CN209327652U

CN209327652U - Optical lens and camera module

Info

Publication number: CN209327652U
Application number: CN201821606433.1U
Authority: CN
Inventors: 方银丽; 姚立锋; 丁海灵
Original assignee: Ningbo Sunny Opotech Co Ltd
Current assignee: Ningbo Sunny Opotech Co Ltd
Priority date: 2018-09-29
Filing date: 2018-09-29
Publication date: 2019-08-30
Anticipated expiration: 2028-09-29

Abstract

The utility model provides an optical lens and camera module, wherein the optical lens includes a lens assembly, one first support component, one second support component and at least an adjustment part, wherein first support component includes at least one first flexible connector, one first vector and one first support base, wherein second support component includes at least one second flexible connector, one Second support and one second support base, wherein the first vector can be held on the inside of first support base up or down by first flexible connector, the Second support can be supported in second support base by second flexible connector up or down, wherein the lens assembly is located at first support component, the Second support is assembled in the first vector, the adjustment part is arranged at described Between one carrier and the Second support, the Second support is supported in the first vector.

Description

Optical lens and camera module

Technical field

The utility model relates to arrive imaging field more particularly to optical lens and camera module, wherein the optical frames The inclined light shaft degree of one lens assembly of head can be adjusted.

Background technique

Mobile electronic device using more and more extensive, the camera module of the important component as mobile electronic device also by More and more concerns are arrived.Camera module develops towards high pixel, ultrathin and large aperture.Due to mobile electronic device sheet Body, which towards lightening direction, to be developed, this proposes requirement for the size of each element of camera module, in each precision Assembling between camera module element is proposed production technology and packaging technology stringent test.The camera module master To include lens assembly, motor sub-assembly and photosensory assembly, be installed in the lens assembly by the motor sub-assembly described in When photosensory assembly, group reload request ensures to have certain verticality, ability between the optical axis of lens assembly and the photosensory assembly Enough guarantee that the subsequent photosensory assembly can obtain a preferable imaging effect after receiving the light by the lens assembly.

However, the current camera module is during assembling, first by the lens assembly with reference to shown in attached drawing 1 10P is fixed on a carrier of the motor sub-assembly 20P, and the lens assembly 10P and the motor sub-assembly 20P form a dynamic Jiao Jing Then the dynamic zoom lens component is installed to a photosensory assembly in subsequent steps to form a complete optics by head assembly Camera system.In this process, each element of motor sub-assembly 20P itself has an assembling tolerance, in the lens assembly There is also certain errors in 10P and the motor sub-assembly 20P assembling process, so that the last dynamic zoom lens component exists There is inclination between the axis of the motor sub-assembly 20P and the optical axis of the lens assembly 10P, is imitated hence for last imaging Fruit impacts.

In order to solve this problem, the mode taken at present is respectively for the motor sub-assembly 20P and the lens group The quality of finished of part 10P is controlled, then when the lens assembly 10P is installed in the motor sub-assembly 20P, for institute The relative position for stating lens assembly 10P and the motor sub-assembly 20P is adjusted.This settling mode still has problem, and one Aspect current structure size for the motor sub-assembly 20P and the lens assembly 10P carry out deeper into quality control System is very difficult, it may be necessary to higher cost, further aspect is that the settling mode is not suitable for as a kind of development The motor lens assembly of the integral type of trend, i.e., the carrier of the described motor sub-assembly 20P and a mirror of the lens assembly 10P Cylinder is integrally formed,

Utility model content

The one of the utility model is designed to provide an optical lens and camera module, wherein the optical lens is assembling An inclined light shaft degree in the process can be corrected.

The another object of the utility model is to provide an optical lens and camera module, wherein the one of the optical lens Lens assembly can be adjusted levelness within the scope of certain predetermined, to reduce the inclined light shaft degree of the lens assembly.

The another object of the utility model is to provide an optical lens and camera module, wherein the one of the optical lens The relative position of supporting mechanism and the lens assembly can be adjusted.

The another object of the utility model is to provide an optical lens and camera module, wherein the lens assembly is opposite It can be adjusted in the gradient of the supporting mechanism.

The another object of the utility model provides an optical lens and camera module, wherein the supporting mechanism provides one First vector and a Second support carry wherein the lens assembly is held in the first vector by adjusting described first The relative position of body and the Second support adjusts the inclined light shaft degree of the lens assembly.

The another object of the utility model provides an optical lens and camera module, wherein the first vector and described the Two carriers can be adjusted separately in above-below direction.

The another object of the utility model is to provide an optical lens and camera module, wherein the first vector and institute Position after the adjustment can be fixed by stating Second support.

The another object of the utility model is to provide an optical lens and camera module, wherein the first vector and institute Stating Second support can be moved up and down after fixation.

The another object of the utility model is to provide an optical lens and camera module, wherein the light of the lens assembly The adjustment mode very simple of shaft declivity.

The another object of the utility model is to provide an optical lens and camera module, wherein the camera module is good Rate can be elevated, to reduce costs.

The another object of the utility model is to provide an optical lens and camera module, wherein the supporting mechanism and institute The adjustment standard for stating the relative position of lens assembly is not necessarily to rely on last imaging effect.

The another object of the utility model is to provide an optical lens and camera module and its assemble method, wherein described The adjustment mode of lens assembly inclined light shaft degree may be adapted to the camera lens of integral type.

One side according to the present utility model, the utility model provide an optical lens comprising:

One lens assembly；

An at least adjustment part；

One first support component；And

One second support component, wherein first support component includes at least one first flexible connector, one first load Body and one first support base, wherein second support component include at least one second flexible connector, a Second support with And one second support base, first flexible connector are connected to the first vector and first support base, wherein The first vector can be held on the inside of first support base up or down by first flexible connector, described Second support can be supported in second support base by second flexible connector up or down, wherein the camera lens Component is held in the first vector, is assembled in the Second support in the first vector, the adjustment part is set Between the first vector and the Second support, the Second support supports the first vector.

An embodiment according to the present utility model, first support base are independent of second support base.

An embodiment according to the present utility model, first support base are connected to second support base.

An embodiment according to the present utility model, second support base are arranged to from the one of first support base Side extends inwardly.

An embodiment according to the present utility model, the Second support are shaped in second flexible connector.

An embodiment according to the present utility model, second flexible connector are set to the Second support with being inclined by Between second support base, the Second support is located at the oblique side of second support base.

An embodiment according to the present utility model, second flexible connector be arranged to from the Second support along Vertical direction extends towards second support base.

An embodiment according to the present utility model, the number of the adjustment part are four, and the adjustment part is located at described first The angular position of carrier.

An embodiment according to the present utility model, the number of the adjustment part are two, and the adjustment part is located at described first The diagonal position of carrier.

An embodiment according to the present utility model, the adjustment part are colloids.

An embodiment according to the present utility model, the adjustment part are a screw rods, wherein the first vector is with multiple First positioning hole, the Second support have multiple second location holes, and wherein the both ends of adjustment part are matched with corresponding institute respectively State first positioning hole and the second location hole.

