KR102211834B1 - Camera Module - Google Patents

Abstract

The embodiment includes a printed circuit board on which an image sensor is mounted, a lens unit installed on the upper side of the printed circuit board and disposed at a position corresponding to the image sensor, and an actuator that fixes the lens unit and adjusts the focus of an image And a portion, and the lens barrel provides a camera module including a groove formed on an outer peripheral surface thereof.

Description

Camera Module

An embodiment of the present invention relates to a camera module having an improved structure of a lens barrel.

With the widespread use of various portable terminals and the commercialization of wireless Internet services, demands of consumers related to portable terminals are diversifying. Accordingly, various types of additional devices are installed in the portable terminals.

Among them, a typical camera module is a camera module that can take a photograph or video of a subject, store the image data, and edit and transmit it as necessary.

Recently, the demand for small-sized camera modules is increasing for various multimedia fields such as notebook personal computers, camera phones, PDAs, smart phones, toys, etc., and also for image input devices such as information terminals of surveillance cameras and video tape recorders. .

As the pixel size of the sensor applied to such a camera module is reduced and the height of the module is lowered, the inflow of foreign substances is managed and the mechanical reliability of the camera module such as tilt or shift of the lens optical axis is secured. The development of a mount structure for this is emerging as a very important topic.

In the camera module in which the lens barrel and the bobbin are screwed together, foreign matter is generated by friction between the male and female threads during focusing adjustment, and image quality may be degraded by the foreign matter generated at this time. The module is being developed.

However, in the process of manufacturing a camera module having a screwless-type lens barrel, when using epoxy to assemble the lens barrel, the epoxy penetrated between the lens barrel and the bobbin continues to move downwards and transfers to the image area, resulting in a foreign object defect. Can be triggered.

The embodiment of the present invention improves the reliability of a camera module including a lens barrel that is threadlessly coupled.

The embodiment includes a printed circuit board on which an image sensor is mounted, a lens unit installed on the upper side of the printed circuit board and disposed at a position corresponding to the image sensor, and an actuator that fixes the lens unit and adjusts the focus of an image It includes a portion, and the lens unit provides a camera module including a groove formed on an outer peripheral surface.

In addition, the lens portion is characterized in that it further comprises a flange portion protruding outwardly on the upper side.

In addition, the groove is characterized in that formed in the lower side of the flange.

In addition, the actuator unit is fastened to the outer circumferential surface of the lens unit to fix the lens unit, a coil unit provided on the outer circumferential surface of the bobbin, and a position corresponding to the coil unit between the coil unit and an inner surface of the cover can. It characterized in that it comprises a magnet portion provided, and a yoke portion provided on the inner surface of the cover can to fix the magnet portion.

In addition, the bobbin forms an upper end of the bobbin, has an upper end having an inner diameter equal to the outer diameter of the flange portion, a tapered portion extending below the upper end and formed to be inclined in the optical axis direction, and a lower side of the tapered portion It is formed to be extended and characterized in that it includes a lower end having the same inner diameter as the outer diameter of the lens barrel.

In addition, the groove is characterized in that it is formed on the outer peripheral surface of the lens unit located at the lower end of the bobbin.

In addition, the groove is characterized in that it is formed on the outer peripheral surface of the lens portion located on the tapered portion of the bobbin.

In addition, the groove is characterized in that it has a semicircular shape or a v-shaped shape.

In addition, at least two grooves are formed.

In addition, it characterized in that it further comprises a cover can to form an exterior.

According to an embodiment of the present invention, reliability of a camera module including a lens barrel that is screwlessly coupled is improved.

1 is a side cross-sectional view of a camera module including a lens unit and a bobbin for screwless coupling according to an embodiment of the present invention.
2A is an enlarged view of part A according to an embodiment of the present invention shown in FIG. 1.
2B is an enlarged view of part A according to another embodiment of the present invention shown in FIG. 1.

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

Unless otherwise defined, all terms in the present specification are the same as the general meanings of terms understood by those skilled in the art, and if terms used in the present specification conflict with the general meanings of the terms, the definitions used in the present specification are applied.

However, the invention to be described below is only for describing an embodiment of the present invention, not for limiting the scope of the present invention, and reference numerals used identically throughout the specification denote the same elements.

