KR20220128978A - Camera Module - Google Patents

Abstract

An embodiment of the present invention provides a camera module. The camera module includes a base, a lens unit having one or more lenses, and a bobbin fixing the lens unit. The camera module includes: an actuator unit provided on an upper side of the base to move the lens unit; and a cover can receiving the lens unit and the actuator and mounted on the base in close contact with a side surface of the base, wherein an inner lower end of the cover can include a recess formed to be spaced apart from the side surface of the base. Accordingly, the camera module with improved miniaturization and improved reliability can be implemented by improving a structure of the cover can.

Description

Camera Module

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

As various types of portable terminals are widely distributed and wireless Internet services are commercialized, consumer demands related to portable terminals are also diversifying. Accordingly, various types of additional devices are being installed in portable terminals.

Among them, a camera module is a representative example that can take a photo or video of a subject, store the image data, and edit and transmit it as needed.

In recent years, the demand for compact camera modules is increasing for use in various multimedia fields such as notebook personal computers, camera phones, PDA's, smart phones, toys, etc., and for image input devices such as information terminals of surveillance cameras and video tape recorders. .

In the conventional camera module, a cover can is mounted on a base having a lens unit and an actuator unit on the upper side, and the adhesive introduced into the gap region flows to the upper side of the base, and there is a risk of being introduced into the center of the base. In this case, the IR filter provided therein and the element mounted on the printed circuit board may be contaminated, thereby reducing the reliability of the camera module.

(Patent Document 1) JP 2011-199829 A

An embodiment is to provide a camera module with improved reliability in consideration of miniaturization.

An embodiment includes a base, a lens unit provided with one or more lenses, and a bobbin for fixing the lens unit, an actuator unit provided on the upper side of the base to move the lens unit, and the lens unit and the actuator unit, , It provides a camera module including a cover can having an inner surface attached to the base in close contact with the side surface of the base, wherein the lower end of the inner surface of the cover can includes a recess formed to be spaced apart from the side surface of the base.

In addition, the cover can may be formed of a metal material.

In addition, the recess portion may be formed by press molding.

In addition, at least one through hole through which an adhesive may be introduced may be formed in the recess portion of the cover can.

In addition, the actuator part includes a first coil part provided on the outer peripheral surface of the body of the bobbin, a magnet part provided at a position corresponding to the outer surface of the first coil part, and an inner surface of the base to fix the magnet part. It may include a fixed yoke unit 124 .

In addition, the actuator unit may further include a second coil unit provided on the base so as to correspond to the lower surface of the magnet unit.

In addition, the actuator unit may further include an FPCB mounted on the upper surface of the base and mounted with the second coil unit.

In addition, the lower surface of the base may further include a hall sensor provided at a position corresponding to the magnet portion.

In addition, the yoke unit may be implemented as the cover can.

According to an embodiment of the present invention, a camera module with improved miniaturization and improved reliability is implemented by improving the structure of the cover can.

1 is a schematic side cross-sectional view of a camera module according to an embodiment of the present invention.
Figure 2 is a cut-away perspective view of a cover can according to an embodiment of the present invention.
3 is a perspective view of a camera module according to an embodiment of the present invention.

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

Unless otherwise specified, all terms herein have the same general meaning as understood by those skilled in the art, and if a term used in this specification conflicts with the general meaning of the term, the definition used herein shall govern.

However, the invention to be described below is only for explaining the embodiments of the present invention, not for limiting the scope of the present invention, and the same reference numbers used throughout the specification indicate the same components.

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

1 is a schematic side cross-sectional view of a camera module according to an embodiment of the present invention, FIG. 2 is a cut-away perspective view of a cover can according to an embodiment of the present invention, and FIG. 3 is a perspective view of a camera module according to an embodiment of the present invention to be.

1 to 3 , the camera module 100 according to the embodiment largely includes a lens unit (not shown), an actuator unit 120 , a cover can 110 , and a base 130 . The camera module 100 may include a lens driving actuator, a lens unit, a printed circuit board, and an image sensor. The lens driving actuator may include an actuator unit 120 , a cover can 110 , and a base 130 .