An embodiment according to the present utility model, the lens assembly include an at least lens barrel and multiple eyeglasses, wherein institute It states eyeglass and is assembled in the lens barrel, the first vector integrated molding of the lens barrel and first support component.

An embodiment according to the present utility model, the supporting mechanism further comprises a driving assembly, wherein the drive Dynamic component includes one first actuator and one second actuator, wherein first actuator is arranged at the first vector, Second actuator is arranged at first support base, wherein the first vector passes through first actuator and described Second actuator can be driven to be movably held on the inside of first support base.

An embodiment according to the present utility model, the supporting mechanism further comprises a driving assembly, wherein the drive Dynamic group valence includes one first actuator and one second actuator, wherein first actuator is arranged at the Second support, Second actuator is arranged at first support base, wherein the Second support passes through first actuator and described Second actuator can be driven to be movably held in second support base, and the first vector passes through the Second support quilt It can drive to be movably held on the inside of first support base.

Another aspect according to the present utility model, the utility model provide an optical lens comprising:

One lens assembly；

An at least adjustment part；

One supporting mechanism, wherein the supporting mechanism includes at least one first flexible connector, a first vector, one first Support base, at least one second flexible connector and a Second support carry wherein the lens assembly is held in described first Body, first flexible connector are connected to the first vector and first support base, and the first vector passes through First flexible connector can be held in up or down on the inside of first support base, wherein second elastic connection Part is connected to the Second support and first support base, the Second support by second elastic component by can on Under be movably held on the inside of first support base, be assembled in the Second support, the adjustment in the first vector Part is arranged between the first vector and the Second support, and the Second support supports the first vector.

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

One lens assembly；

An at least adjustment part；

One supporting mechanism, wherein the supporting mechanism includes one first support component and one second support component, wherein institute Stating the first support component includes at least one first flexible connector, a first vector and one first support base, wherein described the Two support components include at least one second flexible connector, a Second support and one second support base, and first elasticity is even Fitting is connected to the first vector and first support base, wherein the first vector is connected by first elasticity Fitting can be held in up or down on the inside of first support base, and the Second support passes through second flexible connector It can be supported in second support base up or down, wherein the lens assembly is held in the first vector, in institute State first vector and be assembled in the Second support, the adjustment part be arranged at the first vector and the Second support it Between, the Second support supports the first vector；And

One photosensory assembly, wherein the supporting mechanism is supported on the photosensory assembly while keeping the lens assembly In a photosensitive path of the photosensory assembly.

An embodiment according to the present utility model, the photosensory assembly include a microscope base, a sensitive chip and a wiring board, Wherein the sensitive chip can be conductively connected to the wiring board, and the sensitive chip and the microscope base are pasted respectively A front loaded on the wiring board, wherein first support base of first support component is supported on the microscope base.

An embodiment according to the present utility model, second support base of second support component are mounted on described Microscope base.

Second support base of an embodiment according to the present utility model, second support component is shaped in institute State microscope base.

An embodiment according to the present utility model, first support base have a medial surface, wherein second support Seat extends inwardly from the medial surface of first support base.

An embodiment according to the present utility model, the photosensory assembly include a microscope base, a sensitive chip and a wiring board, Wherein the sensitive chip can be conductively connected to the wiring board, and the sensitive chip and the microscope base are pasted respectively A front loaded on the wiring board, wherein second support base of second support component is mounted on the microscope base simultaneously And first support base of first support component is supported on the microscope base by second support base.

The number of an embodiment according to the present utility model, first flexible connector is two, and first elasticity is even Fitting is located at the both ends of the first vector.

An embodiment according to the present utility model, the number of first flexible connector are two, first elasticity Connector is located at the first vector, and another first flexible connector is located at the Second support.

An embodiment according to the present utility model, second flexible connector are located at the height side of second support base To.

One lens assembly；

An at least adjustment part；

One supporting mechanism, wherein the supporting mechanism includes at least one first flexible connector, a first vector, one first Support base, at least one second flexible connector and a Second support carry wherein the lens assembly is held in described first Body, first flexible connector are connected to the first vector and first support base, and the first vector passes through First flexible connector can be held in up or down on the inside of first support base, wherein second elastic connection Part is connected to the Second support and first support base, the Second support by second elastic component by can on Under be movably held on the inside of first support base, be assembled in the Second support, the adjustment in the first vector Part is arranged between the first vector and the Second support, and the Second support supports the first vector；And

Detailed description of the invention

Fig. 1 is that a lens assembly of the prior art is installed on the process schematic of a motor sub-assembly.

Fig. 2A is the schematic diagram of an optical lens of a preferred embodiment according to the present utility model.

Fig. 2 B is the optical lens partial schematic diagram of above-mentioned preferred embodiment according to the present utility model.

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

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

Fig. 4 A is the schematic diagram of an optical lens of a preferred embodiment according to the present utility model.

Fig. 4 B is the schematic diagram of an optical lens of a preferred embodiment according to the present utility model.

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

Fig. 6 is the schematic diagram of an optical lens of a preferred embodiment according to the present utility model.

Fig. 7 is the schematic diagram of an optical lens of a preferred embodiment according to the present utility model.

Fig. 8 is the schematic diagram of a camera module of a preferred embodiment according to the present utility model.

Fig. 9 is the schematic diagram of a mobile electronic device 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.

Shown in the attached drawing 2A and attached drawing 2B of reference book attached drawing, a light of a preferred embodiment according to the present utility model Camera lens 1 is learned to be elucidated with.

The optical lens 1 includes a lens assembly 10 and a supporting mechanism 20, wherein the lens assembly 10 is kept In the supporting mechanism 20, a photosensitive road of a photosensory assembly is maintained at the lens assembly 10 in subsequent steps Diameter.The position of the lens assembly 10 can be adjusted to relative to the supporting mechanism 20 to change the lens assembly 10 inclined light shaft degree, to avoid the error of the lens assembly 10 itself, the error of the supporting mechanism 20 itself and institute The tolerance of accumulation of the lens assembly 10 during being installed in supporting mechanism 20 is stated for the optical lens 1 subsequent Imaging effect in the process causes undesirable influence.

Specifically, the supporting mechanism 20 includes one first support component 21 and one second support component 22, wherein institute It states the first support component 21 and second support component 22 is independent from each other, first support component 21 can be assembled In second support component 22.

First support component 21 is located at second support component, 22 top, and the lens assembly 10 is located at described the One support component 21, second support component 22 support first support component 21.

The optical lens 1 further comprises an at least adjustment part 30, wherein the adjustment part 30 is located at described first Between support component 21 and second support component 22, second support component is installed in first support component 21 22, the adjustment part 30 is arranged between first supporting element and second supporting element.The adjustment part 30 is on the one hand For fixing first support component 21 and second support component 22 so that first support component 21 and described Two support components 22 are able to maintain fixation by relative position, on the other hand the position of the adjustment part 30 and the form property of can adapt to Ground is adjusted, so that the relative position of first support component 21 and second support component 22 is able to maintain at one in advance Phase position.

