CN108227107A - Lens assembly and photographic device using same - Google Patents

Abstract

The invention provides a lens assembly and a photographic device using the same. The lens clamping piece comprises a front cover and a side cover extending out from the edge of the front cover. An opening is defined in the front cover. The lens is arranged on the lens clamping piece, so that the optical axis of the lens is aligned with the opening. The clamping part protrudes outwards from the side cover, and the projection of the clamping part in the direction parallel to the optical axis is positioned on the lens.

Description

The camera of lens assembly and the application lens assembly

Technical field

The present invention relates to a kind of lens assembly and application lens assembly camera more particularly to it is a kind of have it is smaller The lens assembly of volume applies the camera of the lens assembly.

Background technology

With scientific and technological progress, camera technique continually strengthen and prices, camera function become portable electronic production The basic function of product, therefore various portable electronic products such as mobile phone, personal digital assistant (PDA), laptop, tablet Computer etc. is generally equipped with a small scale camera so that user shoots the image of daily life.

In general, a small scale camera includes Image Sensor and lens assembly.Image Sensor is, for example, charge Coupling element (charge coupled device, CCD) or Complementary MOS sensing element (complementary Metal oxide semiconductor sensor, CMOS sensor) etc..

Lens assembly includes lens barrel and microscope base, and wherein threaded portion is arranged on lens barrel and microscope base.Lens barrel and microscope base During being subject to assembling by threaded portion, by the rotation of lens barrel, lens barrel can be adjusted relative to the position of microscope base, be made Image is projected on the image plane of Image Sensor.The inevasible increasing caused in lens assembly volume in above-mentioned threaded portion Add, and portability is caused to reduce, be not inconsistent electronic device towards the trend of light and handy slimming development.Therefore, one kind overcomes above-mentioned existing There is the camera lens module of structure limitation of technology i.e. by demand.

On the other hand, Japanese patent application publication No. special open 2012-256040 discloses a kind of camera lens module, and wherein camera lens is by connecing Agent connection lens bearing seat.Such combination structural strength is weaker, and because the scarce limit of personnel's assembling, camera lens also may It is tilted relative to lens bearing seat, unfavorable image quality is promoted.

Invention content

A primary object of the present invention is to provide a kind of micromation lens assembly, including a holding section, with mirror Corresponding groove is combined on seat.Above-mentioned holding section is set, and phase in the case that not influencing lens assembly intended optical effect The lens assembly for not having helicitic texture compared with tradition has smaller volume and lighter weight.

Another main purpose of the present invention is to provide a kind of camera of application micromation lens assembly, with tool There are smaller volume and lighter weight.

Section Example according to the present invention, above-mentioned lens assembly include a camera lens clamping piece, an eyeglass and a holding section. Camera lens clamping piece includes a protecgulum and a side cover extended from the edge of the protecgulum.One trepanning is defined in the protecgulum.The mirror Piece is set to the camera lens clamping piece, makes the trepanning of the optical axis alignment of the eyeglass.The holding section protrudes outwardly from the side cover, and the card Projection of the conjunction portion on the parallel optical axis direction is located on the eyeglass.

In the above-described embodiments, the holding section is compared with the eyeglass close to the light incident surface of the lens assembly, and the holding section is tight The adjacent protecgulum.Alternatively, the holding section is compared with light incident surface of the eyeglass far from the lens assembly.

In the above-described embodiments, which includes a first annular portion, a linking part and one second ring part.Linking part connects The first annular portion is tied close to the side of the protecgulum.Second ring part links the first annular portion via the linking part.Vertical On the optical axis direction, the width of second ring part is small compared with the width in the first annular portion.The holding section is set to second ring Shape portion is simultaneously separated by a spacing with the linking part.

Alternatively, the side cover includes a first annular portion, a linking part and one second ring part.Linking part links first ring Side of the shape portion far from the protecgulum.Second ring part links the first annular portion via the linking part, wherein in the vertical optical axis On direction, the width of second ring part is small compared with the width in the first annular portion.The holding section is set to second ring part simultaneously It is separated by a spacing with the linking part.