The cover can 110 accommodates the lens unit and the actuator unit 120 , and forms the exterior of the camera module 100 . Specifically, the cover can 110 is mounted on the base 130 in close contact with the side surface of the base 130, which will be described later, and protects internal components from external impacts and at the same time prevents penetration of external contaminants. have a function As shown in FIG. 3 , the base 130 may include a step 132 formed by protruding a portion of an outer peripheral surface of a corner of the base 130 . The side plate of the cover can 110 may include a first area having a first length in the optical axis direction and a second area having a second length shorter than the first length in the optical axis direction. The second region of the side plate of the cover can 110 may be disposed on the step 132 of the base 130 .

In addition, the cover can 110 should also perform a function of protecting the components of the camera module 100 from external interference generated by a mobile phone or the like. Therefore, the cover can 110 is preferably formed of a metal material. The cover can 110 may be implemented as a yoke unit 124 itself, which will be described later, or may be fixed by molding the yoke unit 124 inside.

On the other hand, although not shown in the embodiment, it may further include a printed circuit board (not shown). An image sensor (not shown) is mounted on the central portion of the upper side of the printed circuit board, and various elements (not shown) for driving the camera module 100 may be mounted thereon. In addition, the printed circuit board is electrically connected to a first coil unit 122 to be described later in order to apply power for driving the actuator unit 120 to be described later to the actuator unit 120 .

The image sensor (not shown) may be mounted on the central portion of the upper surface of the printed circuit board so as to be positioned along the optical axis direction with one or more lenses (not shown) accommodated in the lens unit. Such an image sensor converts an optical signal of an object incident through a lens into an electrical signal.

The lens unit (not shown) 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 in which the lens unit is a lens barrel will be described as an example.

The lens unit is installed on the upper side of the printed circuit board, and is disposed at a position corresponding to the image sensor. One or more lenses (not shown) are provided in the lens unit.

Meanwhile, an infrared cut-off filter (IR filter, 160) may be provided between the image sensor and the lens unit, and the IR filter 160 may include an infrared filter (Infrared Ray Filter). In addition, the IR filter 160 may be formed of, for example, a film material or a glass material, and an infrared blocking coating material may be disposed on a plate-shaped optical filter such as a cover glass for protecting an imaging surface or a cover glass.

In order to perform a sensor holder function to protect the image sensor and to position the IR filter 160 at the same time, a base 130 may be provided between the actuator unit 120 and the printed circuit board. In this case, the IR filter 160 may be mounted in a hollow formed in the center of the base 130 .

The actuator unit 120 fixes the lens unit to be positioned inside, and moves the lens unit to adjust the focus of the image. Specifically, the actuator unit 120 includes a bobbin 121 coupled to the outer peripheral surface of the lens unit to fix the lens unit.

Also, in the actuator unit 120 , the camera module 100 may be implemented as an A.F (Auto Focusing) type or as an OIS (Optical Image Stabilization) type.

In the former A.F (Auto Focusing) type, as shown, the actuator unit 120 includes a first coil unit 122 provided on an outer circumferential surface of the bobbin 121 and the first coil unit 122 . and a magnet part 123 provided at a position corresponding to the outer surface of the , and a yoke part 124 for fixing the magnet part 123 .

In the latter case of the Optical Image Stabilization (OIS) type, the actuator unit 120 includes a first coil unit 122 provided on an outer circumferential surface of the bobbin 121 , an outer surface of the first coil unit 122 and A magnet unit 123 provided at a corresponding position, and a second coil unit (not shown) provided on the base 130 so as to correspond to the lower surface of the magnet unit 123 although not shown; and a yoke part 124 for fixing the magnet part 123 .

In addition, although not shown, in the latter case of the OIS (Optical Image Stabilization) type, the second coil unit is mounted and an FPCB (not shown) provided on the upper side of the base 130 to receive power is further included. It may further include a hall sensor unit (not shown) provided on the lower side of the base 130 at a position corresponding to the magnet unit 123 .