Hereinafter, a camera module according to an embodiment will be described in detail with reference to the drawings.

1 is a side cross-sectional view of a camera module including a lens unit and a bobbin for screwless coupling according to an embodiment of the present invention, and FIG. 2A is an enlarged view of part A according to an embodiment of the present invention shown in FIG. 3B is an enlarged view of part A according to another embodiment of the present invention.

Referring to FIG. 1, the camera module 100 largely includes a lens unit 130, an actuator unit 140, an image sensor 160, and a printed circuit board 170.

In addition, the embodiment may further include a cover can 110 that accommodates the lens unit 130 and the actuator unit 140 and forms the exterior of the camera module 100. It is obvious that the shape of the cover can 110 may vary depending on the storage environment inside the camera.

The printed circuit board 170 is provided under the actuator unit 140. Various elements for driving the camera module 100 may be mounted on the printed circuit board 170, and power for driving the actuator unit 140 is 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 at least one lens accommodated in the lens unit 130. The image sensor 160 converts an optical signal of an object incident through the lens into an electrical signal.

The lens unit 130 may be a lens barrel, but is not limited thereto, and any holder structure capable of supporting the lens may be included. In the embodiment, a case where the lens unit is a lens barrel is described as an example.

The lens unit 130 is accommodated in the cover can 110 and is disposed at a position corresponding to the image sensor 160. The lens unit 130 accommodates one or more lenses (not shown).

The actuator unit 140 fixes the lens unit 130 to be positioned therein, and moves the lens unit 130 to adjust the focus of the image. Specifically, the actuator unit 140 includes a bobbin 144 that is coupled to an outer circumferential surface of the lens unit 130 to fix the lens unit 130, and a coil unit 142 provided on the outer circumferential surface of the bobbin 144 And, a magnet portion 141 provided at a position corresponding to the coil portion 142, and a yoke portion 143 fixing the magnet portion 141.

In addition, as described above, a separate cover can 110 for accommodating the actuator unit 140 may be additionally provided. In this case, the lens unit 130 and the actuator unit 140 are both cover cans 110 ) Can be located inside.

In this state, a current is applied to the coil unit 141 as a driving signal applied by the printed circuit board 170, and the lens unit is provided by the magnet unit 141 interacting with the coil unit 141. The bobbin 144 to which the 130 is fixed can move up and down along the optical axis direction O.

The actuator unit 140 may be an AF (Auto Focusing) actuator to which a voice coil motor is applied, but is not limited thereto, and the embodiment is applied to an OIS (Optical Image Stabilization) type, unlike the illustration, Alternatively, a fixed focusing type camera module without an actuator may be applied. In the case of a fixed focus type camera module, an embodiment may be configured by including a lens holder unit capable of accommodating the lens unit 130 instead of the actuator unit 140. That is, the coupling structure between the inner circumferential surface of the lens holder unit and the lens unit 130 may be configured as in the embodiment.

Meanwhile, an infrared cut filter 180 may be provided between the image sensor 160 and the lens unit 130, and the IR filter 180 is an infrared filter, for example. For example, it may be formed of a film material or a glass material, and an infrared blocking coating material may be disposed on a flat optical filter such as a cover glass for protecting an imaging surface or a cover glass.

In order to position the IR filter 180, a base 112 may be provided between the actuator unit 140 and the printed circuit board 170 in the camera module 100, and the IR filter 180 It may be mounted on a hollow part formed in the center of the base 112. Here, the base 112 is a component constituting the actuator unit 140 and may be integrally formed with the actuator unit 140. Alternatively, it may be a base that functions as a sensor holder that protects the image sensor 160 separately from the actuator unit 140.

In addition, the IR filter 180 may be disposed on the sensor holder or the actuator unit 140, and may be located on the upper surface of the sensor.

Meanwhile, as described above, the embodiment can also be applied to a fixed focusing (FF) type camera module, and in this case, the actuator unit 140 to move the lens unit 130 is not required, so the base 112 A cylindrical fixing part for fixing the lens part 130 may be formed on the upper side of the lens part 130. That is, a cylindrical fixing portion such as the illustrated bobbin 144 may be formed on the upper side of the base 112.