In the above-described embodiments, lens assembly includes multiple holding divisions, and the holding division is provided at circumferentially spaced in the side cover.

In the above-described embodiments, projection of the holding section on the parallel optical axis direction is positioned at the optics significant surface of the eyeglass On.

Another object of the present invention is to provide one camera.Camera includes the camera lens of any of the above-described embodiment Component and an Image Sensor.The optical axis of the Image Sensor along the eyeglass sets and is configured to receive through the eyeglass Light.

In the above-described embodiments, camera further includes a microscope base, a driving coil and a drive magnet.The microscope base includes One surrounds the ontology of side cover setting and is formed in a bulge-structure of the internal face of the ontology.It is convex that the holding section is resisted against this Structure is played, to fix the lens assembly on the microscope base.Driving coil is set to the ontology of the microscope base, and drive magnet, phase The driving coil is set.

The camera advantages and beneficial effects of lens assembly provided by the invention and the application lens assembly are：This hair Bright holding section is set in the case that not influencing lens assembly intended optical effect, and does not have helicitic texture compared to tradition Lens assembly has smaller volume and lighter weight.

Description of the drawings

Complete disclosure is done according to attached drawing appended by following detailed description and cooperation.It should be noted that one according to this industry As operation, attached drawing is simultaneously not necessarily drawn to scale.In fact, the size of element may be arbitrarily zoomed in or out, it is clear to do Explanation.

Fig. 1 is the Structure explosion diagram according to the camera of the section Example of the present invention.

Fig. 2 is the part-structure schematic diagram according to the microscope base of the section Example of the present invention.

Fig. 3 A are the stereogram according to the lens assembly of the section Example of the present invention.

Fig. 3 B are the side view according to the lens assembly of the section Example of the present invention.

Fig. 4 is the diagrammatic cross-section according to the lens assembly of the section Example of the present invention.

Fig. 5 is according to the schematic diagram of the assemble method of the lens assembly and microscope base of the section Example of the present invention, wherein blocking Conjunction portion is not associated in bulge-structure.

Fig. 6 is according to the schematic diagram of the assemble method of the lens assembly and microscope base of the section Example of the present invention, wherein blocking Conjunction portion is incorporated into bulge-structure.

Fig. 7 A are the stereogram according to the lens assembly of the section Example of the present invention.

Fig. 7 B are the side view according to the lens assembly of the section Example of the present invention.

Fig. 8 is the diagrammatic cross-section according to the lens assembly of the section Example of the present invention.

Fig. 9 A are the stereogram according to the lens assembly of the section Example of the present invention.

Fig. 9 B are the side view according to the lens assembly of the section Example of the present invention.

Figure 10 is the diagrammatic cross-section according to the lens assembly of the section Example of the present invention.

Reference sign：

1~lens driving module

2~electromagnetic drive component

3rd, 3a, 3b~lens assembly

5~circuit board

7~Photosensing Units

10~housing

101~top casing element

102~side shells

12~pedestal

14~circuit board

16~coil substrate

162~OIS driving coils

164~OIS driving coils

166~recess

20~framework

201~side frame body

202~storage tank

22~upper shrapnel

24~lower shrapnel

26~microscope base

261~ontology

2611~madial wall

2612~lower lip

2613~upper lateral margin

263~bulge-structure

2631~first part

2632~second part

265~channel

28~driving coil

29~magnetic element

31st, 31b~camera lens clamping piece

32~protecgulum

33rd, 33b~side cover

331~ring part (first annular portion) (the second ring part)

332~connecting portion

333~ring part (first annular portion) (the second ring part)

334~connecting portion

335~ring part (the second ring part) (third ring part)

336~connecting portion

337~ring part (the second ring part)

34~lens unit

341st, 342,343,344~eyeglass

36th, 36a, 36b~holding section

40~suspension ring line

A~arrow

H1~height

H2~height

D1~spacing

D2~spacing

R1~extension line segment

O~optical axis

Specific embodiment

Spy is lifted into several specific preferred embodiments below, and attached drawing appended by cooperation elaborates, and is shown on figure several Embodiment.However, the present invention there can be many different forms to implement, embodiments discussed below is not limited to, is provided herein Embodiment may be such that it is open be able to more thorough and complete, the scope of the present invention is completely conveyed and gives people in the art Member.

