KR102224317B1 - Camera module - Google Patents

Abstract

The camera module according to the present embodiment includes a printed circuit board on which an image sensor is mounted; A base installed on the upper side of the printed circuit board; And a holder member installed on the upper side of the base. The holder member includes a plurality of magnet seats having an open surface facing the base on an outer circumferential surface; And a plurality of magnets coupled to the magnet seating portion, wherein a surface of the plurality of magnets facing the base may be supported by a magnet support protrusion integrally formed with the base.

Description

Camera module}

This embodiment relates to a camera module.

The camera module includes an image sensor and a printed circuit board on which an image sensor that transmits electrical signals is mounted, an infrared cut filter that blocks light in an infrared region to the image sensor, and at least one or more lenses that transmit an image to the image sensor. It may include an optical system composed of. In this case, an actuator module capable of performing an auto-focusing function and a hand-shake correction function may be installed in the optical system.

The actuator module can be configured in various ways, and voice coil motors are generally used. The voice coil motor may perform an auto-focusing function by operating by electromagnetic interaction between a magnet fixed to a holder member and a coil wound on an outer circumferential surface of a bobbin installed to be reciprocally movable on the lens barrel side.

At this time, the magnet installed in the holder member of the voice coil motor generally forms a through hole having a shape corresponding to the magnet in the side wall of the holder member, and the magnet is adhesively fixed to the through hole using an adhesive member or the like. In order to form a through hole in the holder member as described above, it is essential to use a slide core in the mold of the holder member that is injection-molded of a resin material. The manufacturing cost of a mold having a slide core used for forming the through hole of this side is 10 to 15% higher than that of a general injection mold, which increases the cost of producing parts.

In addition, there is also a problem in that the possibility of foreign matter inflow is high because the gap path between the shield can and the base and the holder member is short.
(Patent Document 1) KR10-2012-0065492A

This embodiment provides a camera module having an improved structure to reduce the cost of manufacturing a mold and minimize the inflow of foreign matter.

The camera module according to the present embodiment includes a printed circuit board on which an image sensor is mounted; A base installed on the upper side of the printed circuit board; And a holder member installed on the upper side of the base. The holder member includes a plurality of magnet seats having an open surface facing the base on an outer circumferential surface; And a plurality of magnets coupled to the magnet seating portion, wherein a surface of the plurality of magnets facing the base may be supported by a magnet support protrusion integrally formed with the base.

The magnet support protrusion may be positioned above the bottom surface of the holder member when the base and the holder member are assembled.

The magnet support protrusion and the magnet may have a width corresponding to each other.

The base may have an insertion groove formed around the magnet support protrusion, and the holder member may have an insertion protrusion formed at a position corresponding to the insertion groove.

The base may have a convex portion formed at a corner portion higher than the magnet support protrusion, and the holder member may have a concave portion formed at a position corresponding to the convex portion.

The magnet may be disposed such that a surface facing the holder member and a surface facing the base have different polarities.

In addition, it may further include a shield can coupled to the base to accommodate the holder member therein.

The shield can is formed of a metal material, and may accommodate a convex portion, an insertion groove, and a magnet support protrusion formed in the base therein.

In the base, a locking portion to which the shield can is coupled may be formed to protrude outward from the convex portion, the insertion groove, and the magnet support protrusion.

Since the magnet seating portion of the holder member is formed by forming an opening in a surface facing the base rather than in a shape of a through hole, there is no need to use a mold using a slide core, so that the manufacturing cost can be reduced.

In addition, since the surface of the base facing the magnet is extended to support the end of the base in direct contact with the magnet, the foreign matter inflow path leading to the magnet seating portion coupled to the shield can, the base and the holder member is relatively long. Inflow can be minimized.

1 is a diagram showing an example of a camera module according to the present embodiment;
Figure 2 is an exploded view showing a coupling relationship between the holder member and the base of Figure 1, and,
3 is a view showing a coupling relationship with the base according to the present embodiment.

Hereinafter, an embodiment of the present embodiment will be described with reference to the accompanying drawings.

1 is a view showing an example of a camera module according to the present embodiment, FIG. 2 is an exploded view showing a coupling relationship between a holder member and a base of FIG. 1, and FIG. 3 is a coupling relationship with a base according to the present embodiment. It is a diagram showing.

1 is a diagram illustrating a camera module according to the present embodiment.