Due to the error in manufacture either assembling process, first support component of the lens assembly 10 itself 21 error and the lens assembly 10 and first support component 21 in manufacture or assembling process is in assembling process The error of middle generation, so that the lens assembly 10 is after the first vector for being assembled in first support component 21, Relative to first support component 21 biggish inclination occurs for the optical axis of the lens assembly 10, hence for the subsequent light It learns camera lens 1 and is assembled in the imaging effect after the photosensory assembly and impact.

It, can be for passing through during first support component 21 is assembled in the second support component 22 The second support component 22 is stated to be adjusted the relative position of first support component 21 and the lens assembly 10, so that Positioned at first support component 21 the lens assembly 10 inclined light shaft degree relative to 21 energy of the first support component It is enough reduced and even eliminates, to be conducive to subsequent imaging effect.

In the position adjustment of first support component 21 and second support component 22, the lens assembly 10 are adjusted to the inclined light shaft degree of the lens assembly 10 and can be changed relative to the position of first support component 21 It is kind.

First support component 21 and second support component 22 can be separately fixed at a scheduled position, so The relative position of first support component 21 and second support component 22 is adjusted afterwards so as to be located at described the The inclined light shaft degree of the lens assembly 10 of one support component 21 is enhanced, then passes through the adjustment part 30 fixed described first Support component 21 and the position after adjustment of the second support component 22.

In this example, the adjustment part 30 is colloid, wherein the height of the position of the adjustment part 30 and adjustment part 30 Degree can be set according to demand, and the adjustment part 30 can be arranged at the first vector and described the in an orbiting manner Between two carriers.The number of the adjustment part 30 can be two, and be arranged at the first vector and described respectively The corresponding corner area of two carriers.The number of the adjustment part 30 can be four, and is arranged at described first respectively and carries Body and the corresponding diagonal zones of the Second support.

It is noted that in this way, in first support component 21 and second support component 22 Adjustment during, can be for described first to a complete camera module without being assembled into the optical lens 1 Adjustment effect between support component 21 and second support component 22 is judged.

Specifically, first support component 21 and second support component 22 are during the adjustment, can pass through One where a plane and first support component 21 of the relevant test equipment to test 10 place of lens assembly is flat The depth of parallelism between face, if 21 place of the plane at 10 place of the lens assembly and first support component is described The depth of parallelism between plane reaches requirement, then inclined light shaft of the lens assembly 10 relative to first support component 21 Degree also reaches corresponding requirements.

After completing the adjustment between first support component 21 and second support component 22, first support The relative position of component 21 and second support component 22 can be fixed so that first support component 21 and described Two support components 22 are maintained at position adjusted.

It is noted that first support component 21 and second support component 22 can play the work of a motor With so that the optical lens 1 is a dynamic burnt optical lens 1.In other words, the lens assembly 10 is relative to described first The position of support component 21 can be adjusted to achieve focusing.

It will be further appreciated that first support component 21 and second support component 22 are during the adjustment not It needs to be adjusted entire first support component 21 and entire second support component 22, described first of part Support component 21 and second support component 22 can be fixed, hence for the first support component 21 described in other part and separately Second support component 22 described in outer portion is adjusted.

Specifically, first support component 21 include a first vector 211, one first flexible connector 212 and One first support base 213, wherein first support base 213 has one first accommodating chamber, wherein the first vector 211 passes through First flexible connector 212 is connected to first support base 213.Further, the first vector 211 is removable It is held in the inside of first support base 213 dynamicly.

First support base 213 and the first vector 211 are all ring structure, and the first vector 211 has one First accommodating chamber passes through the first vector wherein the lens assembly 10 is received and is fixed on the first vector 211 211 supporting role is supported on first support base 213.

The first vector 211 driveably to be subjected to displacement is supported by first flexible connector 212 In first support base 213.The first vector 211 has a lateral surface, and first support base 213 has an inside Face, wherein being formed with one between the lateral surface of the first vector 211 and the medial surface of first support base 213 Displacement space, so that the first vector 211 moves in first accommodating chamber of first support base 213, to change The relative position and distance become between the lens assembly 10 and the photosensory assembly is to realize the purpose of focusing.

More particularly, the supporting mechanism 20 includes a driving assembly 23, and wherein the driving component 23 includes one First actuator 231 and one second actuator 232, wherein first actuator 231 is arranged at the first vector 211, Second actuator 232 is arranged at first support base 213, in energization, first actuator 231 and institute It states the second actuator 232 and generates interaction, first actuator 231 can be driven by second actuator 232 to transport Dynamic, first actuator 231 can be transported relative to 232 side-to-side movement of the second actuator, the either front and back that moves up and down It is dynamic.

The first vector 211 is driven by first actuator 231 to which the first vector 211 is relative to described the One support base, 213 position changes, and then is carried on the lens assembly 10 of the first vector 211 relative to described The position of one support base 213 can be changed.That is, the optical lens 1 is an auto-focusing optical lens 1.It can be with Understand, the lens assembly 10 is supported on the first vector 211 along position in side week, in the lens assembly 10 Up and down direction be not supported.The lens assembly 10 can be axially under the drive of the first vector 211 Direction moves up and down, and can also move back and forth along radial direction.

First flexible connector 212 gives 211 1 supporting force of first vector to carry described first Body 211 is maintained at first support base 213.First flexible connector 212 receives in itself to be carried from described first The pulling force of body 211.Optionally, first flexible connector 212 can be located at the side of the first vector 211, can also be with Positioned at a top surface of the first vector 211.

Second support component 22 includes a Second support 221, one second flexible connector 222 and one second support Seat 223, wherein the Second support 221 is suspended and the Second support 221 passes through 222 quilt of the second flexible connector It is supported in the Second support 221.

The shape that the position of the Second support 221 and second support base 223 passes through second flexible connector 222 Change can be changed.That is, when the first vector 211 of first support component 21 moves, described second Support component 22 can not only play a supporting role for the first vector 211, and described the second of second support component 22 Carrier 221 can also follow the first vector 211 to move.It further says, second support component 22 is described in the support The movement of the first vector 211 will not be caused to limit during the first vector 211 of first support component 21, So that the optical lens 1, after being assembled into the camera module, the focusability of the optical lens 1 is relative to traditional The focusability of motor type camera module can be kept.

Specifically, the first vector 211 of first support component 21 has a high-end and low side, wherein institute The high-end low side higher than the first vector 211 for stating first vector 211, wherein the institute of the first vector 211 It states low side and is supported on second support component 22.More specifically, in this example, the institute of first support component 21 State first vector 211 it is described it is high-end the first shell is supported on by first flexible connector 212, described first The low side of the first vector 211 of support component 21 passes through the Second support 221 and second flexible connector 222 are supported on second support base 223.

For the first vector 211, when the driving component 23 works, positioned at the first vector 211 First actuator 231 is actuated to move relative to second actuator 232 for being located at first support base 213, The first vector 211 is driven movement to be fixed in described the of the first vector 211 by the adjustment part 30 The Second support 221 of two support components 22 is driven movement, and corresponding deformation occurs for second flexible connector 222.

By such manner, adjust the first vector 211 relative to first support base 213 position to adjust When the position of the lens assembly 10, the movement of the first vector 211 can't be limited by second support base 223 to be moved Range, while second support base 223 can support first vector 211 in the vertical direction instead described in second The Second support 221 of support seat 223 can follow the first vector 211 to move.