It must be it is to be understood that be particularly described or the element of attached drawing can be with various forms well-known to those skilled in the art In the presence of.In addition, when certain element other elements or substrate " on " when, it is possible to refer to " direct " on other elements or substrate, Or refer to certain element on other elements or substrate or refer to the other elements of sandwiched between other elements or substrate.

In addition, the term of relativity may be used in embodiment, such as " relatively low " or " bottom " and " higher " or " top ", To describe relativeness of attached drawing element for another element.It is appreciated that, if the device overturning of attached drawing made It turns upside down, then the element described in " relatively low " side will be as in the element of " higher " side.

Here, " about ", " about " etc term are generally represented within the 20% of a given value or range, preferably 10% Within, and be more preferably within 5%.Given quantity is quantity about herein, is implied that in the case of no certain illustrated, still The meaning of " about ", " about " can be implied.

The Structure explosion diagram of the camera 1 of the section Example of Fig. 1 display present invention.Camera 1 includes an electromagnetism Drive component 2, a lens assembly 3, main circuit board 5 and Image Sensor 7.Electromagnetic drive component 2 is configured to carrying camera lens Component 3 and the displacement for controlling lens assembly 3.Image Sensor 7 be set on main circuit board 5 and towards lens assembly 3 most The latter eyeglass.Image Sensor 7 may include by such as charge coupled cell (CCD) or complementary metal oxide semiconductor (CMOS) Image Sensor that photosensitive elements are formed such as.In 1 pick-up image of camera, light of the light along lens assembly 3 Axis O advances, and is subsequently toward Image Sensor 7.Electronic signal is sent out after 7 light sensing of Image Sensor, to generate image.

Section Example according to the present invention, the structure feature of electromagnetic drive component 2 are described as follows.

With reference to Fig. 1, in some embodiments, electromagnetic drive component 2 includes the housing 10 being located on an optical axis O, a bottom 12, one circuit board 14 of seat, a coil substrate 16, shrapnel 22, once shrapnel 24, a bearing seat 26, one focusing on a frame 20, one Driving coil 28, multiple magnetic elements (such as：Four magnetic elements 29) and multiple suspension ring lines (such as：Four suspension ring lines 40). The element of electromagnetic drive component 2 can be increased or decreased according to demand, and be not only limited with this embodiment.

Housing 10 includes a top casing element 101 and side shells 102.Top casing element 101 is rectangle, and side shells 102 is from top casing element 101 edge extends towards pedestal 12 and is linked to pedestal 12.Housing 10 and pedestal 12 are defined an inner space and are driven with accommodating electromagnetism Remaining element of dynamic component 2.

Circuit board 14 is set on pedestal 12, and is configured to one control module (not shown) of electrical connection and is driven with electromagnetism The internal electronic element of dynamic model block 2.Coil substrate 16 is set on circuit board 14, and including multiple OIS driving coils, example Such as：Two OIS (optical image stabilization；Optical anti-shake) driving coil 162 and two OIS driving lines Circle 164.

Framework 20 is sequentially connected including four side frame parts 201 around optical axis O, includes 202 shape of a storage tank per side frame part 201 Into thereon.Microscope base 26 is surrounded by framework 20.Upper shrapnel 22 and lower shrapnel 24 are respectively arranged at framework 20 with microscope base 26 flat Opposite sides on row optical axis O directions makes microscope base 26 that can vertically (Z-direction) be moved relative to framework 20.Each suspension ring line 40 are linked between shrapnel 22 and pedestal 12, make framework 20 that can be moved relative to pedestal 12 on the direction of vertical optical axis O It is dynamic.

