KR102083548B1 - Lens driving device - Google Patents

Abstract

Lens drive device according to the present invention, the base; A bobbin disposed on the base; A coil disposed on the bobbin; A magnet facing the coil; An elastic member disposed on the base; The elastic member includes a support portion coupled to the lower surface of the bobbin and a first region disposed on the base, wherein the bobbin protrudes from the lower surface of the bobbin and corresponds to a corner region of the base. A rib disposed in the rib, wherein the rib is positioned between the support and the first region of the elastic member, and the rib includes a first rib and a third rib disposed to face each other with respect to an optical axis; The first rib and the third rib are spaced apart from the support of the elastic member.

Description

Lens driving device

The present invention relates to a lens driving apparatus capable of preventing filter contamination due to repeated drop impacts of bobbins.

In general, automatic focusing of the camera module can be achieved through lens control using a voice coil motor.

The camera module having the voice coil motor is configured by stacking a plurality of components from the bottom surface. That is, the bottom surface is provided with a printed circuit board, an image sensor is installed there, and the filter is disposed above the image sensor under the interposition of the base. On the other hand, the yoke is raised on the base by the spacer and the lower spring, the cover is laminated on the upper side of the yoke under the interposition of the upper spring. Meanwhile, a coil is wound around an outer circumferential surface of the yoke inner circumferential surface, and a bobbin having a lens installed therein is installed to reciprocate in a stacking direction, wherein the upper and lower sides of the bobbin are elastically supported by the upper and lower springs. . On the other hand, the bottom surface of the bobbin is installed to contact the base, which is to set the reference point of the reciprocating movement of the bobbin in contact with the base.

The camera module configured as described above controls the focus of an image incident on the image module by performing an operation of reciprocating the bobbin with respect to the image sensor according to the interaction between the coil wound on the outside of the bobbin and the yoke. .

However, according to such a configuration, the plurality of ribs and the base protruding from the bottom surface of the bobbin repeatedly collide with each other according to the focus adjustment operation involving the reciprocating movement of the bobbin.

In general, the plurality of ribs protrude from the bottom surface of the bobbin. In this case, the rib is disposed to be in surface contact with the base at a position proximate to an infrared filter installed at a position corresponding to the image sensor of the base. On the other hand, since the bobbin and the base are manufactured using a mixture of plastic and glass fiber, repeated collisions of the ribs and the base protruding from the bottom of the bobbin form a foreign material due to the scattering of fine particles.

However, foreign matters generated by the collision between the bobbin and the base may contaminate the infrared filter disposed near the collision position between the ribs and the base. There is a problem that the clothes or black spots may occur to cause a failure of the camera module.

It is an object of the present invention to provide a lens driving apparatus that does not contaminate a filter by foreign matter caused by the impact of a bobbin and a base due to reciprocating movement of the bobbin, and prevents the infrared filter from being damaged by a collision shock.

Lens driving apparatus according to the present invention, the base; A bobbin disposed on the base; A coil disposed on the bobbin; A magnet facing the coil; An elastic member disposed on the base; The elastic member includes a support portion coupled to the lower surface of the bobbin and a first region disposed on the base, wherein the bobbin protrudes from the lower surface of the bobbin and corresponds to a corner region of the base. A rib disposed in the rib, wherein the rib is positioned between the support and the first region of the elastic member, and the rib includes a first rib and a third rib disposed to face each other with respect to an optical axis; The first rib and the third rib are spaced apart from the support of the elastic member.

According to the present invention as described above, even if the position of the ribs protruding on the bottom surface of the bobbin is changed to a corner portion far away from the image sensor and the infrared filter, even if foreign matter occurs due to collision of the bobbin and the flange due to the reciprocating movement of the bobbin, This foreign matter can be prevented from contaminating the filter.

1 is a cross-sectional view showing a schematic shape of a camera module according to an embodiment of the present invention;
FIG. 2 is a bottom perspective view showing the bottom surface of the bobbin of FIG. 1, and
3 is a schematic plan view of a camera module according to an exemplary embodiment of the present invention.

Hereinafter, a camera module according to an embodiment of the present invention will be described with reference to the drawings.

1 is a schematic cross-sectional view of a camera module according to an embodiment of the present invention, Figure 2 is a bottom perspective view of the bobbin of Figure 1, Figure 3 is for explaining the operation of the camera module according to a preferred embodiment of the present invention It is a schematic diagram.

As shown, the camera module according to the present invention includes a printed circuit board 10, a base 20, a bobbin 30, a yoke 40, a lower spring 50, an upper spring 60, and a cover member 70. And a shield can 80.

An image sensor 11 is mounted on an upper side of the printed circuit board 10, and an infrared filter (or an infrared filter) is disposed at a position facing the image sensor 11 under a base 20 disposed above the printed circuit board 10. IRCF 21) is installed.