In other examples of the utility model, first actuator 231 can be arranged at second support The Second support 221 of component 22, second actuator 232 can be arranged at the described of first support component 21 First support base 213, first actuator 231 by second actuator 232 when being driven, 221 band of Second support It moves the first vector 211 to move, to realize focusing.

Further, in this example, first support component 21 has one first joint face, the second support group Part 22 has one second joint face, and being fixedly connected between first support component 21 and second support component 22 passes through Between first joint face and second support component 22 and second joint face of first support component 21 It is fixedly connected.That is, first joint face of first support component 21 is fixed in described the by the adjustment part 30 Second joint face of two support components 22.More specifically, first joint face is formed in the one of the first vector 211 Bottom surface, second joint face are formed in the top surface of the Second support 221 of second support component 22.Described first connects The depth of parallelism of junction and the place plane of second joint face can be adjusted by the position and height of the adjustment part 30, The position of the i.e. described adjustment part 30 and form are suitable for and fix the relative position of the first joint face and the second joint face.

The Second support 221 of second support base 223 and second flexible connector 222 can be and pass through group Dress mode connects, and specifically, the Second support 221 has multiple positioning columns, and second flexible connector has more A location hole, the positioning column and the location hole are chimeric mutually, so that the Second support 221 and second elastic connection Part 222 assembles and fixes.It is integrally formed for being also possible to the Second support 221 and second flexible connector 222.? That is second joint face can be formed in a top surface of second flexible connector 222.

Further, in this example, the Second support 221 and second support base 223 are not on same axis Line, that is to say, that the Second support 221 is not maintained at the vertical direction of second support base 223, and described second Carrier 221 favours second support base 223.For second flexible connector 222, second elastic connection Part 222 is located at an inclined direction, and second flexible connector 222 is supported in the Second support 221 in second support Seat 223.

During the focusing process, it is usually required mainly for the lens assembly 10 lower movement in the vertical direction, inclined described second Flexible connector 222 can follow the Second support 221 to be driven down in the vertical direction relatively easily to which shape occur Become.

With reference to shown in attached drawing 3A, the assembling of the camera module 100 of a preferred embodiment according to the present utility model It is shown in journey.First support component 21 with the lens assembly 10 be assembled in second support component 22 with Form the optical lens 1.In this process, the inclined light shaft degree of the lens assembly 10 is adjusted.Then by the light It learns camera lens 1 and is assembled in the photosensory assembly 2 to form the camera module 100.

The lens assembly 10 includes multiple eyeglasses 11 and a lens barrel 12, wherein each eyeglass 11 be held in it is described Lens barrel 12 is to form a light passing path.First support component 21 includes the first vector 211, first elastic connection Part 212 and first support base 213.The lens assembly 10 is supported on first support component 21 in radial direction The first vector 211.

It is to be appreciated that the single lens assembly 10 can be assembled in first support component 21.It is also possible to The lens barrel 12 of the lens assembly 10 is shaped in the first vector 211 of first support component 21, so The eyeglass 11 is installed on the lens barrel 12 afterwards.

Second support component 22 is installed in first support component 21 with the lens assembly 10 In the process, after the inclined light shaft degree of the lens assembly 10 can be adjusted to be conducive to be assembled into the camera module 100 Imaging effect.

Specifically, first support component 21 and the second support group of the lens assembly 10 will be had first Part 22 is pre-positioned respectively to a preset position, then for first support component 21 and second support component 22 Relative position be adjusted, in this process, as first support component 21 is relative to second support component 22 position is adjusted, and is fixed on the lens assembly 10 of first support component 21 relative to second support component 22 position is also adapted accordingly.More particularly, described in first support component 21 by the lens assembly 10 Second support base 223 of second support component 22 of first support base 213 and second support component 22 is distinguished It is pre-positioned, then the opposite position of the first vector 211 for first support component 21 and the Second support 221 It sets and is adjusted, the lens assembly 10 is fixed and held in the first vector 211, thus in 211 He of first vector During the relative position adjustment of the Second support 221, position of the lens assembly 10 relative to the Second support 221 It sets and is either also adapted accordingly relative to the position of first support base 213, to adjust the optical axis of the lens assembly 10 Gradient.

Further, the adjustment of first support component 21 and 22 relative position of the second support component mainly adjusts Be the first vector 211 of first support component 21 and the Second support 221 of second support component 22 Between relative position.The first vector 211 of first support component 21 is a ring structure, is carried for described first For body 211, the plane where the first vector 211 may be tilted for first support base 213, Such as the plane where making the bottom surface of the first vector 211 in some cases is not a horizontal plane, then Can by the adjustment part 30 the bottom surface of the first vector 211 different location and different-thickness be arranged so that institute The Second support 221 of the second support base 223 is stated when being supported in the first vector 211, the first vector 211 can It is corrected to a horizontal plane.Certainly herein by way of example only, signal can be adjusted by way of the adjustment part 30 is arranged The gradient of the whole first vector 211, so that the inclined light shaft degree of the lens assembly 10 can be adjusted.

It is understood that during the adjustment, the first support group with the lens assembly 10 can be kept The first vector 211 of part 21 is located at a fixed position, by adjusting the Second support of second support component 22 221 position with change first support base 213 the first vector 211 and second support base 223 described Relative position between two carriers 221 can also keep the Second support 221 of second support component 22 fixed in one Position, by adjusting with the lens assembly 10 first support component 21 the first vector 211 position with Change first support base 213 the first vector 211 and second support base 223 the Second support 221 it Between relative position, can also simultaneously for the lens assembly 10 first support component 21 it is described first carry Body 211 and the Second support 221 of second support component 22 are adjusted separately, to change first support base Relative position between 213 first vector 211 and the Second support 221 of second support base 223, thus school Inclined light shaft degree of the just described lens assembly 10 relative to first support base 213 of first support component 21.

More specifically, first support component with the lens assembly 10 can be pre-positioned by a jig 21 first support base 213 and second support base 223 of second support component 22, then change described first The relative position of the Second support 221 of the first vector 211 of support component 21 and second support component 22 is come Correction, to change the either mirror of first support base 213 of the lens assembly 10 and first support component 21 The relative position of head assembly 10 and second support base 223, to correct the lens assembly 10 relative to described first The inclined light shaft degree of support component 21.

In correction course, the judgement for correcting result can be by the lens assembly 10 relative to the first support group The depth of parallelism of first support base 213 of part 21 judges, can also by the lens assembly 10 relative to described second The depth of parallelism of second support base 223 of support component 22 judges.

In other examples of the utility model, first support component 21 can be fixed respectively by a gripper First support base 213 and second support component 22 second support base 223, then adjust described first The relative position of the Second support 221 of the first vector 211 of support component 21 and second support component 22, passes through Laser-measured height come measure the lens assembly 10 and first support component 21 first support base, 213 place plane or Person be the depth of parallelism of second support base, the 223 place plane of the lens assembly 10 and second support component 22 come into The corresponding adjustment of row.