Driving coil 28 is configured and passed through for an electric current for one around the loop configuration on the lateral surface of microscope base 26, with Generating magnetic field drives microscope base 26 to be moved relative to pedestal 12.Four magnetic elements 29 are respectively arranged at four side frame parts 201 On.It is positioned by framework 20, four magnetic elements 29 correspond to focusing driving coil 28 and set, and four magnetic elements 29 Corresponding OIS driving coils 162,164 are set.

Fig. 2 shows the part-structure schematic diagram of the microscope base 26 of section Example according to the present invention.In some embodiments, Microscope base 26 include one annular ontology 261 and multiple bulge-structures (such as：Four bulge-structures 263, Fig. 1 is more clearly shown Show).Four bulge-structures 263 are set on the madial wall 2611 of ontology 261, and each comfortable ontology 261 upwardly extends one in week Certain length, wherein four 263 equidistant intervals of bulge-structure, four channels 265 be defined in two neighboring bulge-structure 263 it Between.

In some embodiments, each bulge-structure 263 includes a first part 2631 and a connection first part 2631 Second part 2632.On the direction of vertical optical axis O (Fig. 1), the height of first part 2631 is more than second part 2633 Highly.For example, first part 2631 has height H1, and there is second part 2633 height H2, height H1 to be more than height H2.

Also, on the direction of vertical optical axis O, between the top surface of first part 2631 and the upper lateral margin 2613 of ontology 261 Spacing away from the top surface less than second part 2632 Yu the upper lateral margin 2613 of ontology 261.For example, and first part 2631 It is trimmed with the upper lateral margin 2613 of ontology 261, and second part 2632 and the upper lateral margin 2613 of ontology 261 are separated by space D 1.In addition, The bottom surface of first part 2631 trims the bottom surface of second part 2632, and is arranged at intervals with the lower lip 2612 of ontology 261.

Section Example according to the present invention, the structure feature of lens assembly 3 are described as follows.

Fig. 3 A show the stereogram of lens assembly 3, and Fig. 3 B show the side view of lens assembly 3.In some embodiments, mirror Head assembly 3 include camera lens clamping piece 31, lens unit 34 and multiple holding sections (such as：Four holding sections 36).Camera lens clamping piece 31 are used to house lens unit 34, and including a protecgulum 32 and a side cover 33.One trepanning 320 is defined in the center of protecgulum 32.Side Lid 33 extends from the edge of protecgulum 32 towards the direction for far carrying out protecgulum 32.

As shown in Figure 3B, side cover 33 includes multiple ring parts, such as ring part 331,333 and 335 and multiple linking parts, Such as linking part 332,334.Ring part 331,333 and 335 is respectively set around the optical axis O of lens unit 34, and substantially along flat Row extends in the direction of optical axis.For convenience of description, in this embodiment, ring part 331 is referred to as " first annular portion ", ring part 333 are referred to as " the second ring part ", and ring part 335 is referred to as " third ring part ".

On the direction of vertical optical axis O, the width in first annular portion 331 is more than the width of the second ring part 333, and the The width in second ring portion 333 is more than the width of third ring part 331.Linking part 332 is linked to first annular 331 and second ring of portion Between shape portion 333, and it is more than with first annular 331 and second ring part of portion, 333 sandwiched one 0 angle respectively, such as 90 degree.Even Knot 334 is linked between the second ring part 333 and third ring part 335, and annular with the second ring part 333 and third respectively 335 sandwiched one of portion is more than 0 angle, such as 45 degree.

The diagrammatic cross-section of the lens assembly 3 of the section Example of Fig. 4 display present invention.In some embodiments, eyeglass Unit 34 is set in camera lens clamping piece 31, and including multiple eyeglasses, such as eyeglass 341,342,343,344, towards far from before It is sequentially set on the direction of lid 32.The optical axis of eyeglass 341,342,343,344 wears the trepanning 320 of protecgulum 32 respectively, and more remote Eyeglass from protecgulum 32 has bigger width on vertical optical axis O directions.

