KR20150051683A - Camera module - Google Patents

Abstract

Provided in an embodiment is a camera module which comprises a lens barrel storing one or more lens; an actuator part fixing the lens barrel, and adjusting a focus of an image; a cover can storing the lens barrel and the actuator part, and forming the exterior; a base including one or more strength reinforcing groove on the upper surface fixed on the cover can by an adhesive; and a printed circuit board in which the base is installed and an image sensor is mounted.

Description

Camera module {CAMERA MODULE}

An embodiment of the present invention relates to a camera module having improved durability.

As the spread of various portable terminals is widely popularized and the wireless Internet service is commercialized, the demands of consumers related to portable terminals are diversified. Accordingly, various kinds of additional devices are installed in portable terminals.

Among them, a camera module is a representative example in which a subject is photographed as a photograph or a moving image, and the image data thereof is stored and then edited and transmitted as necessary.

2. Description of the Related Art In recent years, there has been an increasing demand for a small-sized camera module for a variety of multimedia fields such as a notebook type personal computer, a camera phone, a PDA, a smart, and a toy, and furthermore for an image input device such as a surveillance camera or an information terminal of a video tape recorder .

As the pixel size of the sensor applied to the camera module is reduced and the height of the module is lowered, management of the foreign matter is controlled and the mechanical reliability of the camera module such as tilt or shift of the lens optical axis is secured The development of a mounting structure for a vehicle is becoming an important issue.

In the conventional camera module, the combination of the cover can containing the lens barrel and the actuator and the base provided for mounting the IR filter on the printed circuit board includes a fastening protrusion protruding from the lower surface of the cover can, And is realized by a fastening groove formed corresponding to the projection.

Such a coupling structure may cause a slight tolerance in each camera module depending on the formation of the coupling groove of the base or the cover can, and the coupling method in which such a tolerance is generated is not suitable for use in a camera module requiring excellent alignment of the optical axis can do.

Therefore, although the adhesive can be applied to the joint surfaces of the base and the cover can to be fastened, in such a case, when the lateral external force perpendicular to the optical axis direction is applied, the camera module can be easily broken.

Embodiments of the present invention improve product reliability and durability.

An embodiment of the present invention provides a lens barrel comprising: a lens barrel for accommodating one or more lenses; an actuator unit for fixing the lens barrel and adjusting a focus of an image; a cover can containing the lens barrel and the actuator unit, And a printed circuit board on which the image sensor is mounted, the camera module including: a base fixed to the can with an adhesive and having one or more strength reinforcement grooves formed on an upper surface thereof;

Further, the strength reinforcing groove is formed in an oblique shape on the upper side of the base.

Further, the strength reinforcing groove is formed in a staggered shape on the upper side of the base.

Further, the case may further include a coupling member vertically formed in a direction of an optical axis of the lens at a lower end thereof and having a first opening formed at a center thereof, and an upper surface of the base has a second opening communicating with the first opening at a center thereof And is fixed to the lower surface of the first engaging member with an adhesive.

Further, the engaging member may further include one or more strength reinforcement grooves on the lower side.

In addition, the strength reinforcement groove formed in the coupling member is formed at a position intersecting the strength reinforcement groove of the base.

Further, the engaging member is formed integrally with the case.

Further, a protrusion vertically formed adjacent to the second opening is formed on the upper surface of the base.

Further, the present invention is characterized by further comprising an IR filter mounted on the inner circumferential surface of the projecting portion in an interview.

The actuator unit may include a bobbin coupled to an outer circumferential surface of the lens barrel to fix the lens barrel, a coil part provided on an outer circumferential surface of the bobbin, and a position corresponding to the coil part between the coil part and the inner surface of the cover can, And a yoke portion provided on an inner surface of the cover can for fixing the magnet portion.

The embodiment of the present invention improves the reliability of the camera module by increasing the adhesive contact area between the case and the base.

Further, in the embodiment of the present invention, the strength reinforcement groove is formed in the case or the base, so that the durability against an external force transmitted in the lateral direction is improved.

1 is a side cross-sectional view of a camera module according to an embodiment of the present invention;
Fig. 2 is a top view of the base shown in Fig. 1; Fig.
3 is a sectional view of the base shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein are the same as the generic meanings of the terms understood by those of ordinary skill in the art, and where the terms used herein contradict the general meaning of the term, they shall be as defined herein.