Further, in the first vector 211 of first support component 21 and second support component 22 After the Second support 221 is adjusted, the first vector 211 of first support component 21 and second support The Second support 221 of component 22 be fixed after the adjustment position to be assembled into the optical lens 1.

Then the optical lens 1 is installed on the photosensory assembly 2 to be assembled into the camera module 100.Specifically, The photosensory assembly 2 includes a microscope base 201, a wiring board 202 and a sensitive chip 203, wherein the sensitive chip 203 is by can It is conductively connected to the wiring board 202 and is located at a front of the wiring board 202, the microscope base 201 is installed in institute The front and the microscope base 201 for stating wiring board 202 surround and form an optical window, can by the light of the optical lens 1 To reach the sensitive chip 203 by the optical window to be received by the sensitive chip 203.The photosensory assembly 2 may be used also To include a filter element, wherein the filter element is supported on the microscope base 201 to be filtered to light.

It, can be by first support component 21 in the assembling process of the optical lens 1 and the photosensory assembly 2 First support base 213 is supported directly on the microscope base 201, while described the second of second support component 22 being supported Seat 223 is supported directly on the microscope base 201.The support force that the lens assembly 10 is subject to for the lens assembly 10 comes Derived from first support component 21 and second support component 22.First support base of first support component 21 One bottom surface of second support base 223 of 213 bottom surface and second support component 22 can be supported on described Microscope base 201, so that the gravity of the lens assembly 10 to be dispersed to the bottom surface and described second of first support base 213 The bottom surface of support base 223, and then the lens assembly 10 can be by first support component 21 and second described Support component 22 is more fixedly supported in the microscope base 201.

In the assembling process of the optical lens 1 and the photosensory assembly 2, described the of second support component 22 Two support bases 223 are supported directly on the microscope base 201, and by first support base 213 of first support component 21 It is supported directly on second support base 223 of second support component 22.For example, can either be welded by attachment Second support base 223 of second support component 22 is connected to the microscope base 201 by the mode connect, and by described First support base 213 of one support component 21 is supported in second support base in such a way that attachment is either welded 223。

Second support base 223 of second support component 22 can be configured with a biggish surface area, thus The lens assembly 10 is more fixedly supported in the microscope base 201 of the photosensory assembly 2.

In other embodiments of the utility model, in the assembling process of the optical lens 1 and the photosensory assembly 2 In, it can be by described the second of first support base 213 of first support component 21 and second support component 22 Support base 223 is supported directly upon the microscope base 201 of the photosensory assembly 2 respectively, in this way, the microscope base 201 Component can be supported on simultaneously first support component 21 first support base 213 and second support component 22 Second support base 223, on the one hand enable the weight of 201 component of microscope base to be dispersed to the first support group First support base 213 of part 21 and second support base 223 of second support component 22, on the other hand make institute State the support that 201 component of microscope base can be consolidated more.

Further, in this example, the number of first flexible connector 212 and second flexible connector 222 Mesh is one respectively, and first flexible connector 212 is located at the first vector 211, across the first vector 211 and institute The space between the first support base 213 is stated to be separately connected the first vector 211 and first support base 213.Another institute It states the second flexible connector 222 and is located at the Second support 221, be connected to the Second support 221 and second described Seat 223 is supportted, the Second support 221 is movably supported on second support base 223.

It is understood that the number of first flexible connector 212 and second flexible connector 222 and unlimited Be formed on one, the number of first flexible connector 212 and second flexible connector 222 can be it is multiple, described first The elastic force and number of flexible connector 212 and second flexible connector 222 and position can be chosen according to demand It selects.

Further, it is arranged at the adjustment part 30 between the first vector 211 and the Second support 221 Set-up mode can be multiplicity.For example, the adjustment part 30 can be annular when the adjustment part 30 is colloid 's.The adjustment part 30 can be set to full of the completely bottom surface of the first vector 211 and the Second support 221 Space between the top surface.Corresponding to first flexible connector 212, there are four corner positions for the tool of first vector 211 It sets, each adjustment part 30 can be arranged at the angular position of the first vector 211, and the number of the adjustment part 30 is Four.The adjustment part 30 can also be arranged at the diagonal position of the first vector 211, in this way, the tune One integral piece 30 can steadily support the first vector 211 in the Second support 221, so that the first vector 211 and institute Second support 221 is stated firmly to connect.

It is a positioning column in the adjustment part 30 in other embodiments of the utility model, the adjustment part 30 The diagonal position of the angular position either first vector 211 of the first vector 211 can be arranged at.It can of course Understand, can be positioned at 30 height of the adjustment part of different location identical, is also possible to different, the adjustment part 30 height is adapted to the first vector 211 and the adjustment result of the Second support 221 is set.

With reference to shown in attached drawing 3B, a change of the camera module 100 of above-mentioned preferred embodiment according to the present utility model Shape embodiment is elucidated with.

The difference of the present embodiment and above-described embodiment essentially consists in the optical lens 1 of the camera module 100 With the assembly method of the photosensory assembly 2.

Specifically, in this example, the photosensory assembly 2 includes the microscope base 201, the wiring board 202 and described Sensitive chip 203, wherein the sensitive chip 203 can be conductively connected to the wiring board 202 and be located at the route One front of plate 202, the microscope base 201 are installed in the front of the wiring board 202 and the microscope base 201 around shape At an optical window, the sensitive chip 203 can be reached by the optical window to described by the light of the optical lens 1 Sensitive chip 203 receives.

Described second of first support base 213 of first support component 21 and second support component 22 Support seat 223 is supported directly upon the microscope base 201 respectively.Second support base 223 is located in first support base 213 Side.

In this way, on the one hand the gravity of the lens assembly 10 can be dispersed to first support base 213 and second support base 223, so that the lens assembly 10 is more fixedly supported, on the other hand, for the mirror For seat 201, the contact area of the microscope base 201 and the optical lens 1 becomes larger, and avoids the microscope base 201 in unit area The pressure being subject to is excessive, that is to say, that the weight for avoiding the optical lens 1 concentrates on certain positions of the microscope base 201.

With reference to shown in attached drawing 4A, a deformation of the optical lens 1 of above-mentioned preferred embodiment according to the present utility model Embodiment is elucidated with.

In this example and above-described embodiment is main difference is that second support component 22.

First support component 21 includes the first vector 211, first flexible connector 212 and described the One support base 213, wherein the first vector 211 is by first flexible connector 212 by relative to first support Seat 213 is movably held in 213 inside of the first support base.

Second support component 22 includes the Second support 221, second flexible connector 222 and described the Two support bases 223, wherein the Second support 221 is by second flexible connector 222 by relative to second support Seat 223 is movably supported on second support base 223.

After the first vector 211 and the Second support 221 adjust relative position, the adjustment part 30 is arranged on The first vector 211 and the Second support 221 are kept between the first vector 211 and the Second support 221 Relative position.In first support component 21 and the mutually assembling of second support component 22 with the lens assembly 10 After the optical lens 1,211 one side of first vector is by the supporting role from first support base 213 Power, on the other hand by the supporting force from the Second support 221.First support base 213 is for described The supporting force of one carrier 211 is predominantly located at a radial direction, and the Second support 221 is for the first vector 211 Supporting force is located at a vertical direction.Further, the first vector 211 is by can relative to first support base 213 It is movably supported in first support base 213, the first vector 211 is moved relative to second support base 223 Ground is supported on second support base 223 by the Second support 221, so that the first vector 211 is in the driving It can be moved in multiple directions under the action of component 23.