It with continued reference to Fig. 4, and arranges in pairs or groups with reference to figure 2, Fig. 3 A and Fig. 3 B, four holding sections 36 are respectively from side cover 33 towards vertical Extend in the direction of optical axis O, wherein four holding sections 36 are identical with the distance of protecgulum 32, and four holding sections 36 are circumferentially equidistant It is arranged at intervals.In some embodiments, four holding sections 36 are set to the position of 333 closer linking part 334 of the second ring part. In the embodiment shown in Fig. 3 A, Fig. 3 B, four holding sections 36 are set close to linking part 334, and are separated by respectively with linking part 332 One space D 2.Space D 2 can be greater than or equal to the height H2 of the second part 2633 of bulge-structure 263 (Fig. 2).

In some embodiments, on the direction of vertical optical axis O, the development lengths of four holding sections 36 is equal to or less than the The difference of 333 width of one ring part 331 and the second ring part.Also that is, the position set by the end of four holding sections 36 does not surpass Go out extension line segment R1 of the first annular portion 331 on parallel optical axis O directions, as shown in Figure 4.

In some embodiments, on the direction of vertical optical axis O, the development length of four holding sections 36 is equal to or is less than The thickness of bulge-structure 2633 (Fig. 2).In addition, on the direction of parallel optical axis O, the height of four holding sections 36 is equal to or small In the space D 1 that the second part 2632 of bulge-structure 2633 (Fig. 2) and the upper lateral margin 2613 of ontology 261 are separated by.

In some embodiments, at least part of projection of four holding sections 36 on parallel optical axis O directions is located at mirror On at least one eyeglass of blade unit 34.For example, in the embodiment shown in fig. 4, four holding sections 36 are in directional light Projection on axis O directions is entirely fallen on eyeglass 344, and four holding sections 36 are close to protecgulum 32 compared with eyeglass 344. In the infinite embodiment in part, a part for projection of four holding sections 36 on parallel optical axis O directions is fallen in eyeglass On 344 optics significant surface (curved surface of eyeglass 344).

The step of reference Fig. 5, Fig. 6, lens assembly 3 combines microscope base 26, is described as follows.First, by the engaging of lens assembly 3 Portion 36 is inserted into and is defined in the channel 265 between adjacent protrusion structure 263, until the linking part 332 of lens assembly 3 is resisted against protrusion The lower lip 2612 of structure 263.Then, lens assembly 3 is rotated along direction shown in Fig. 5 arrows a, holding section 36 is made to enter to protrusion Between the second part 2632 of structure 263 and the upper lateral margin 2613 of ontology 261, until holding section 36 is resisted against bulge-structure 263 First part 2631, as shown in Figure 6.

In some embodiments, due to height H2 of the space D 2 (Fig. 3 B) equal to the second part 2633 of bulge-structure 2633 (Fig. 2), the second part 2632 of bulge-structure 263 are tightly fitted between linking part 332 and holding section 36, make lens assembly 3 It is securely set on microscope base 26.

It should be understood that the present invention is not limited with above-described embodiment.In In remaining embodiment, space D 2 (Fig. 3 B) is greatly In the height H2 (Fig. 2) of the second part 2633 of bulge-structure 2633.Second of bulge-structure 263 is entered in holding section 36 When dividing between 2632 and the upper lateral margin 2613 of ontology 261, a colloid can be coated in channel 265, to limit lens assembly 3 With respect to the activity of microscope base 26, and then fixed lens component 3 is in positioning.

With reference to Fig. 4, in the above-described embodiments, lens assembly 3 is combined by holding section 36 and microscope base 26.Due to card The camera lens clamping piece 31 that the end in conjunction portion 36 and the distance of optical axis O are less than is in the half of the maximum width of vertical optical axis O.In It is that the width of lens assembly 3 is less than being formed with the width of the lens assembly of threaded portion in the prior art.On the other hand, due to Holding section 36 is supported by bulge-structure 263, and lens assembly 3 will not be with respect to 26 run-off the straight of microscope base, and then promotes photography dress Put 1 image quality.