The first coil unit 122 moves the lens unit up and down in the optical axis direction, and the second coil unit moves the lens unit in a direction perpendicular to the optical axis direction.

Here, the first coil unit 122 may receive power from the printed circuit board, and the second coil unit may be mounted on the FPCB provided on the upper side of the base 130 to receive power by the FPCB. Meanwhile, in consideration of miniaturization of the camera module 100 , specifically, lowering the height in the z-axis direction, which is the optical axis direction, the second coil unit may be formed of a patterned coil.

In the latter case of the Optical Image Stabilization (OIS) type, the Hall sensor unit senses the voltage applied to detect the movement of the magnet unit 123 and the intensity and phase of the current flowing through the coil, and interacts with the FPCB to It is provided to precisely control the actuator unit 120 .

In addition, the hall sensor unit is provided on a straight line with the magnet unit 123, and detects displacements in the x-axis and the y-axis. Although the hall sensor unit is provided closer to the second coil unit than the magnet unit 123, considering that the strength of the magnetic field formed in the magnet is several hundred times greater than the strength of the electromagnetic field formed in the coil, the The influence of the second coil unit on movement detection is not considered.

In the camera module 100 according to an embodiment of the present invention including such a configuration, the lower end of the inner surface of the cover can 110 includes a recess 111 formed to be spaced apart from the side portion 131 of the base 130 . include

In addition, at least one through hole 112 through which an adhesive may be introduced may be formed in the recess 111 of the cover can 110 . After the cover can 110 is mounted on the base 130 , an adhesive may be introduced through the through hole 112 . 3 , at least a portion of the through hole 112 of the cover can 110 may not overlap the base 130 in the optical axis direction.

The adhesive 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, it is cured by moving it to an oven or by applying direct heat, and when using a UV (ultraviolet) epoxy, it is a method of curing by applying UV (ultraviolet light) to the adhesive.

In addition, the adhesive may be an epoxy in which heat curing and UV (ultraviolet ray) curing can be mixed, and both thermal curing and UV (ultraviolet ray) curing are possible, so it may be an epoxy that can be cured by selecting any one of them. The adhesive is not limited to the epoxy, and any material that can be adhered to may be substituted.

In the camera module 100 of the embodiment having such a structure, since the upper end of the cover can 110 is closely coupled to the upper end of the base 130 , when the adhesive is introduced through the through hole 112 , the adhesive is placed on the upper side Since it cannot flow to the base 130, the IR filter 160 provided in the central part of the base 130 or various elements provided in the printed circuit board cannot be affected. In particular, in the case of the OIS camera module, when a foreign material such as an adhesive is introduced into the upper side of the base 130, major components such as the hall sensor, the second coil unit and the FPCB may be damaged, so the structural feature of this embodiment is the camera There is an advantage in improving the reliability of the module.

In addition, there is no need to form a stepped portion on the base as in the prior art, there is an advantage that the size of the camera module can be reduced to both sides.

Meanwhile, the recess 111 and the through-hole 112 to be described later may be formed by press molding to simplify the manufacturing process.

In short, the embodiment of the present invention can implement a camera module with improved miniaturization and improved reliability by having the cover can 110 having an improved structure.

Above, those skilled in the art from the above description will know that various changes and modifications are possible without departing from the technical spirit of the present invention, the technical scope of the present invention is not limited to the contents described in the embodiments, but claims It should be determined by the scope and its equivalent scope.

100: camera module 110: shield can
111: recess 112: through hole
120: actuator unit 121: bobbin first coil unit
122: first coil unit 123: magnet unit
130: base

Claims (20)