In this example, second support base 223 of second support component 22 is connected to first support First support base 213 of component 21.That is, first support base 213 and second support base 223 is opposite Position is fixed.

Have a certain distance with leaving space for adjustment between second support base 223 and the first vector 211 The relative position of the Second support 221 and the first vector 211.

In this way, the optical lens 1 passes through described first when being installed in the photosensory assembly 2 First support base 213 of support component 21, the lens assembly 10 can be supported on the photosensory assembly 2 to be maintained at One photosensitive path of the photosensory assembly 2.

First support base 213 has a medial surface, wherein second support base 223 is set from described first The medial surface of support seat 213 extends inwardly.Optionally, second support base 223 can be assembled in described first Support base 213, such as in a manner of attachment.Optionally, second support base 223 can be shaped in described first Support seat 213.

It is a change of the optical lens 1 of above-mentioned preferred embodiment according to the present utility model with reference to shown in attached drawing 4B Shape embodiment.

In this example, second support base 223 is shaped in first support base 213.Further, described First support base 213 has a medial surface, and second supporting surface has a medial surface, wherein first support base 213 The medial surface of the medial surface and second support base 223 is generally aligned in the same plane.Further, first support Seat 213 is equivalent to second support base 223, and the Second support 221 is played by second flexible connector 222 Supporting role.

With reference to shown in attached drawing 5, a variant embodiment of the camera module 100 according to the present utility model.

In this example and the corresponding embodiment of attached drawing 3 is main difference is that second support component 22.

In this example, second flexible connector 222 of second support component 22 is located at an inclined direction, and It and is inclined outwardly from bottom to top.

Specifically, the Second support 221 of second support component 22 is located at the upper of second support base 223 Side and the inside for being located at second support base 223, second flexible connector 222 are connected to the Second support 221 and second support base 223.In this way, the size especially area size of second support component 22 It can be reduced, so that the area size for being conducive to a upper surface of the microscope base 201 is reduced.Specifically, described When one support component 21 and second support component 22 are respectively supported at the microscope base 201, positioned at described the second of inside The diminution of the area size of support component 22 is conducive to reduce the upper surface size of the microscope base 201, because of the microscope base 201 upper surface it is reserved to support the space of second support component 22 that can be reduced, thus described first The base area size of first support base 213 of support component 21 can be extended so that first support component 21 and the lens assembly 10 be more fixedly supported in the microscope base 201.

In other embodiments of the utility model, second flexible connector of second support component 22 222 extend from second support base 223 towards a vertical direction.In other embodiments of the utility model, described Second flexible connector 222 of two support components 22 extends inwardly from second support base 223.

With reference to shown in attached drawing 6, a deformation of the optical lens 1 of above-mentioned preferred embodiment according to the present utility model is real Example is applied to be elucidated with.

In this example, first support component 21 includes the first vector 211,2 first flexible connectors 212 and one first support base 213, wherein first flexible connector 212 is located at the described of the first vector 211 The high-end and described low side.It is, of course, understood that 2 first flexible connectors 212 can be located at described first The other positions of the side of carrier 211, first flexible connector 212 can also be located at the first vector 211 top surface or the bottom surface.In other words, diameter of first flexible connector 212 in the first vector 211 It is that the first vector 211 provides support to direction.

Second support component 22 includes Second support 221, second flexible connector 222 and second described Seat 223 is supportted, in this example, second flexible connector 222 is located at a short transverse.Further, the Second support 221 are maintained at the short transverse of second support base 223.

When adjusting the relative position of the first vector 211 and the Second support 221, second flexible connector 222 can deformation occurs so that the position of the first vector 211 and the Second support 221 vertical direction either in water Square to changing.In subsequent focus process, the first vector 211 under the action of the driving member can be upper and lower It is mobile, while the lens assembly 10 being driven to move up and down, in this course, second flexible connector 222 can't The movement of the first vector 211 is caused to limit, first flexible connector 212 will not be for the first vector 211 up and down motion causes to limit, while it is noted that two first flexible connectors 212 can also be for institute The movement for stating first vector 211 causes to limit, to avoid light shaft offset occurs.

In other examples of the utility model, the number of first flexible connector 212 is two, and described in one First flexible connector 212 is between the first vector 211 and first support base 213, another first elasticity Connector 212 is between the Second support 221 and first support base 213.

With reference to shown in attached drawing 7, another embodiment of an optical lens 1 according to the present utility model is elucidated with.

The optical lens 1 includes a lens assembly 10 and a supporting mechanism 20, wherein the lens assembly 10 is kept In the supporting mechanism 20.The supporting mechanism 20 includes one first support component 21, one second support component 22 and at least One adjustment part 30A, wherein first support component 21 includes a first vector 211, one first flexible connector 212 and one First support base 213, wherein the first vector 211 is by first flexible connector 212 by relative to described first Support seat 213 is movably held in 213 inside of the first support base.

Second support component 22 includes a Second support 221, one second flexible connector 222 and one second support Seat 223, wherein the Second support 221 is by second flexible connector 222 by can relative to second support base 223 Movably it is supported in second support base 223.

In this example, the adjustment part 30A is a screw rod, and the first vector 211 has an at least first positioning hole 2110, the Second support 221 has an at least second location hole 2210, wherein the first positioning hole 2110 and described second Location hole 2210 is matched with the both ends of the adjustment part 30A respectively.The first positioning hole 2110 and the second location hole 2210 are respectively provided with certain depth, by adjusting the adjustment part 30A relative to the first positioning hole 2110 and described The position of two location holes 2210 can change the relative position of the first vector 211 and Second support 221.

With reference to shown in attached drawing 8, a camera module 100 of another preferred embodiment according to the present utility model.The camera shooting The inclined light shaft of the lens assembly 10 of mould group 100 in an assembling process can be adjusted.

Specifically, the camera module 100 includes an optical lens 1 and a photosensory assembly 2, wherein the optical lens 1 is maintained at a photosensitive path of the photosensory assembly 2.The optical lens 1 includes the lens assembly 10 and a support machine Structure 20, wherein the lens assembly 10 includes multiple eyeglasses 11 and a lens barrel 12, wherein each eyeglass 11 is held in institute Lens barrel 12 is stated to form a light passing path.Wherein the supporting mechanism 20 includes one first support component 21 and one second support group Part 22, wherein the lens assembly 10 is maintained at first support component 21.

First support component 21 includes a first vector 211, one first flexible connector 212 and one first support Seat 213, wherein the first vector 211 is supported on first support base 213 by first flexible connector 212. Second support component 22 includes a Second support 221, one second flexible connector 222 and one second support base 223, Described in Second support 221 second support base 223 is supported on by second flexible connector 222.

The first vector 211 of first support component 21 is supported on described the of second support component 22 Two carriers 221.