It should be understood that the form of the lens assembly 3 of the present invention is not limited to above-described embodiment, the present invention set forth below Lens assembly a variety of exemplary embodiments.

Fig. 7 A show the stereogram of lens assembly 3a, and Fig. 7 B show the side view of lens assembly 3a, and Fig. 8 shows lens assembly The diagrammatic cross-section of 3a.In the embodiment shown in Fig. 7 A, Fig. 7 B and Fig. 8 figures, with Fig. 3 A, Fig. 3 B and reality shown in Fig. 4 Identical label will be bestowed, and its feature will not be described again by applying the same or similar feature of example, to simplify description.

In this embodiment, lens assembly 3a include camera lens clamping piece 31, lens unit 34 and multiple holding sections (such as： Four holding section 36a).For convenience of description, in this embodiment, ring part 333 is referred to as " first annular portion ", and ring part 335 claims Make " the second ring part ".

Four holding section 36a extend respectively from side cover 33 towards perpendicular to the direction of optical axis O, wherein four holding section 36a with The distance of protecgulum 32 is identical, and four circumferentially equidistant interval settings of holding section 36a.In some embodiments, four holding sections 36a is set to the position of 335 closer protecgulum 32 of the second ring part.In the embodiment shown by Fig. 7-Fig. 8, four holding sections 36a is set close to protecgulum 32, and is separated by a spacing with linking part 334 respectively.

In some embodiments, on the direction of vertical optical axis O, the development length of four holding section 36a is equal to or less than The difference of first annular 333 and second ring part of portion, 335 width.Also that is, the position set by the end of four holding section 36a not Beyond extension line segment R2 of the first annular portion 333 on parallel optical axis O directions, as shown in Figure 8.

In some embodiments, at least part of projections of four holding section 36a on parallel optical axis O directions is located at mirror On at least one eyeglass of blade unit 34.For example, in the embodiment shown in fig. 8, four holding section 36a are in directional light Projection on axis O directions is entirely fallen on eyeglass 344, wherein four holding section 36a are close to protecgulum compared with eyeglass 344 32.Also, projection sections of four holding section 36a on parallel optical axis O directions is fallen on eyeglass 343, wherein four Holding section 36a is close to protecgulum 32 compared with eyeglass 343.In the infinite embodiment in part, four holding section 36a are in parallel optical axis A part for projection on O directions is entirely fallen on the optics significant surface (curved surface of eyeglass 344) of eyeglass 344.

Fig. 9 A show the stereogram of lens assembly 3b, and Fig. 9 B show the side view of lens assembly 3b, and Figure 10 shows lens group The diagrammatic cross-section of part 3b.In Fig. 9 A, Fig. 9 B, embodiment shown in Fig. 10, with Fig. 3 A, Fig. 3 B, embodiment phase shown in Fig. 4 With or similar feature will bestow identical label, and its feature will not be described again, to simplify description.

Lens assembly 3b include camera lens clamping piece 31b, lens unit 34 and multiple holding sections (such as：Four holding sections 36b).Camera lens clamping piece 31b further includes a linking part 336 and a ring part 337 compared to camera lens clamping piece 31.Ring part 337 are set around the optical axis O of lens unit 34, and substantive along the direction extension for being parallel to optical axis.The width of ring part 331 is more than The width of ring part 337, and ring part 337 is linked to side of the ring part 331 far from protecgulum 32 by linking part 336.Even Knot 336 is more than 0 angle, such as 90 degree with ring part 331 and 337 sandwiched one of ring part respectively.For convenience of description, it is real herein It applies in example, ring part 331 is referred to as " first annular portion ", and ring part 337 is referred to as " the second ring part ".

Four holding section 36b extend respectively from side cover 33b towards perpendicular to the direction of optical axis O, wherein four holding section 36b with The distance of protecgulum 32 is identical, and four circumferentially equidistant interval settings of holding section 36b.Specifically, four holding section 36b settings In the second ring part 337 further away from the position of protecgulum 32.In the embodiment shown by Fig. 9-Figure 10, four holding section 36b are tight One end settings of the adjacent side cover 33b far from protecgulum 32, and it is separated by a spacing with linking part 336 respectively.