It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

FIG. 1 is a side sectional view of a camera module according to an embodiment of the present invention, FIG. 2 is a top view of the base shown in FIG. 1, and FIG. 3 is a sectional view of the base shown in FIG.

1 to 3, a camera module 100 according to an exemplary embodiment of the present invention includes a cover can 110, a lens barrel 120, an actuator 140, an IR filter 150, an image sensor 160, a printed circuit board 170, and a base 180.

The cover can 110 receives the lens barrel 120 and the actuator unit 140 and forms the appearance of the camera module 100. Specifically, the cover can 110 protects internal components from external impacts and has a function of preventing external contaminants from penetrating. The cover can 110 also has a function of protecting components of the camera module 100 from external radio interference generated by a cellular phone or the like. Therefore, the cover can 110 is preferably formed of a metal material. The cover can 110 may be realized by a yoke portion 143 to be described later, or may be fixed by molding the yoke portion 143 inward. It is obvious that the shape of the outer can according to the receiving environment of the camera can be varied in the cover can 110.

The printed circuit board 170 is provided on the lower side of the cover can 110. Various components for driving the camera module 100 may be mounted on the printed circuit board 170 and a power source for driving the actuator unit 140 may be applied to the actuator unit 140.

The image sensor 160 may be mounted on the printed circuit board 170 so as to be positioned along the optical axis direction O with one or more lenses accommodated in the lens barrel 120. The image sensor 160 converts an optical signal of an object incident through the lens into an electrical signal.

The lens barrel 120 is accommodated in the cover can 110 and is disposed at a position corresponding to the image sensor 160. The lens barrel 120 accommodates one or more lenses (not shown). The lens barrel 120 is not limited to this and can be implemented in any form as long as it is a holder structure capable of supporting the lens.

The actuator 140 fixes the lens barrel 120 in the cover can 110 and adjusts the focus of the image by moving the lens barrel 120. The actuator 140 includes a bobbin 144 coupled to an outer circumferential surface of the lens barrel 120 to fix the lens barrel 120 and a coil part 142 provided on an outer circumferential surface of the bobbin 144. [ A magnet part 141 provided at a position corresponding to the coil part 142 between the coil part 142 and the inner surface of the cover can 110, And a yoke portion 143 for fixing the magnet portion 141.

In this state, a current is applied to the coil portion 141 as a drive signal applied by the printed circuit board 170, and the magnet portion 141 interacts with the coil portion 141, The bobbin 144 combined with the bobbin 120 can be moved up and down along the optical axis direction O. [

The actuator unit 150 may be an AF (Auto Focusing) actuator to which a voice coil motor is applied. However, the present invention is not limited thereto, and the actuator unit 150 may be an FF (Fixed Focusing) type camera module or an OIS The embodiment may be applied to an image stabilization type.

An IR filter 150 may be provided between the image sensor 160 and the lens barrel 120. The IR filter 150 may be an infrared ray filter or an infrared ray filter, A flat glass optical filter such as a cover glass or a cover glass may be disposed.

In order to locate the IR filter 150, the camera module 100 may include a base 180 between the cover can 110 and the printed circuit board 170, And may be mounted on the hollow portion 181a formed at the center of the base 180. [

In this configuration, the embodiment may include the following technical ideas for superior optical axis O alignment and durability improvement of the camera module.

Referring to FIG. 1, the coupling between the lens barrel 120 and the bobbin 144 is realized by a thread-free coupling method. This is because the error range of the alignment of the optical axis O is more strictly required due to the demand for a high-performance camera module, and therefore, the threadless coupling method is more efficient than the thread coupling method.

In this thread engagement method, the optical axis O is aligned by inserting the lens barrel 120 from the upper side or the lower side of the hollow part of the bobbin 144, and the bobbin 144 is fixed to the lens barrel 120 The bobbin 144 and the lens barrel 120 are firmly fixed to each other by applying an adhesive between the bobbin 144 and the contact surface of the lens barrel 120.