As shown, the camera module according to the present embodiment may include a printed circuit board 10, a base 20, a holder member 30, and a shield can 40. This embodiment is a camera module having a voice coil motor as an actuator.

The printed circuit board 10 includes an image sensor (not shown), and may be connected to an electronic device such as a mobile device through a connection terminal (not shown).

The base 20 is disposed above the printed circuit board 10, and an infrared cut filter for blocking infrared rays may be installed at a position corresponding to the image sensor.

The holder member 30 may have a lens holder supporting a plurality of lenses and the lens holder installed therein, and a bobbin having a coil wound on an outer circumferential surface thereof may be installed so as to move up and down. In addition, a magnet 32 may be installed on the outer circumferential surface of the holder member 30 at a position corresponding to the coil wound on the bobbin, and each side of the holder member 30 for installation of the magnet 32 In the magnet seating portion 31 may be formed.

According to this embodiment, upper and lower elastic members for elastically supporting the lifting motion of the bobbin may be disposed on the upper and lower sides of the holder member 30, and the upper elastic member may be disposed on the upper side of the holder member 30. It is also possible to install a support member or a cover member capable of supporting the member.

The shield can 40 has an end coupled to the base 20 and accommodates the holder member 30 therein so that the holder member 30 is not exposed to the outside. The shield can 40 is formed of a metal material, shields electromagnetic waves generated from the camera module, and prevents external noise components from flowing into the camera module.

A support means for supporting the upper elastic member may be provided on a surface of the shield can 40 facing the holder member 30, and a separate cover member, etc. may be fixedly coupled as described above. It is possible.

According to this embodiment, the magnet seating portion 31 may be provided in a shape with an open end, and as shown in FIG. 2, an open opening may be formed on a surface facing the base 20. have.

The magnet seating portion 31 is provided at the installation position of the magnet 32, and when the holder member 30 is provided in a square shape, the magnet 32 is installed on each side, so a total of four magnet seating portions 31 ) Can be installed. The magnet seating portions 31 may be formed in sizes corresponding to each other, and may be formed in different sizes according to design needs. In general, the magnet 32 may be formed to have the same magnetic force so as to form a constant magnetic force, and as shown in FIGS. 2 and 3, the upper and lower sides may be formed to be the N pole and the S pole, respectively. In addition, a surface facing the outer peripheral surface and a surface facing the inner peripheral surface of the holder member 30 may be arranged to have different magnetic poles.

The characteristic of this embodiment is that the holder member 30 is formed so that the magnet seating portion 31 is not configured in the form of a through hole as in the prior art, and has an opening having an open one end as described above, In this case, a structure for supporting the bottom surface of the magnet 32 may be provided integrally with the base 20.

That is, as shown in FIGS. 2 and 3, a magnet support protrusion 100 capable of contacting the lower surface of the magnet 32 is formed on the surface of the base 20 facing the magnet 32 Can be.

The magnet support protrusion 100 may have a width corresponding to the width of the magnet 32 and may have a height that can be positioned above the bottom surface of the holder member 30.

When the magnet support protrusion 100 is provided in this way, the foreign matter introduced through the coupling surface of the base 20 and the shield can 40 is the magnet 32 and the magnet support protrusion 100 installed on the holder member 30 It is possible to minimize the inflow of foreign substances into the camera module by increasing the moving distance to the contact surface of.

Meanwhile, as shown in FIGS. 2 and 3, surfaces of the base 20 and the holder member 30 may have a shape corresponding to each other.

That is, a concave concave portion 33 may be provided in the holder member 30 corresponding to the end convex portion 23 of the base 20, and a position close to the magnet support protrusion 100 of the base 20 A concave insertion groove 24 may be formed, and an insertion protrusion 34 formed longer than an end of the holder member 30 may be formed in the holder member 30 corresponding to the insertion groove 24. Such a shape may be formed equally on each surface of the base 20 and the holder member 30, and some shapes may be changed according to design needs.

According to this embodiment, since the magnet seating portion 31 of the holder member 30 supporting the magnet 32 may be provided in an open shape, not a through-hole shape, injection formation of the holder member 30 There is no need to install a sliding core in the mold. Therefore, since the holder member 30 can be produced only with a relatively inexpensive general mold, the production cost of the holder member 30 can be reduced.

In addition, since it is possible to assemble the base 20, the magnet 32, and the holder member 30 in the same direction, it is possible to automate the process of inserting the magnet 32, which was previously performed manually.