Here, in the embodiment of the present invention, the lens unit 130 and the bobbin 144 are screwlessly coupled. This is because, according to the trend of demanding high-performance camera modules, the error range of the optical axis (O) alignment is more severely required, so that the screwless coupling method can be more efficient than the threaded coupling method.

In this threadless coupling method, the lens unit 130 is inserted into the hollow portion of the bobbin 144 from the upper side or the lower side to fix the lens unit 130 to the bobbin 144. That is, an adhesive material 190 is applied between the contact surface of the bobbin 144 and the lens unit 130 to firmly fix the bobbin 144 and the lens unit 130.

The adhesive material 190 may be implemented as a thermosetting epoxy or UV epoxy, and is cured by exposure to heat or UV. However, if a thermosetting epoxy is used, the bobbin 144 and the lens unit 130 are moved to an oven or are cured by directly applying heat, and if a UV (ultraviolet) epoxy is used, the adhesive material 190 is exposed to UV light. It is a method of curing by applying (ultraviolet). In addition, the adhesive material may be an epoxy that can be mixed with heat curing and UV (ultraviolet) curing, and both thermal curing and UV (ultraviolet) curing are possible, and thus may be an epoxy that can be cured by selecting any one of them. The adhesive material is not limited to the epoxy, and any adhesive material may be substituted.

In addition, the adhesive material 190 may be applied to the entire contact portion between the bobbin 144 and the lens unit 130 in an annular shape, and may be applied in a dot tissue form or a line form at regular intervals. The adhesive material 190 applied in this way is cured so that the bobbin 144 and the lens unit 130 may be fixed.

When the lens unit 130 is accommodated in the hollow portion of the bobbin 144 in this way, a fine gap may exist between the outer circumferential surface of the lens unit 130 and the inner circumferential surface of the bobbin 144. In this structure, the applied adhesive material 190 flows between the gaps and follows the gap between the bobbin 144 and the lens unit 130 to form an image area, that is, the IR filter 180 provided on the base 112 side. ), the image sensor 160, or the like, may cause a foreign object defect, and thus the function of the camera module 100 may be deteriorated.

Accordingly, the lens unit 130 of the camera module 100 according to the embodiment may include a groove 132 to prevent the flow of the adhesive material 190. In short, the groove 132 may be formed on the outer peripheral surface of the lens unit 130. The groove 132 may be a recess shape capable of trapping the adhesive material 190

As shown in FIG. 2, at least a portion of the lens unit 130 may include an outer circumferential surface facing the inner circumferential surface of the hole of the bobbin 144. The outer circumferential surface of the lens unit 130 includes a first surface 131a, a flange portion 131 protruding from the first surface 131a of the lens unit 130, and a first surface 131a of the lens unit 130 It may include a groove (132a) formed in the depression and disposed between the flange portion 131 and the first surface (131a) of the lens portion (130). The flange portion 131 of the lens unit 130 may include a second surface 131b parallel to the first surface 131a of the lens unit 130. At least a portion of the adhesive material 190 may be disposed on the second surface 131b of the flange portion 131 of the lens unit 130. The outer circumferential surface of the lens unit 130 may include an inclined surface 131c that is disposed on the flange portion 131 and is depressed inward as it goes upward. The inclined surface 131c of the lens unit 130 may be spaced apart from the second surface 131b of the flange portion 131 of the lens unit 130. The inclined surface 131c of the lens unit 130 and the second surface 131b of the flange unit 131 of the lens unit 130 are perpendicular from the second surface 131b of the flange unit 131 of the lens unit 130 It may be connected through the third surface 131e that extends to. The outer circumferential surface of the lens unit 130 connects the second surface 131b of the flange portion 131 and the groove 132a of the lens unit 131 and faces the tapered portion 144b of the bobbin 144 ( 131d). The surface of the tapered part 144b of the bobbin 144 and the tapered surface 131d of the lens part 130 are spaced apart to form a space, and at least a part of the adhesive material 190 is tapered part 144b of the bobbin 144 ) And the tapered surface 131d of the lens unit 130.