In some embodiments, on the direction of vertical optical axis O, the development length of four holding section 36b is equal to or less than The difference of first annular 331 and second ring part of portion, 337 width.Also that is, the position set by the end of four holding section 36b not Beyond extension line segment R3 of the first annular portion 331 on parallel optical axis O directions, as shown in Figure 10.

In some embodiments, at least part of projections of four holding section 36b on parallel optical axis O directions is located at mirror On at least one eyeglass of blade unit 34.For example, in the embodiment shown in fig. 10, four holding section 36b are parallel Projection section on optical axis O directions is fallen on eyeglass 344, wherein four holding section 36b are far from protecgulum compared with eyeglass 344 32。

Although the present invention is with preferred embodiment invention in upper, however, it is not to limit the invention, people in the art Member without departing from the spirit and scope of the present invention, when can make some changes and embellishment, therefore work as by protection scope of the present invention Subject to appended claims institute defender.

Claims (10)

1. a kind of lens assembly, which is characterized in that the lens assembly includes：

One camera lens clamping piece, including a protecgulum and a side cover extended from the edge of the protecgulum, wherein a trepanning is defined in The protecgulum；

One eyeglass is set to the camera lens clamping piece, makes the trepanning of the optical axis alignment of the eyeglass；And

One holding section protrudes outwardly from the side cover, and wherein projection of the holding section on the parallel optical axis direction is located at the eyeglass On.

2. lens assembly as described in claim 1, which is characterized in that the holding section is compared with the eyeglass close to the light of the lens assembly The plane of incidence.

3. lens assembly as claimed in claim 2, which is characterized in that the holding section is close to the protecgulum.

4. lens assembly as described in claim 1, which is characterized in that the holding section is compared with light of the eyeglass far from the lens assembly The plane of incidence.

5. the lens assembly as described in claim 1-4 any of which items, which is characterized in that the side cover includes：

One first annular portion；

One linking part links the first annular portion close to the side of the protecgulum；And

One second ring part links the first annular portion via the linking part, wherein on the vertical optical axis direction, second ring The width in shape portion is small compared with the width in the first annular portion；

Wherein the holding section is set to second ring part and is separated by a spacing with the linking part.

6. the lens assembly as described in claim 1-4 any of which items, which is characterized in that the side cover includes：

One first annular portion；

One linking part links the side of the first annular portion far from the protecgulum；And

One second ring part links the first annular portion via the linking part, wherein on the vertical optical axis direction, second ring The width in shape portion is small compared with the width in the first annular portion；

Wherein the holding section is set to second ring part and is separated by a spacing with the linking part.

7. the lens assembly as described in claim 1-4 any of which items, which is characterized in that including multiple holding divisions, the card Gu portion is provided at circumferentially spaced in the side cover.

8. the lens assembly as described in claim 1-4 any of which items, which is characterized in that the holding section is in the parallel optical axis side Upward projection is on the optics significant surface of the eyeglass.

9. a kind of camera, which is characterized in that the camera includes：

One camera lens clamping piece, including a protecgulum and a side cover extended from the edge of the protecgulum, wherein an opening is defined in The protecgulum；

One eyeglass is set to the camera lens clamping piece, makes the optical axis alignment of the eyeglass opening；

One holding section protrudes outwardly from the side cover, and wherein projection of the holding section on the parallel optical axis direction is located at the eyeglass On；And

One Image Sensor sets along the optical axis of the eyeglass and is configured to receive the light by the eyeglass.

10. camera as claimed in claim 9, which is characterized in that the camera further includes：

One bulge-structure of one microscope base, the ontology for surrounding side cover setting including one and the internal face for being formed in the ontology, In the holding section be resisted against the bulge-structure, to fix the lens assembly on the microscope base；

One driving coil is set to the ontology of the microscope base；And

One drive magnet is set with respect to the driving coil.