KR20220069911A - Lens driving apparatus - Google Patents

Abstract

A lens driving apparatus includes: a mover including a bobbin on which a lens and a first driving part are mounted; a stator disposed around the mover and formed with a second driving part facing the first driving part; an elastic member including an inner elastic part attached to an end of the bobbin and an outer elastic part connected to the inner elastic part and coupled to the stator; and a base unit coupled to the stator. A through hole including a first through hole formed to face the end of the bobbin and a second through hole extended from the first through hole is formed in the inner elastic part.

Description

LENS DRIVING APPARATUS

The present invention relates to a lens driving device.

Recently, a camera module for storing digital images or moving pictures is installed in portable communication devices, game consoles, tablet PCs, and the like. The camera module includes an image sensor that converts external light into an image and a lens that focuses external light on the image sensor.

In the conventional camera module, it is difficult to obtain a high-quality image desired by the user because the distance between the lens and the image sensor cannot be adjusted. Image acquisition is now possible.

A conventional lens driving device includes a base to which an image sensor is fixed, a stator fixed on the base, a mover driven by the action of the stator and a lens mounted thereon, and an elastic member coupled to upper and lower surfaces of the mover.

When the movable member and the elastic member are coupled to each other by an adhesive, the elastic member and the movable member may be separated by the driving of the movable member, thereby causing a malfunction of the movable member.

Korean Patent Publication No. 10-2013-0003821 (published on January 9, 2013)

In the embodiment, separation of the movable member and the elastic member attached to the movable member is prevented, thereby preventing a malfunction of the movable member.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be.

In an embodiment, the lens driving device includes a mover including a lens and a bobbin to which the first driving unit is mounted; a stator disposed around the movable member and having a second driving unit facing the first driving unit; an elastic member including an inner elastic part attached to an end of the bobbin and an outer elastic part connected to the inner elastic part and coupled to the stator; and a base unit coupled to the stator, wherein the inner elastic part has a through hole including a first through hole exposing a portion of an end of the bobbin and a second through hole extending from the first through hole. do.

According to the embodiment, when the bobbin of the mover and the elastic member coupled to the bobbin are mutually coupled using an adhesive, the bonding area between the bobbin and the elastic member by the adhesive is further increased to further improve the bonding force between the bobbin and the elastic member, and the bobbin to prevent separation of the bobbin and the elastic member due to the driving of

1 is a perspective view of a lens driving device according to an embodiment.
FIG. 2 is a cross-sectional view taken along line II′ of FIG. 1 .
3A is an enlarged view of part 'A' of FIG. 1 .
Figure 3b is an enlarged view showing that the adhesive is applied to Figure 3a.
4A is an enlarged view of part 'B' of FIG. 1 .
Figure 4b is an enlarged view showing that the adhesive is applied to Figure 4a.
5A is an enlarged view of part 'C' of FIG. 1 .
Figure 5b is an enlarged view showing that the adhesive is applied to Figure 5a.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be interpreted as meanings and concepts consistent with the technical idea of the present invention based on the contents throughout this specification.

1 is a perspective view of a lens driving device according to an embodiment. FIG. 2 is a cross-sectional view taken along line I-I' of FIG. 1 .

1 and 2 , the lens driving device 600 includes a mover 100 , a stator 200 , an elastic member 300 , and a base unit 400 . In addition to this, the lens driving device 600 may further include a cover 500 .

The mover 100 is moved in a direction away from the base unit 400 with respect to the upper surface of the base unit 400 to be described later or in a direction closer to the base unit 400 with respect to the upper surface of the base unit 400, As the lens installed on the mover 100 moves according to the movement of the mover 100 , the distance between the image sensor (not shown) disposed on the rear surface of the base unit 400 and the lens is changed.

The mover 100 includes a bobbin 110 , a lens (not shown), and a first driving unit 120 .

The bobbin 110, for example, has a shape in which the upper and lower surfaces are opened. A lens is disposed on the inner surface of the bobbin 110 , and the first driving unit 120 is disposed on the outer surface of the bobbin 110 .

In order to mount the lens on the inner surface of the bobbin 110 , a female screw part may be formed on the inner surface of the bobbin 110 , and a male screw part coupled to the female screw part of the bobbin 110 may be formed on the outer surface of the lens. Alternatively, the lens may be coupled to the bobbin 110 using a lens barrel.