These grooves 132 are provided on the outer circumferential surface of the lens unit 130, and use the viscosity of the adhesive material 190 to be finely penetrated and flow, so that the adhesive material 190 is inserted into the groove 132. By confining it, it is possible to prevent foreign matter defects in the camera module 100 due to penetration of the adhesive material 190. That is, by using the viscosity and flow characteristics of UV (ultraviolet curing) epoxy, the adhesive material 190 flowing through the gaps and penetrating it stops in the groove and is naturally cured to prevent invasion into the image area.

Accordingly, although one groove 132 is shown in the drawing, more than one groove 132 may be formed in the embodiment. In addition, the adhesive material 190 may be applied to the entire contact portion of the bobbin 144 and the lens barrel 130 in an annular shape, or may be applied in a dot tissue form, a line form, etc. at regular intervals. Correspondingly, the groove 132 may also be formed in a whole annular shape on a part of the outer peripheral surface of the lens barrel, or may be formed in a line shape at regular intervals.

Meanwhile, the lens unit 130 may further include a flange portion 131 protruding from an upper outer peripheral surface of the lens unit 130 or outwardly on the upper side. The flange portion 131 may be formed on the lens unit 130 to provide a space for accommodating the adhesive material 190. In addition, by securing the accommodation space, there may be an effect of preventing the internal inflow into the gap, and it is possible to facilitate alignment of the optical axis O between the bobbin 144 and the lens unit 130. In addition, the lens unit 130 may be further formed with a tapered portion 144b to be described later in a direction perpendicular to the optical axis (O) direction above the flange portion 131, which is the curing of the contact material 190 Can be facilitated.

In addition, the lens unit 130 does not have a flange portion 131 protruding from the outer circumferential surface, and the outer circumferential surface of the lens unit 130 may be formed in a cylindrical shape. In this case, the lens unit 130 A partial area may be escaped so as to secure a space for accommodating the adhesive material, so that a step may be formed on the upper surface of the lens unit 130.

Again, the groove 132 may be formed in a partial area of the outer peripheral surface of the lens unit 130. The groove 132 may trap an adhesive material. In addition, in the lens unit 130, a tapered portion 144b may be additionally formed in a direction perpendicular to the optical axis (O) direction above the stepped portion, which may facilitate curing of the contact material.

Meanwhile, the bobbin 144 forms an upper end at a position corresponding to the lens part 130 and has an upper end part 144a having an inner diameter equal to or greater than the outer diameter of the flange part 131 of the lens part 130, A tapered portion 144b extending below the upper end portion 144a and formed to be inclined in a direction perpendicular to the optical axis O, and extending below the tapered portion 144b, the lens portion ( It may include a lower end portion 144c having an inner diameter equal to or greater than the outer diameter of 130). In addition, the bobbin 144 may have an inner diameter capable of accommodating the lens unit 130 without the tapered portion 144b, and the inner circumferential surface of the bobbin 144 may be formed in a cylindrical shape. If the bobbin 144 has a tapered portion 144b, when the adhesive material flows into the gap, the adhesive material is guided into the groove or naturally cured using the viscosity of the adhesive material to prevent invasion into the image area Can be effective. In addition, an inclined portion 144d may be further disposed at an upper edge of the bobbin 144, which is to facilitate hardening of the adhesive material 190.

In this structure, the lens unit 130 flows into the upper end of the bobbin 144 and moves downward, and is finally accommodated in the lower end 144c. The downward movement of the lens unit 130 may be limited because the flange portion 131 of the lens unit 130 is caught on the tapered portion 144b of the bobbin 144.

That is, the tapered portion 144b of the bobbin 144 and the flange portion 131 of the lens unit 130 have a stopper function to limit downward movement when the lens unit 130 is assembled to the bobbin 144 And restricts the inflow of the adhesive material 190 into the interior. In addition, when the bobbin 144 does not have a tapered part 144b, the lens part 130 may be positioned at a fixed position of the bobbin 144 and immediately cured, and in this case, the flange part 131 may be caught. There may be no stoppers.

Further, in the drawing, the groove 132 is shown to be formed on the outer peripheral surface of the lens unit 130 at a position corresponding to the tapered portion 144b of the bobbin 144, but the groove 132 is the bobbin ( It may be formed on the outer circumferential surface of the lens unit 130 at a position at the lower end 144c of the 144.

