser installation space for the installation of the camera module 1B.Further, the camera module 1B size Reduce so that the camera module 1B is also accordingly reduced relative to the screen accounting of the display screen.

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 (51)

1. a multigroup group camera lens, which is characterized in that including multiple eyeglasses and at least two load bearing components, one first load bearing component and one Second load bearing component, eyeglass described in wherein at least one are installed in first load bearing component to form independent one first group Camera lens is organized, eyeglass described in wherein at least one is installed in second load bearing component to form independent one second group's mirror Head, eyeglass described in wherein at least one is a cissing eyeglass.

2. multigroup group camera lens according to claim 1, wherein being installed at least one institute of first load bearing component Stating eyeglass is the cissing eyeglass.

3. multigroup group camera lens according to claim 1, wherein being installed at least one institute of second load bearing component Stating eyeglass is the cissing eyeglass.

4. multigroup group camera lens according to claim 1, wherein being installed at least one institute of first load bearing component Stating eyeglass is the cissing eyeglass, and at least one the described eyeglass for being installed in second load bearing component is the cissing Eyeglass.

5. multigroup group camera lens according to any one of claims 1 to 4, wherein the cissing camera lens have one week along side, Described in side include an at least string side.

6. multigroup group camera lens according to claim 5, wherein the side further comprises an at least round edge, wherein described Round edge and the string side are connected with each other, and the round edge is different with the curvature on the string side.

7. multigroup group camera lens according to claim 6, wherein the string side is a straightway.

8. multigroup group camera lens according to claim 7, wherein the quantity of the string side and the round edge is one respectively.

9. multigroup group camera lens according to claim 7, wherein the quantity of the string side and the round edge is two respectively, and The two sides on the one string side are connected to a round edge.

10. multigroup group camera lens according to any one of claims 1 to 4, wherein the cissing eyeglass is integrated injection molding formation.

11. a camera module characterized by comprising

Multigroup group camera lens according to claim 5；With

One photosensory assembly, wherein the multigroup group camera lens is located at the photosensitive path of the photosensory assembly, wherein the cissing eyeglass Including a central area and a fringe region, the fringe region is located on the outside of the central area, passes through the central area Light be projeced into the photosensory assembly, wherein the string side is located at the fringe region.

12. camera module according to claim 11, wherein the side further comprises an at least round edge, wherein described Round edge and the string side are connected with each other, and the round edge is different with the curvature on the string side.

13. camera module according to claim 12, wherein the string side is a straightway.

14. camera module according to claim 13, wherein the quantity of the string side and the round edge is one respectively.

15. camera module according to claim 13, wherein the quantity of the string side and the round edge is two respectively, and The two sides on the one string side are connected to a round edge.

16. camera module according to claim 11, wherein the cissing eyeglass is integrated injection molding formation.

17. camera module according to claim 11, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

18. camera module according to claim 12, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

19. camera module according to claim 13, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

20. camera module according to claim 14, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

21. camera module according to claim 15, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

22. camera module according to claim 16, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

23. a camera module characterized by comprising

One multigroup group camera lens, wherein the multigroup group camera lens includes multiple eyeglasses and at least two load bearing components, one first supporting part Part and one second load bearing component, eyeglass described in wherein at least one are installed in first load bearing component to form independent one First group's camera lens, eyeglass described in wherein at least one are installed in second load bearing component to form independent one second group Camera lens is organized, eyeglass described in wherein at least one is a cissing eyeglass, and the cissing camera lens has one week along side, wherein the side When including an at least string；With

One photosensory assembly, wherein the multigroup group camera lens is located at the photosensitive path of the photosensory assembly, wherein the cissing eyeglass Including a central area and a fringe region, wherein the fringe region is located on the outside of the central area, wherein the center Region further comprises an effective coverage and a non-active area, wherein the non-active area is located at outside the effective coverage Side is projeced into a photosensitive region of the photosensory assembly by the light of the effective coverage, wherein the string side is located at institute State non-active area.

24. camera module according to claim 23, wherein being installed at least one institute of first load bearing component Stating eyeglass is the cissing eyeglass.

25. camera module according to claim 23, wherein being installed at least one institute of second load bearing component Stating eyeglass is the cissing eyeglass.

26. camera module according to claim 23, wherein being installed at least one institute of first load bearing component Stating eyeglass is the cissing eyeglass, and at least one the described eyeglass for being installed in second load bearing component is the cissing Eyeglass.