The optical lens 1 further comprises an at least adjustment part 30, wherein the adjustment part 30 is located at described first Support component 21 and second support component 22.

After the first vector 211 and the Second support 221 adjust relative position, the adjustment part 30 is arranged on The first vector 211 and the Second support 221 are kept between the first vector 211 and the Second support 221 Relative position.The adjustment part 30 is located at the first vector 211 and the second support group of first support component 21 Between the Second support 221 of part 22.The institute for being supported on the Second support 221 by the way that the change of adjustment part 30 is arranged The plan-position where first vector 211 is stated, to realize the adjustment of the inclined light shaft degree for the lens assembly 10.In this way Correcting mode, very simple is convenient.

Further, in first support component 21 and second support component 22 for having the lens assembly 10 After being mutually assembled into the optical lens 1,211 one side of first vector is by from first support base 213 Supporting force, on the other hand by the supporting force from the Second support 221.First support base 213 is right It is predominantly located at a radial direction in the supporting force of the first vector 211, the Second support 221 is carried for described first The supporting force of body 211 is located at a vertical direction.Further, the first vector 211 is by relative to first support Seat 213 is movably supported on first support base 213, and the first vector 211 is by relative to second support base 223 It movably passes through the Second support 221 and is supported on second support base 223, so that the first vector 211 is in institute Stating can move in multiple directions under the action of driving assembly 23.

It is noted that in this example, second support base 223 of second support component 22 by one at Second support base of the type in the microscope base 201 of the photosensory assembly 2, without fixation second support component 22 223 and the photosensory assembly 2.

During assembling camera module 100, described the first of the lens assembly 10 will can be directly had Support component 21, which is placed on the photosensory assembly 2 with second support component 22, carries out 211 He of first vector The adjustment of 221 relative position of Second support.After adjustment, then pass through the fixed first vector of the adjustment part 30 211 and the Second support 221 relative position.

In this example, a upper surface of the microscope base 201 is a plane, and the part microscope base 201 forms described Two support bases 223.By integral forming process, it is not necessary that second support base 223 is adhered to the microscope base 201, to save About step assembling steps.

In other examples of the utility model, second support base 223 can protrude from the microscope base 201, That is the top surface of second support base 223 is higher than the top surface of the microscope base 201.

With reference to shown in attached drawing 9, a mobile electronic device 1000 of a preferred embodiment according to the present utility model is elucidated with. The mobile electronic device 1000 includes an electronic equipment ontology 200 and the camera module 100, wherein the camera module 100 are arranged at the electronic equipment ontology 200.

Another aspect according to the present utility model, the utility model provide the assemble method of the optical lens 1, packet Include following steps:

It is pre-positioned one end of first flexible connector 212 and one end of second flexible connector 222 respectively；

Adjustment is located at a first vector 211 of the other end of first flexible connector 212 and is located at second bullet The relative position of one Second support 221 of the other end of property connector 222 is held in the one of the first vector 211 to correct The inclined light shaft of lens assembly 10；And

An at least adjustment part 30 is set between the first vector 211 and the Second support 221 with fixation described One carrier 211 and the Second support 221 after adjustment position to be assembled into an optical lens 1.

Some embodiments according to the present utility model, in the above-mentioned methods, first flexible connector 212 are supported on One first support base 213, second flexible connector 222 are supported on one second support base 223, are pre-positioned described respectively One support base 213 and second support base 223.

Some embodiments according to the present utility model, in the above-mentioned methods, first flexible connector 211 and described Two flexible connectors 221 are supported on first support base 213 respectively.

Some embodiments according to the present utility model, in the above-mentioned methods, the adjustment part 30 is colloid.

Some embodiments according to the present utility model, in the above-mentioned methods, by being put down where the detection lens assembly 10 The depth of parallelism of 223 place plane of face and second support base judges adjustment effect.

Another aspect according to the present utility model, the utility model provide the assemble method of a camera module 100, packet Include following steps:

It is pre-positioned one end of one first flexible connector 212 and one end of one second flexible connector 222 respectively；

Adjustment is located at a first vector 211 of the other end of first flexible connector 212 and is located at second bullet The relative position of one Second support 221 of the other end of property connector 222 is held in the one of the first vector 211 to correct The fixed first vector 211 of the inclined light shaft of lens assembly 10 and the Second support 221 after adjustment position to be assembled into One optical lens 1；And

The optical lens 1 is assembled in a photosensory assembly 2 to be assembled into a camera module 100.

Some embodiments according to the present utility model, in the above-mentioned methods, first flexible connector 212 and described Two flexible connectors 222 are supported on first support base 213 respectively.

An at least adjustment part 30 is arranged in described first in the above-mentioned methods in some embodiments according to the present utility model Between carrier 211 and the Second support 221.

Some embodiments according to the present utility model, the adjustment part 30 is colloid.

Some embodiments according to the present utility model mount first support base 213 in the sense in the above-mentioned methods One microscope base 201 of optical assembly 2.

Some embodiments according to the present utility model mount second support base 223 in the sense in the above-mentioned methods One microscope base 201 of optical assembly 2.

Pre-determined bit has one first support base 213 of one first support component 21 of a lens assembly 10 and positioned at one respectively One second support base 223 of one second support component 22 of photosensory assembly 2；

Adjust a first vector 211 of first support component 21 and a Second support of second support component 22 221 relative position to adjust the inclined light shaft degree of the lens assembly 10, wherein the lens assembly 10 be held in it is described First vector 211；And

The fixed first vector 211 and the Second support 221 after adjustment position to be assembled into a camera module 100。

Some embodiments according to the present utility model, in the above-mentioned methods, a microscope base 201 of the photosensory assembly 2 and institute Second support base 223 for stating the second support component 22 is integrally formed.

Another aspect according to the present utility model, the utility model provide an inclined light shaft degree control method comprising Following steps:

Adjust a first vector 211 of one first support component 21 and a Second support 221 of one second support component 22 Relative position, wherein the first vector 211 and the Second support 221 can be supported in one first respectively up or down Support base 213 and one second support base 223, a lens assembly 10 are fixed and held in the first vector 211；And setting one Adjustment part 30 is between the first vector 211 and the Second support 221 with the fixation first vector 211 and described second The position after adjustment of carrier 221.

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

1. an optical lens characterized by comprising

One lens assembly；

An at least adjustment part；

One first support component；And

One second support component, wherein first support component include at least one first flexible connector, a first vector with And one first support base, wherein second support component includes at least one second flexible connector, a Second support and one Second support base, first flexible connector are connected to the first vector and first support base, wherein described First vector can be held on the inside of first support base up or down by first flexible connector, and described second Carrier can be supported in second support base by second flexible connector up or down, wherein the lens assembly It is held in the first vector, is assembled in the Second support in the first vector, the adjustment part is arranged at institute It states between first vector and the Second support, the Second support supports the first vector.

2. optical lens according to claim 1, wherein first support base is independent of second support base.

3. optical lens according to claim 1, wherein first support base is connected to second support base.

4. optical lens according to claim 3, wherein second support base is arranged to from first support base A medial surface extend inwardly.