In addition, based on the coupling position where the shield can 40 and the base 20 mesh with each other, the coupling position where the magnet 32 and the magnet support protrusion 100 mesh with each other is the conventional holder member 30 and the base ( Since it can be disposed above the position of 20) in contact with each other, the foreign material movement distance is relatively long, so that the foreign material inflow can be minimized.

The insertion protrusion 34 of the holder member 30 may be referred to as a “first protrusion” and the magnet support protrusion 100 of the base 20 may be referred to as a “second protrusion”. The insertion groove 24 of the base 20 may be referred to as a'groove'. The convex portion 23 of the base 20 may be referred to as a'protrusion' and the concave portion 33 of the holder member 30 may be referred to as a'depressed portion'. The base 20 may include a locking portion 25 protruding from the outer surface of the base 20 as shown in FIG. 3.

Although the embodiments according to the present embodiment have been described above, these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent ranges of embodiments are possible therefrom. Therefore, the true technical protection scope of this embodiment should be determined by the following claims.

10; Printed circuit board 20; Base
23; Iron part 24; Insert groove
30; Holder member 31; Magnet seat
32; Magnet 33; waist
34; Insertion protrusion 100; Magnet support protrusion

Claims (20)

Base;
A holder member disposed on the base;
A bobbin disposed in the holder member;
A coil disposed on the bobbin; And
Including a magnet disposed between the base and the holder member,
The holder member includes a magnet seating portion in which the magnet is disposed, a first protrusion extending from the magnet seating portion and protruding below the magnet, and a depression portion recessed from a lower surface of the first protrusion,
The base includes a second protrusion and a protrusion protruding from the upper surface,
At least a portion of the first protrusion of the holder member is disposed between the second protrusion and the protrusion of the base,
The second protrusion of the base overlaps the magnet in the optical axis direction,
At least a portion of the protruding portion of the base is disposed in the recessed portion of the holder member,
The first protrusion includes a first region overlapping the protrusion of the base in a direction perpendicular to the optical axis direction,
The outer surface of the first region of the first protrusion extends with a constant width from the top to the bottom in the optical axis direction,
The holder member includes four side surfaces,
The magnet mounting portion includes four magnet mounting portions formed on the four side surfaces of the holder member,
The magnet includes four magnets disposed on the four magnet seats,
The first protrusion is a voice coil motor disposed on both sides of each of the four magnets. The method of claim 1,
The recessed portion of the holder member includes a first surface facing an upper surface of the protruding portion of the base,
In the direction perpendicular to the optical axis direction, the width of the first surface of the depression is the same as the width of the upper surface of the protrusion. The method of claim 1,
The protrusion of the base is formed in a corner area of the upper surface of the base. The method of claim 1,
The magnet seating portion is formed to be opened downward toward the base,
A voice coil motor having an upper surface of the second protrusion of the base directly facing a lower surface of the magnet. The method of claim 1,
A voice coil motor wherein at least a portion of the first protrusion of the holder member horizontally overlaps with the second protrusion and the protrusion of the base. The method of claim 1,
The holder member includes a first portion overlapping the magnet in the optical axis direction,
The first portion of the holder member includes a portion whose height in the optical axis direction is lower than that of other portions. The method of claim 1,
The first protrusion of the holder member is formed integrally with the holder member,
The second protrusion of the base is a voice coil motor integrally formed with the base. The method of claim 1,
The first protrusion of the holder member includes two protrusions disposed on both sides of the magnet,
The distance between the two protrusions is a voice coil motor corresponding to a width of the magnet in a corresponding direction. The method of claim 1,
The magnet is a voice coil motor that is disposed such that an upper surface of the magnet and a lower surface of the magnet have different polarities. The method of claim 1,
A shield can coupled to the base and accommodating the holder member therein,
The shield can is formed of a metal material and the voice coil motor accommodates the second protrusion of the base therein. The method of claim 10,
The base includes a locking portion protruding from the outer surface of the base,
The shield can is a voice coil motor disposed on the locking part of the base. The method of claim 1,
A voice coil motor in which an upper surface of the second protrusion of the base is in contact with a lower surface of the magnet. The method of claim 1,
The voice coil motor of the base protrudes above the second protrusion of the base. Printed circuit board;
An image sensor disposed on the printed circuit board;
The voice coil motor of claim 1 disposed on the printed circuit board; And
Camera module including a lens coupled to the bobbin of the voice coil motor. A mobile device comprising the camera module of claim 14. delete delete delete delete delete

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