27. camera module according to claim 23, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

28. camera module according to claim 24, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

29. camera module according to claim 25, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

30. camera module according to claim 26, wherein the camera module includes a driving element, wherein described more Group's camera lens is installed in the driving element, and the driving element is installed in the photosensory assembly.

31. camera module according to claim 27, wherein the photosensory assembly include a photosensitive element, a circuit board and One microscope base, the photosensitive element are electrically connected to the circuit board, and the microscope base is installed in the circuit board.

32. camera module according to claim 28, wherein the photosensory assembly include a photosensitive element, a circuit board and One microscope base, the photosensitive element are electrically connected to the circuit board, and the microscope base is installed in the circuit board.

33. camera module according to claim 29, wherein the photosensory assembly include a photosensitive element, a circuit board and One microscope base, the photosensitive element are electrically connected to the circuit board, and the microscope base is installed in the circuit board.

34. camera module according to claim 30, wherein the photosensory assembly include a photosensitive element, a circuit board and One microscope base, the photosensitive element are electrically connected to the circuit board, and the microscope base is installed in the circuit board.

35. a mobile electronic device characterized by comprising

One electronic equipment ontology；With

An at least camera module, wherein the camera module is arranged at the electronic equipment ontology, wherein the camera module Include:

One multigroup group camera lens, wherein the multigroup group camera lens includes: multiple eyeglasses and at least two load bearing components, one first supporting part Part and one second load bearing component, eyeglass described in wherein at least one are installed in first load bearing component to form independent one First group's camera lens, eyeglass described in wherein at least one are installed in second load bearing component to form independent one second group Camera lens is organized, eyeglass described in wherein at least one is a cissing eyeglass；With

One photosensory assembly, wherein the multigroup group camera lens is located at the photosensitive path of the photosensory assembly.

36. mobile electronic device according to claim 35, wherein being installed at least the one of first load bearing component A eyeglass is the cissing eyeglass.

37. mobile electronic device according to claim 35, wherein being installed at least the one of second load bearing component A eyeglass is the cissing eyeglass.

38. mobile electronic device according to claim 35, wherein being installed at least the one of first load bearing component A eyeglass is the cissing eyeglass, and at least one the described eyeglass for being installed in second load bearing component is described Cissing eyeglass.

39. according to any mobile electronic device of claim 35 to 38, wherein the cissing camera lens is with one week along side Side, wherein the side includes an at least string side.

40. mobile electronic device according to claim 39, wherein the side further comprises an at least round edge, wherein The round edge and the string side are connected with each other, and the round edge is different with the curvature on the string side.

41. mobile electronic device according to claim 40, wherein the string side is a straightway.

42. mobile electronic device according to claim 41, wherein the quantity of the string side and the round edge is one respectively.

43. mobile electronic device according to claim 41, wherein the quantity of the string side and the round edge is two respectively, And the two sides on a string side are connected to a round edge.

44. according to any mobile electronic device of claim 35 to 38, wherein the cissing eyeglass is integrated injection molding shape At.

45. a mobile electronic device characterized by comprising

One electronic equipment ontology；With

An at least camera module, wherein the camera module includes a multigroup group camera lens and a photosensory assembly, wherein the multigroup Group camera lens is located at the photosensitive path of the photosensory assembly, wherein the multigroup group camera lens includes one first group's camera lens and one second Group's camera lens, wherein first group camera lens is supported on the photosensory assembly by second group camera lens, wherein institute Stating first group's camera lens includes multiple eyeglasses and one first load bearing component, and wherein at least one eyeglass is a cissing eyeglass, institute It states the first load bearing component to be matched with the cissing eyeglass and support the cissing eyeglass, wherein the camera module is set In the electronic equipment ontology.

46. mobile electronic device according to claim 45, wherein the cissing camera lens have one week along side, wherein institute Stating side includes an at least string side, wherein a side of the string side towards the electronic equipment ontology.

47. mobile electronic device according to claim 46, wherein the side further comprises an at least round edge, wherein The round edge and the string side are connected with each other, and the round edge is different with the curvature on the string side.

48. mobile electronic device according to claim 46, wherein the string side is a straightway.

49. mobile electronic device according to claim 47, wherein the quantity of the string side and the round edge is one respectively.

50. mobile electronic device according to claim 47, wherein the quantity of the string side and the round edge is two respectively, And the two sides on a string side are connected to a round edge.

51. according to any mobile electronic device of claim 45 to 50, wherein the cissing eyeglass is integrated injection molding shape At.