5. optical lens according to claim 1, wherein the Second support is shaped in second elastic connection Part.

6. optical lens according to claim 1, wherein second flexible connector is set to described with being inclined by Between two carriers and second support base, the Second support is located at the oblique side of second support base.

7. optical lens according to claim 1, wherein second flexible connector is arranged to carry from described second Body extends towards second support base along vertical direction.

8. optical lens according to claim 1, wherein the number of the adjustment part is four, the adjustment part is located at described The angular position of first vector.

9. optical lens according to claim 1, wherein the number of the adjustment part is two, the adjustment part is located at described The diagonal position of first vector.

10. optical lens according to any one of claims 1 to 9, wherein the adjustment part is colloid.

11. optical lens according to any one of claims 1 to 9, wherein the adjustment part is a screw rod, wherein described first Carrier has multiple first positioning holes, and the Second support has multiple second location holes, wherein the both ends difference of adjustment part Assigned in the corresponding first positioning hole and the second location hole.

12. optical lens according to any one of claims 1 to 9, wherein the lens assembly includes an at least lens barrel and more A eyeglass, wherein the eyeglass is assembled in the lens barrel, the first vector of the lens barrel and first support component It is integrally formed.

13. optical lens according to claim 10, wherein the lens assembly includes an at least lens barrel and multiple eyeglasses, Wherein the eyeglass is assembled in the lens barrel, the first vector one of the lens barrel and first support component at Type.

14. optical lens according to claim 10 further comprises a driving assembly, wherein the driving component includes One first actuator and one second actuator, wherein first actuator is arranged at the first vector, described second is driven Moving part is arranged at first support base, wherein the first vector passes through first actuator and second actuator It can be driven to be movably held on the inside of first support base.

15. optical lens according to claim 10, wherein further comprising a driving assembly, wherein the driving group valence Including one first actuator and one second actuator, wherein first actuator is arranged at the Second support, described Two actuators are arranged at first support base, wherein the Second support is driven by first actuator and described second Moving part can be driven to be movably held in second support base, and the first vector can be driven by the Second support To be movably held on the inside of first support base.

16. an optical lens characterized by comprising

One lens assembly；

An at least adjustment part；

One supporting mechanism, wherein the supporting mechanism includes at least one first flexible connector, a first vector, one first support Seat, at least one second flexible connector and a Second support, wherein the lens assembly is held in the first vector, institute It states the first flexible connector and is connected to the first vector and first support base, the first vector passes through described the One flexible connector can be held in up or down on the inside of first support base, wherein second flexible connector is distinguished It is connected to the Second support and first support base, the Second support can be moved up and down by second elastic component Ground is held on the inside of first support base, is assembled in the Second support in the first vector, the adjustment part is set It is placed between the first vector and the Second support, the Second support supports the first vector.

17. a camera module characterized by comprising

One lens assembly；

An at least adjustment part；

One supporting mechanism, wherein the supporting mechanism includes one first support component and one second support component, wherein described the One support component includes at least one first flexible connector, a first vector and one first support base, wherein described second Support component includes at least one second flexible connector, a Second support and one second support base, first flexible connector It is connected to the first vector and first support base, wherein the first vector passes through first flexible connector It can be held in up or down on the inside of first support base, the Second support can by the second flexible connector quilt It is supported in second support base up or down, wherein the lens assembly is held in the first vector, described One carrier is assembled in the Second support, and the adjustment part is arranged between the first vector and the Second support, The Second support supports the first vector；And

One photosensory assembly, wherein the supporting mechanism, which is supported on the photosensory assembly, is held in institute for the lens assembly simultaneously State a photosensitive path of photosensory assembly.

18. camera module according to claim 17, wherein the photosensory assembly includes a microscope base, a sensitive chip and one Wiring board, wherein the sensitive chip can be conductively connected to the wiring board, and the sensitive chip and the microscope base It is mounted on a front of the wiring board respectively, wherein first support base of first support component is supported on institute State microscope base.

19. camera module according to claim 18, wherein second support base of second support component is pasted Loaded on the microscope base.

20. camera module according to claim 18, wherein second support base one of second support component Take shape in the microscope base.

21. camera module according to claim 18, wherein first support base has a medial surface, wherein described the The medial surface of two support bases from first support base extends inwardly.

22. camera module according to claim 17, wherein the photosensory assembly includes a microscope base, a sensitive chip and one Wiring board, wherein the sensitive chip can be conductively connected to the wiring board, and the sensitive chip and the microscope base It is mounted on a front of the wiring board respectively, wherein second support base of second support component is mounted on institute First support base for stating microscope base and first support component is supported on the microscope base by second support base.

23. 7 to 22 any camera module according to claim 1, wherein the number of first flexible connector is two, First flexible connector is located at the both ends of the first vector.

24. 7 to 22 any camera module according to claim 1, wherein the number of first flexible connector is two, One first flexible connector is located at the first vector, and another first flexible connector is located at the Second support.

25. 7 to 22 any camera module according to claim 1, wherein the Second support is shaped in described the Two flexible connectors.

26. 7 to 22 any camera module according to claim 1, wherein second flexible connector is set with being inclined by It is placed between the Second support and second support base, the Second support is located at the oblique side of second support base.

27. 7 to 22 any camera module according to claim 1, wherein second flexible connector is located at described the The short transverse of two support bases.

28. 7 to 22 any camera module according to claim 1, wherein the adjustment part is colloid.

29. 7 to 22 any camera module according to claim 1, wherein the adjustment part is a screw rod, wherein described the One carrier has multiple first positioning holes, and the Second support has multiple second location holes, wherein the both ends difference of adjustment part It is matched with the corresponding first positioning hole and the second location hole.

30. 7 to 22 any camera module according to claim 1, wherein the lens assembly include an at least lens barrel and Multiple eyeglasses, wherein the eyeglass is assembled in the lens barrel, first load of the lens barrel and first support component Body by integral forming.

31. 7 to 22 any camera module according to claim 1, wherein the lens assembly include an at least lens barrel and Multiple eyeglasses, wherein the eyeglass is assembled in the lens barrel, first load of the lens barrel and first support component Body by integral forming.

32. 7 to 22 any camera module according to claim 1, wherein the supporting mechanism further comprises a driving Component, wherein the driving component includes one first actuator and one second actuator, wherein first actuator is set In the first vector, second actuator is arranged at first support base, wherein the first vector is described in First actuator and second actuator can be driven to be movably held on the inside of first support base.

33. a camera module characterized by comprising

One lens assembly；

An at least adjustment part；

One supporting mechanism, wherein the supporting mechanism includes at least one first flexible connector, a first vector, one first support Seat, at least one second flexible connector and a Second support, wherein the lens assembly is held in the first vector, institute It states the first flexible connector and is connected to the first vector and first support base, the first vector passes through described the One flexible connector can be held in up or down on the inside of first support base, wherein second flexible connector is distinguished It is connected to the Second support and first support base, the Second support can be moved up and down by second elastic component Ground is held on the inside of first support base, is assembled in the Second support in the first vector, the adjustment part is set It is placed between the first vector and the Second support, the Second support supports the first vector；And