Base;
a cover can disposed on the base and including an upper plate and a side plate;
a bobbin disposed in the cover can;
a first coil and a magnet for moving the bobbin in an optical axis direction; and
and an adhesive for adhering the side plate and the base of the cover can,
The side plate of the cover can includes a first side plate and a second side plate disposed opposite to each other, and a third side plate and a fourth side plate disposed opposite to each other,
The first side plate of the cover can includes a first hole and a second hole spaced apart from the first hole,
At least a portion of the first hole and the second hole of the first side plate of the cover can do not overlap the base in the optical axis direction. According to claim 1,
The base includes a step that protrudes outwardly so as to overlap with the side plate of the cover can in the optical axis direction,
At least a portion of the first hole and the second hole of the first side plate of the cover can do not overlap the step difference of the base in the optical axis direction. 3. The method of claim 2,
The first hole and the second hole of the cover can are disposed higher than the step difference of the base lens driving actuator. 3. The method of claim 2,
The step of the base includes a first step and a second step,
The first side plate of the cover can includes a first step area corresponding to the first step of the base, a second step area corresponding to the second step of the base, the first step area and the second step area Including a first portion disposed between the step area,
a portion of the first portion of the first side plate of the cover can is disposed between the first step and the second step of the base. 5. The method of claim 4,
The part of the first portion of the first side plate of the cover can overlaps the first step and the second step of the base in a direction perpendicular to the optical axis direction. 5. The method of claim 4,
A lower end of the first portion of the first side plate of the cover can is a lens driving actuator disposed under the first hole and the second hole. According to claim 1,
At least a portion of the adhesive is disposed in the first hole and the second hole of the cover can. According to claim 1,
A space open downward is formed between the base and the first side plate of the cover can,
The space is connected to at least one of the first hole and the second hole of the first side plate of the cover can,
A lens driving actuator in which the adhesive is disposed in at least a portion of the space. According to claim 1,
The adhesive is introduced through at least one of the first hole and the second hole of the first side plate of the cover can. 5. The method of claim 4,
The first portion of the cover can has a first length in the optical axis direction,
The first step area and the second step area of the cover can have a second length shorter than the first length in the optical axis direction,
and at least a portion of the first hole and the second hole of the first side plate of the cover can are disposed in the first part of the cover can. 5. The method of claim 4,
The first step area of the cover can overlaps the first step area of the base in the optical axis direction,
The second step area of the cover can overlaps the second step area of the base in the optical axis direction. 5. The method of claim 4,
A width of the first portion of the cover can in a first direction perpendicular to the optical axis direction and parallel to the first side plate is the second step of any one of the first step area and the second step area of the cover can. Lens drive actuators longer than the width in one direction. The method of claim 1,
and a second coil disposed on the base and facing the magnet,
The first coil is disposed on a bobbin,
The magnet is disposed between the side plate of the cover can and the first coil,
The cover can is a lens driving actuator formed of a metal material. 9. The method of claim 8,
The space is a lens driving actuator formed by a recess formed in the inner surface of the lower end of the side plate of the cover can. Base;
a cover can disposed on the base and including an upper plate and a side plate;
a bobbin disposed in the cover can;
a first coil and a magnet for moving the bobbin in an optical axis direction; and
and an adhesive for adhering the side plate and the base of the cover can,
The side plate of the cover can includes a hole in which the adhesive is disposed,
The base includes a step protruding outwardly to overlap with the side plate of the cover can in the optical axis direction,
At least a portion of the hole of the cover can is a lens driving actuator that does not overlap the step difference of the base in the optical axis direction. 16. The method of claim 15,
The side plate of the cover can includes a first side plate and a second side plate disposed opposite to each other, and a third side plate and a fourth side plate disposed opposite to each other,
The hole of the cover can is a lens driving actuator including a first hole and a second hole spaced apart from each other in the first side plate. 17. The method of claim 16,
The step of the base includes a first step and a second step overlapping the first side plate of the cover can in the optical axis direction,
A portion of the first side plate of the cover can is disposed between the first step and the second step of the base in a direction perpendicular to the optical axis direction. printed circuit board;
an image sensor disposed on the printed circuit board;
18. The lens drive actuator of any one of claims 1 to 17; and
and a lens coupled to the bobbin of the lens driving actuator and disposed at a position corresponding to the image sensor. A mobile terminal comprising the camera module of claim 18 . a cover can comprising a top plate and a side plate extending from the top plate;
a bobbin disposed in the cover can;
a coil and a magnet for moving the bobbin in an optical axis direction; and
and a base disposed under the bobbin and coupled to the side plate of the cover can.

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