A portion of the bobbin 110 facing the upper surface of the base unit 400 to be described later is defined as a lower surface, and a portion facing the lower surface of the bobbin 110 is defined as the upper surface of the bobbin 110 .

A receiving groove 112 is formed in the upper surface of the bobbin 110 to receive an adhesive for attaching the elastic member 300 and the upper surface of the bobbin 110 to each other, which will be described later. A plurality of receiving grooves 112 are formed on the upper surface of the bobbin 110 .

The first driving unit 120 is disposed on the outer surface of the bobbin 110 . The first driving unit 120 acts with a second driving unit coupled to the stator 200 to be described later to generate a lifting force and/or the mover 100 to raise the mover 100 with respect to the upper surface of the base unit 400 . A descending force for descending with respect to the upper surface of the base unit 400 is generated.

The first driving unit 120 may include, for example, a coil block disposed on the outer surface of the bobbin 110 , and the first driving unit 120 generates electromagnetic force as a driving signal is applied, and the driving signal The direction of the electromagnetic force also changes according to the direction of

The first driving unit 120 is formed by winding a long electric wire insulated by an insulating resin on the outer surface of the bobbin 110 or winding a long electric wire insulated by an insulating resin into a cylindrical shape, and then the outer surface of the bobbin 110 can be placed on Alternatively, the first driving unit 120 may include a magnet generating a magnetic field.

The stator 200 is coupled to the base unit 400 and fixed to the base unit 400 , and the stator 200 is disposed around the mover 100 .

The stator 200 includes a housing 210 and a second driving unit 220 .

The mover 100 is disposed inside the housing 210 , and the housing 210 surrounds the first driving unit 120 of the mover 100 and has a space coupled to the second driving unit 220 .

The second driving unit 220 is coupled to the housing 210 , and the second driving unit 220 is disposed to face the first driving unit 120 .

The second driving unit 220 works with the first driving unit 120 of the mover 100 to raise or lower the mover 100 with respect to the base unit 400 .

When the first driving unit 120 of the mover 100 includes a coil block that generates electromagnetic force by a driving signal, the second driving unit 220 of the stator 200 acts with the electromagnetic force of the first driving unit 120 . It may include a magnet for generating a magnetic field. Alternatively, when the first driving unit 120 of the mover 100 includes a magnet, the second driving unit 220 may include a coil block.

The elastic member 300 is coupled to the mover 100 and the stator 200 to elastically support the mover 100 .

In the embodiment, the elastic member 300 includes a lower elastic member 310 coupled to the lower surface of the mover 100 and the stator 200 , and an upper elastic member coupled to the upper surface and the stator 200 of the movable member 100 . (320).

The lower elastic member 310 consists of two, and the lower elastic members 310 transmit a driving signal provided from the outside to the first driving unit 120 and elastically support the lower surface of the bobbin 110 of the mover 100 . plays a role The lower elastic member 310 is, for example, thermally fused to the protrusion formed on the lower surface of the bobbin 110 of the mover 100 .

The upper elastic member 320 is coupled to the upper surface of the bobbin 110 of the mover 100 and the stator 200, and the upper surface of the upper elastic member 320 and the bobbin 110 of the mover 100 is attached to the adhesive. are bonded to each other by

The upper elastic member 320 includes an inner elastic part 322 , an outer elastic part 326 , and a connection elastic part (not shown).

The inner elastic part 322 is disposed at a position facing the upper surface of the bobbin 110 of the mover 100 , and the inner elastic part 322 is adhered to the upper surface of the bobbin 110 of the mover 100 .

The outer elastic part 326 is disposed outside the inner elastic part 322 , and the outer elastic part 326 is coupled to the stator.

The connection elastic part interconnects the inner elastic part 322 and the outer elastic part 326, and the connection elastic part may be formed in a zigzag shape when viewed in a plan view.

3A is an enlarged view of part 'A' of FIG. 1 . Figure 3b is an enlarged view showing that the adhesive is applied to Figure 3a.