Referring to FIG. 2A, the shape of the cut surface of the groove 132a according to an embodiment of the present invention may be formed in a semi-circular shape for ease of manufacture. Due to this groove (132a), the adhesive material 190 applied on the upper side of the flange portion 131 penetrates downward along the contact surface between the bobbin 144 and the lens unit 130 and flows into the groove 132a. And further flow is restricted.

Referring to FIG. 2B, the cut surface of the groove 132b according to an embodiment of the present invention may be formed as a v-shaped groove. In FIG. 2B, one surface is vertically bent on the outer circumferential surface of the lens unit 130 and the other surface is illustrated as a v-shaped groove formed to be inclined, but it may be a v-shaped groove formed inclined at both sides. Due to this groove (132b), the adhesive material 190 applied on the upper side of the flange part 131 penetrates downward along the contact surface between the bobbin 144 and the lens part 130 and flows into the groove 132b. Is absorbed and further flow is restricted.

In addition, the position of the groove 132 in the lens unit 130 may be formed anywhere on the outer circumferential surface of the lens unit 130, and the embodiment is formed on the upper outer circumferential surface of the lens unit 130.

In short, the present invention has a groove 132 to limit the flow of the adhesive material 190, so that the image area, that is, the IR filter 180 provided on the base 112 side, the image sensor 160, etc. By preventing this, the reliability of the camera module 100 may be improved.

In addition, as described above, a cylindrical fixing part (not shown) for fixing the lens part 130 may be formed on the upper side of the base 112. In this case, the cylindrical fixing part may replace the bobbin 144, and the upper end 144a, the tapered part 144b, the lower end 144c, and the inclined part 144d formed on the bobbin 144 may be formed. I can. That is, the characteristics of the base 112 may be formed by structural characteristics of the upper end portion 144a, the tapered portion 144b, the lower end portion 144c, and the inclined portion 144d formed on the bobbin 144 described above.

As such, the embodiment includes a printed circuit board on which an image sensor is mounted; A lens unit installed on the upper side of the printed circuit board and disposed at a position corresponding to the image sensor; And an actuator unit that fixes the lens unit and adjusts the focus of the image. A groove capable of trapping an adhesive material may be formed in the lens part. The groove may be formed on an outer circumferential surface of the lens part, and the lens part may further include a flange part formed on the upper side, and in this case, the groove may be a recess formed under the flange part.

From the above description, those skilled in the art will recognize that various changes and modifications can be made without departing from the technical spirit of the present invention, and the technical scope of the present invention is not limited to the contents described in the embodiments, but claims It should be determined according to the scope and the scope equivalent thereto.

100: camera module 110: cover can
112: base 130: lens unit
131: flange portion 132: groove
140: actuator part 141: magnet part
142: coil portion 143: yoke portion
144: magnet part 144a: upper part
144b: tapered portion 144c: lower portion
160: image sensor 170: printed circuit board
180: IR filter 190: adhesive material

Claims (20)