Such adhesives can be embodied as thermosetting epoxy or UV epoxy and are cured by exposure to heat or UV. However, if the thermosetting epoxy is used, since the bobbin 144 and the lens barrel 120 aligned with the optical axis O can be shaken when they are moved into the oven, it is preferable to implement the UV epoxy.

In addition, the adhesive may be applied annularly to the entire contact surface of the bobbin 144 and the lens barrel 120, or may be applied in the form of a dot structure at regular intervals.

Meanwhile, the lens barrel 120 may further include a flange portion 121 protruding outward on the upper side. The flange 121 is formed on the lens barrel 120 to prevent the adhesive from being introduced into the lens barrel 120 and facilitates alignment of the optical axis O between the bobbin 144 and the lens barrel 120 .

The bobbin 144 has an upper end 144a having an upper end and an inner diameter equal to the outer diameter of the flange 121 of the lens barrel 120 and an upper end 144a extending downward from the upper end 144a, And a lower end portion 144c extending downward from the inclined portion 144b and having an inner diameter equal to the outer diameter of the lens barrel 120. [

In this structure, the lens barrel 120 flows into the upper end 144a of the bobbin 144 and moves downward, and is finally received in the lower end 144c. The downward movement of the lens barrel 120 is restricted by the flange portion 121 of the lens barrel 120 being hooked on the inclined portion 144b of the bobbin 144. [

That is, the inclined portion 144b of the bobbin 144 and the flange portion 121 of the lens barrel 120 function as a stopper function for restricting downward movement when the lens barrel 120 is assembled to the bobbin 144 And restricts the internal inflow of the adhesive.

Meanwhile, the technical idea of the embodiment to be described below is not only that the coupling method of the bobbin 144 and the lens barrel 120 is shown in a non-threaded coupling manner, but also a camera module of a thread coupling type.

The embodiment can implement the cover can 110 and the base 180 in the following shape in order to realize the camera module 100 with improved optical axis O alignment and durability.

The cover can 110 includes an upper portion 111 formed at the center of the lens exposing hole 111a for exposing a lens of the lens barrel 120 and a side portion 112 extending from the upper portion 111, And a coupling member 113 formed vertically in the direction of the optical axis of the lens at the lower end of the cover can 110 and having a first opening 113a at the center.

Although the engaging member 113 may be formed separately from the cover can 110, it is preferable that the engaging member 113 is integrally formed from the viewpoint of durability.

The stopper 114 is provided on the upper surface of the coupling member 113 and has a third opening having a diameter equal to the diameter of the bobbin 144 to limit the movement of the bobbin 144 downward. ). The stopper 114 may be integrally formed with the engaging member 113 and supports the lower end 144c of the bobbin 144 to limit the downward movement of the bobbin 144. [

The base 180 includes an upper surface 181 formed at the center thereof with a second opening 181a communicating with the first opening 113a and fixed to the lower surface of the coupling member 113 by an adhesive, And a support member 182 formed vertically below the upper surface 181.

The support member 182 is mounted on the printed circuit board 170.

The upper surface 181 may be formed separately from the support member 182, but it is preferable that the upper surface 181 is integrally formed from the viewpoint of durability.

Here, in the embodiment of the present invention, the joining member 113 and the upper side 181 are fastened with a relatively large area as an adhesive, and an excellent effect in terms of durability against an external impact can be realized.

The embodiment also includes one or more strength reinforcement grooves 184 on the upper side 181 of the base 180 for improved durability against external impacts, particularly impacts transverse to the direction perpendicular to the optical axis O .

Referring to FIGS. 2 and 3, the strength reinforcement groove 184 may be formed in an oblique shape on the upper side 181 of the base 180. The strength reinforcement groove 184 is formed adjacent to the protrusion 185 to be described later, but may be formed apart from the protrusion 185.

In addition, the strength reinforcement groove 184 may be formed in a zigzag shape on the upper surface 181 of the base 180, and may have various other shapes.

The strength reinforcement groove 184 allows the adhesive applied to fix the coupling member 113 between the base 180 and the cover can 110 to flow and harden to realize an excellent effect on the lateral impact.

On the other hand, although not shown, one or more strength reinforcement grooves (not shown) may be formed on the lower surface of the engaging member 113. The strength reinforcement grooves (not shown) formed on the engaging member 113 may be provided without the strength reinforcement grooves 184 formed on the side surface 181 of the base 180, (Not shown).