The bobbin 30 is provided to be elevated on the upper side of the base 20, and a plurality of rib members 31 are formed to protrude from the bottom surface, and are in surface contact with the base 20 at an initial position. A coil 32 is wound around the outer circumferential surface of the bobbin 30, and when a current flows in the coil 32, a magnetic field is formed in the bobbin 30, and the magnet 41 is installed in the yoke 40. Reciprocating by interaction

The yoke 40 is disposed above the base 20, and the bobbin 30 provided with a lens 33 therein moves inside the yoke 40 in the up and down direction (arrow A direction) of FIG. 1. It is possible to install. The magnet 41 is installed on the inner circumferential surface of the yoke 40 so as to face the bobbin 30 on which the coil 32 is wound.

Lower spring 50 is disposed between the yoke 40 and the base 20, the lower spring 50 is configured to support the bottom surface of the bobbin 30, the vertical direction of the bobbin 30 Elastically support the movement. A start line and an end line of the coil 32 wound on the outer circumferential surface of the bobbin 30 are connected to the lower spring 50, and the coil 32 is connected to the printed circuit board 10 through the lower spring 50. Is electrically connected to the

Although not shown, a spacer may be interposed between the yoke 40 and the lower spring 50. The spacer is provided to insulate the lower spring 50 from the yoke 40, and may be used by changing the shape of the base 30 instead of the spacer. The upper spring 60 is interposed between the yoke 40 and the cover member 70 to elastically support the upper side of the bobbin 30.

The cover member 70 is coupled to the upper portion of the yoke 40. The cover member 70 has a through-hole of a size corresponding to the lens 33 so that an external image can be transmitted to the image sensor 11 through the lens 33 alone.

The shield can 80 is configured to surround the outside of the above-described components, and constitutes a lens hole formed at or equal to the through hole at a position corresponding to the through hole, so that an external image is formed through the through hole. To be delivered).

The camera module according to the present invention configured as described above has the characteristics of the invention in the arrangement position of the rib member 31. That is, as shown in Figure 1, the lower spring 50 is engaged with the bottom surface of the bobbin 30, the rib member (outside of the support position 51 for elastically supporting the bobbin 30) 31) is formed to protrude. As shown in FIG. 2, the protruding position of the rib member 31 corresponds to a corner portion of the bottom surface of the bobbin 30. As shown schematically in FIG. 3, the position where the rib member 31 is in surface contact with the base 20 at the initial position is disposed outside of the lower spring 50 indicated by the thick line. This corresponds to a corner portion of the infrared filter 21.

According to the present invention as described above, the bottom surface of the bobbin 30 in the diagonal direction of the infrared filter 21, that is, on the surface facing the edge portion of the base 20 corresponding to the outer side of the lower spring 50 Since the rib member 31 is disposed, even if the rib member 31 and the base 20 repeatedly collide with each other, the impact generated at this time is transmitted to the infrared filter 21 side smaller than before. Therefore, it is possible to reduce the phenomenon that the epoxy resin attached to the infrared filter 21 falls by collision impact to form epoxy dust and contaminate the infrared filter 21 by foreign matter such as epoxy dust. In addition, as described above, since the impact generated during the collision between the base 20 and the rib member 31 is generated in a relatively far place, a relatively small impact compared to the conventional impact directly on the infrared filter 21. Since the transmission, it is possible to reduce the occurrence of cracks of the infrared filter 21 due to such an impact, it is possible to improve product reliability.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical idea of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

Claims (29)