Printed circuit board;
An image sensor disposed on the printed circuit board;
A bobbin including a hole and disposed on the printed circuit board;
A lens barrel disposed in the hole of the bobbin;
A lens disposed in the lens barrel and disposed at a position corresponding to the image sensor; And
Including an adhesive for fixing the lens barrel to the bobbin,
The lens barrel is coupled to the bobbin in a threadless manner,
The lens barrel at least partially includes an outer circumferential surface facing the inner circumferential surface of the hole of the bobbin,
The outer circumferential surface of the lens barrel includes a first surface, a flange portion disposed on the first surface and protruding from the first surface of the lens barrel, and an inclined surface disposed on the flange portion and recessed inward toward an upward direction. and,
The inclined surface of the lens barrel and an outer end of the flange portion of the lens barrel are connected through a third surface extending in a direction perpendicular to an optical axis from the outer end of the flange portion of the lens barrel,
The lens barrel includes a first region disposed between the lens and the bobbin in the direction perpendicular to the optical axis,
The first surface of the lens barrel is disposed in the first area and spaced apart from the lens. The method of claim 1,
The flange portion of the lens barrel includes a second surface parallel to the first surface of the lens barrel,
At least a portion of the adhesive is disposed on the second surface of the flange portion of the lens barrel. The method of claim 2,
The lens is coupled to the inner circumferential surface of the first region of the lens barrel,
An outer peripheral surface of the first region of the lens barrel is coupled to the inner peripheral surface of the bobbin,
The third surface of the lens barrel is a plane extending vertically from the second surface of the flange part. The method of claim 2,
The third surface of the lens barrel connects an upper end of the second surface of the flange portion and a lower end of the inclined surface of the lens barrel. The method of claim 2,
A camera module including a groove formed in the first surface of the lens barrel and disposed between the flange portion and the first surface of the lens barrel. The method of claim 5,
The inner circumferential surface of the hole of the bobbin includes a fourth surface facing the first surface of the lens barrel, a fifth surface facing the second surface of the flange part of the lens barrel, the fourth surface and the Camera module including a tapered surface connecting the fifth surface inclined. The method of claim 6,
The outer circumferential surface of the lens barrel includes a tapered surface connecting the second surface of the flange part with the groove of the lens barrel and facing the tapered surface of the bobbin,
The tapered surface of the bobbin and the tapered surface of the lens barrel are spaced apart to form a space,
At least a portion of the adhesive is disposed in the space between the tapered surface of the bobbin and the tapered surface of the lens barrel. The method of claim 6,
At least a portion of the flange portion of the lens barrel overlaps the tapered surface of the bobbin in the optical axis direction. The method of claim 5,
At least a portion of the adhesive is disposed in the groove of the lens barrel camera module. The method of claim 6,
A camera module in which the tapered surface of the bobbin and the tapered surface of the lens barrel are parallel. The method of claim 2,
The outer circumferential surface of the lens barrel is disposed on the inclined surface and includes a surface parallel to the first surface and the second surface of the flange part. The method of claim 1,
Including a base disposed on the printed circuit board,
The bobbin is a camera module disposed on the base. The method of claim 1,
Including an actuator to adjust the focus by moving the lens barrel,
The actuator is a camera module including the bobbin, the coil, and a magnet facing the coil. The method of claim 12,
York;
A cover can covering the yoke and disposed on the base;
A coil disposed on the bobbin; And
And a magnet disposed on the yoke and facing the coil,
The bobbin is a camera module disposed in the yoke. The method of claim 14,
The first surface of the lens barrel is formed in a cylindrical surface,
The first surface of the lens barrel is formed of a screwless thread,
A camera module in which a lower end of the lens barrel is disposed lower than a lower end of the coil. A portable terminal comprising the camera module of claim 1. Printed circuit board;
An image sensor disposed on the printed circuit board;
A bobbin including a hole and disposed on the printed circuit board;
A lens barrel disposed in the hole of the bobbin;
A lens disposed in the lens barrel and disposed at a position corresponding to the image sensor; And
Including an adhesive for fixing the lens barrel to the bobbin,
The lens barrel is coupled to the bobbin in a threadless manner,
The lens barrel at least partially includes an outer circumferential surface facing the inner circumferential surface of the hole of the bobbin,
The lens barrel includes a flange portion formed on the outer circumferential surface of the lens barrel and overlapping the bobbin in the optical axis direction,
The outer circumferential surface of the lens barrel includes a third surface extending inward from an upper end of the flange portion in a direction perpendicular to the optical axis direction, and an inclined surface extending upward from the third surface and depressing inward toward an upward direction,
The lens barrel includes a first region disposed between the lens and the bobbin in the direction perpendicular to the optical axis direction,
The lens is coupled to the inner circumferential surface of the first region of the lens barrel,
A camera module wherein an outer circumferential surface of the first region of the lens barrel is coupled to the inner circumferential surface of the bobbin. The method of claim 17,
The outer peripheral surface of the lens barrel includes a first surface disposed under the flange portion,
The flange portion of the lens barrel includes a second surface parallel to the first surface of the lens barrel,
The third surface of the lens barrel is a plane extending vertically from the second surface of the flange part. The method of claim 18,
At least a portion of the adhesive is disposed on the second surface of the flange portion of the lens barrel. The method of claim 18,
A camera module including a groove formed in the first surface of the lens barrel and disposed between the flange portion and the first surface of the lens barrel.

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