In the latter case, the strength reinforcing groove (not shown) formed in the engaging member 113 is formed at a position intersecting with the strength reinforcing groove 184 of the base 180. In view of durability against lateral external impact, Do.

On the other hand, the adhesive for bonding the cover can 110 and the base 180 can be realized with a thermosetting epoxy or a UV epoxy and cured by exposure to heat or UV. However, if the thermosetting epoxy is used, since the bobbin 144 and the lens barrel 120 aligned with the optical axis O can be shaken when they are moved into the oven, it is preferable to implement the UV epoxy.

In the case of using the thermally-fused epoxy, the optical axis of the camera module 100 must be aligned and cured in the oven after the optical axis alignment. In such a case, the optical axis aligned upon movement to the oven may be changed, This is because there is a risk of

The joining surfaces of the upper surface 181 and the support member 182 are chamfered to form a chamfered tapered portion 183 so as to facilitate the application of the adhesive and prevent the adhesive from flowing to the outside, Can be formed. The tapered portion 183 may be rounded rather than chamfered.

Further, although not shown, the tapered portion 183 is not formed on the joining surface of the upper surface 181 and the support member 182, and the edge of the joining member 113 is chamfered or rounded .

Meanwhile, the second opening 181a of the base 180 is sealed by the IR filter 150 described above. A protrusion 185 formed vertically adjacent to the second opening 181a is formed on the upper surface of the upper surface 181 to facilitate the mounting of the IR filter 150 and to prevent the adhesive from flowing into the inside of the upper surface 181. [ . In this case, the IR filter 150 may be mounted on the upper surface 181 and the inner circumferential surface of the protrusion 185 in an interview. In addition, the strength reinforcing portion 184 may be formed on the outer side of the protrusion 185.

In short, the embodiment has an advantage that excellent optical axis alignment can be realized, flow of the adhesive inside and outside can be prevented, and reliability and productivity of the product can be improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Range and its equivalent range.

100: camera module 110: case
111: upper side portion 112: side portion
113: coupling member 113a: first opening
114: stopper 120: lens barrel
121: flange portion 140: actuator
141: coil part 142: magnet part
143: yoke part 144: bobbin
150: IR filter 160: Image sensor
170: printed circuit board 180: base
181: upper surface 181a: second opening
182: Support member 183:
184: strength reinforcing portion 185:

Claims (10)

A lens barrel accommodating one or more lenses;
An actuator unit for fixing the lens barrel and adjusting a focus of an image;
A cover can containing the lens barrel and the actuator and forming an outer appearance;
A base on which at least one strength reinforcement groove is formed on an upper surface fixed by the cover can and the adhesive; And
And a printed circuit board on which the base is mounted and on which an image sensor is mounted.
The method according to claim 1,
And the strength reinforcement groove is formed in an oblique shape on an upper side of the base.
The method according to claim 1,
Wherein the strength reinforcement groove is formed in a zigzag shape on an upper surface of the base.
The method according to claim 1,
Wherein the case further comprises a coupling member vertically formed in a direction of an optical axis of the lens at a lower end thereof and having a first opening formed at a center thereof,
Wherein an upper surface of the base is formed with a second opening communicating with the first opening at a center thereof and fixed to the lower surface of the first joining member with an adhesive.
5. The method of claim 4,
Wherein the engaging member further comprises at least one strength reinforcement groove on the lower side.
6. The method of claim 5,
And the strength reinforcing groove formed in the coupling member is formed at a position intersecting the strength reinforcing groove of the base.
6. The method of claim 5,
Wherein the engaging member is formed integrally with the case.
5. The method of claim 4,
And a protrusion vertically formed adjacent to the second opening is formed on an upper surface of the base.
9. The method of claim 8,
And an IR filter mounted on the inner circumferential surface of the protrusion in an interfacial state.
The method according to claim 1,
Wherein the actuator unit includes: a bobbin coupled to an outer circumferential surface of the lens barrel to fix the lens barrel;
A coil part provided on an outer circumferential surface of the bobbin;
A magnet portion provided at a position corresponding to the coil portion between the coil portion and the inner surface of the cover can; And
And a yoke provided on an inner surface of the cover can to fix the magnet unit.

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