Base;
A bobbin disposed on the base;
A coil disposed on the bobbin;
A magnet facing the coil; And
A lower elastic member connecting the bobbin and the base,
The lower elastic member includes a support portion coupled to the lower surface of the bobbin and a first region disposed on the base,
The bobbin includes ribs protruding from the bottom surface of the bobbin,
The rib of the bobbin is disposed between the support of the lower elastic member and the first region of the lower elastic member,
At least a portion of the rib of the bobbin overlaps the coil and the base in a vertical direction,
The base includes a first side surface, a second side surface, and a first corner region formed by the first side surface and the second side surface,
The rib includes a first rib corresponding to the first corner region of the base and disposed outside the support of the lower elastic member. The method of claim 1,
And the first corner region of the base includes a first point where an imaginary first straight line contacting the first side surface of the base and an imaginary second straight line contacting the second side surface of the base meet each other. The method of claim 2,
The base comprises an opening,
And the first corner region of the base is an area having a radius of the shortest distance from the first point to the opening. The method according to claim 1 or 2,
The lower surface of the bobbin includes a first side corresponding to the first side of the base and a second side corresponding to the second side of the base,
And the first corner region of the base includes a second point where an extension line of the first side of the bobbin meets an extension line of the second side of the bobbin. The method of claim 1,
And the first rib is closer to the first corner region than to the center of the first side surface of the base. The method of claim 5,
And the first rib is formed in a first corner region of the bobbin corresponding to the first corner region of the base. The method of claim 4, wherein
The lower surface of the bobbin is octagonal,
And the first corner region of the bobbin is an area including one side adjacent to the first corner region of the base. The method of claim 1,
The rib includes a third rib disposed diagonally to the first rib,
And the first rib and the third rib are disposed on a first virtual straight line perpendicular to the optical axis and passing through the optical axis. The method of claim 8,
The base includes a third corner region including a third side surface, a fourth side surface, and a third corner formed by the third side surface and the fourth side surface.
And the third rib corresponds to the third corner region and is disposed outside the support of the lower elastic member. The method of claim 9,
The base includes a second corner region including a fourth corner region formed by the first side surface and the fourth side surface, and a second corner formed by the second side surface and the third side surface.
The rib includes a second rib corresponding to the second corner region and a fourth rib corresponding to the fourth corner region. The method of claim 10,
The second rib and the fourth rib is located in the diagonal direction,
And the second rib and the fourth rib are disposed on a second virtual straight line perpendicular to the optical axis and passing through the optical axis. The method according to claim 8 or 11, wherein
The outer surface of the rib of the bobbin with respect to the optical axis is disposed outside the outer circumferential surface on which the coil is disposed. The method of claim 1,
The rib of the bobbin is in contact with the upper surface of the base in the initial state in which no driving current is applied to the coil,
At least a portion of the rib of the bobbin overlaps the lower elastic member in a horizontal direction. The method of claim 1,
The rib of the bobbin comprises a plurality of ribs,
The base includes a third side surface disposed opposite the first side surface and a fourth side surface disposed opposite the second side surface,
The upper surface of the base includes a plurality of second regions in contact with the plurality of ribs,
Each of the plurality of second regions of the base is disposed close to any one of the first side surface and the third side surface, and is disposed close to any one of the second side surface and the fourth side surface. The method of claim 14,
The base includes a hole penetrating the base in the vertical direction,
And each of the plurality of second regions of the base is spaced apart from the hole of the base. The method of claim 1,
The bobbin includes a protrusion protruding from a side of the bobbin and disposed below the coil,
At least a portion of the rib of the bobbin is formed on the lower surface of the protrusion of the bobbin. The method of claim 16,
The protrusion of the bobbin lens driving device is formed in an octagonal shape when viewed from below the bobbin. The method of claim 1,
The rib is a lens driving device spaced apart from the support of the lower elastic member. The method of claim 1,
The rib is in contact with the base to limit the lowering of the bobbin. The method of claim 1,
And a distance in the vertical direction between the bottom surface of the rib and the base is shorter than a distance in the vertical direction between the bottom surface and the base of the bobbin. The method of claim 10,
The lower elastic member includes a first lower elastic member and a second lower elastic member,
And the first rib and the second rib are disposed adjacent to the first lower elastic member, and the third rib and the fourth rib are disposed adjacent to the second lower elastic member. The method of claim 14,
And the first side surface of the base and the second side surface of the base are disposed perpendicular to each other. The method of claim 10,
And the first rib and the third rib are disposed in parallel with the first diagonal line of the base, and the second rib and the fourth rib are disposed in parallel with the second diagonal line of the base. The method of claim 1,
The base includes a protrusion protruding from the upper surface,
The rib of the bobbin is disposed in the protrusion of the base. The lens driving device of claim 1; And
A filter disposed on the base,
The rib of the bobbin is in contact with the base to limit the lowering of the bobbin. The method of claim 25,
The ribs of the bobbin include first to fourth ribs spaced apart from each other,
And the first to fourth ribs are disposed at positions corresponding to four corner regions of the filter, respectively. Base;
A bobbin disposed on the base;
A coil disposed on the bobbin;
A magnet facing the coil; And
An elastic member for connecting the bobbin and the base,
The elastic member includes a support portion coupled to the bottom surface of the bobbin and a first region disposed on the base,
The bobbin includes ribs protruding from the bottom surface of the bobbin and disposed at positions corresponding to corner regions of the base,
The ribs of the bobbin include first to fourth ribs spaced apart from each other,
The first rib is disposed symmetrically with the third rib with respect to the optical axis,
The second rib is disposed symmetrically with the fourth rib with respect to the optical axis,
The elastic member includes a first elastic member and a second elastic member,
The first rib and the second rib is disposed adjacent to the first elastic member,
The third rib and the fourth rib is disposed adjacent to the second elastic member,
The rib of the bobbin is in contact with the upper surface of the base in the initial state when no current is applied to the coil,
The rib of the bobbin is disposed between the support of the elastic member and the first region of the elastic member,
At least a portion of the rib of the bobbin overlaps the coil and the base in a vertical direction and horizontally overlaps the elastic member in a horizontal direction. The method of claim 27,
The base includes a first side and a second side disposed opposite to each other, and the third side and a fourth side connected to the first side and the second side and disposed opposite to each other,
The upper surface of the base includes a second region in contact with the first rib,
And the second area of the base is disposed closer to the first side than the second side and closer to the third side than the fourth side. The method of claim 28,
The base includes a hole penetrating the base in the vertical direction,
And the second region of the base is spaced apart from the hole of the base.

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