1, 3A and 3B, the inner elastic part of the upper elastic member 320 in order to improve the adhesive force between the upper elastic member 320 and the upper surface of the bobbin 110 of the mover 100 by the adhesive. A through hole 325 including a first through hole 323 and a second through hole 324 is formed in the 322 . Here, the first through hole 323 may be a first area, and the second through hole 324 may be a second area.

The first through-hole 323 is formed at a position corresponding to the receiving groove 112 formed on the upper surface of the bobbin 110 of the mover 100 , and the first through-hole 323 is a portion of the bobbin 110 . expose An opening area of the first through-hole 323 exposing a portion of the bobbin 110 is formed to have an opening area larger than an opening area of the receiving groove 112 .

Although it is shown in FIG. 3A that the opening area of the first through hole 323 is larger than the opening area of the receiving groove 112 , the opening area of the first through hole 323 is different from that of the receiving groove 112 . It may be formed less than the opening area of .

A protrusion 323a protruding toward the center of the receiving groove 112 is formed from the inner surface of the first through hole 323 . A plurality of protrusions 323a may protrude from the first through-hole 323 , and the protrusions 323a serve to improve adhesion between the adhesive and the inner elastic part 322 of the upper elastic member 320 .

The second through-hole 324 extends (or extends) along the upper surface of the bobbin 110 of the mover 100 from the inner surface of the first through-hole 323 .

The flowable adhesive 1 provided through the first through-hole 323 spreads from the first through-hole 323 to the second through-hole 324 by a capillary shape as shown in FIG. 3B, so that the adhesive 1 and the upper By increasing the bonding area between the inner elastic parts 322 of the elastic member 320 , the adhesive force may be further improved.

The second through-hole 324 may be formed in various shapes and sizes, and the second through-hole 324 may be formed in a slit shape from the first through-hole 323 as shown in FIG. 3A, The second through-hole 324 may be formed to have a constant width.

Although it is illustrated in FIG. 3A that one second through-hole 324 having a constant width is formed from the first through-hole 323 , differently from this, the second through-hole 324 is the first through-hole 323 . At least two may be extended (or extended) from

Although FIG. 3A shows and describes that the second through-hole 324 having a constant width is formed in a straight line from the first through-hole 323, differently from this, the second through-hole 324 may be viewed in a plan view. In this case, it may be formed in a refractive shape, a curved shape, or the like.

4A is an enlarged view of part 'B' of FIG. 1 . Figure 4b is an enlarged view showing that the adhesive is applied to Figure 4a.

1, 4A and 4B, the inner elastic part of the upper elastic member 320 in order to improve the adhesive force between the upper elastic member 320 and the upper surface of the bobbin 110 of the mover 100 by the adhesive. A through hole 325 including a first through hole 323 and a second through hole 324a is formed in the 322 .

The first through hole 323 is formed at a position corresponding to the receiving groove 112 formed on the upper surface of the bobbin 110 of the mover 100 , and the opening area of the first through hole 323 is the receiving groove 112 . ) is formed with an opening area larger than the opening area of . Although it is illustrated in FIG. 4A that the opening area of the first through hole 323 is larger than the opening area of the receiving groove 112 , the opening area of the first through hole 323 is different from that of the receiving groove 112 . It may be formed less than the opening area of .

A protrusion 323a protruding toward the center of the receiving groove 112 is formed from the inner surface of the first through hole 323 . A plurality of protrusions 323a may protrude from the first through-hole 323 , and the protrusions 323a serve to improve adhesion between the adhesive and the inner elastic part 322 of the upper elastic member 320 .

The second through hole 324a extends (or extends) along the upper surface of the bobbin 110 of the mover 100 from the inner surface of the first through hole 323 .

The flowable adhesive 1 provided through the first through-hole 323 spreads from the first through-hole 323 to the second through-hole 324a by a capillary shape as shown in FIG. 4B, so that the adhesive and the upper elastic member ( By increasing the bonding area between the inner elastic parts 322 of the 320 , the adhesive force may be further improved.

The second through-hole 324a shown in FIG. 4A may be formed in various shapes and sizes, and the second through-hole 324a may be formed in a slit shape from the first through-hole 323, and The holes 324a may be formed to have different widths.

For example, the second through-hole 324a extending from the first through-hole 323 has a shape in which the opening area is continuously or intermittently decreased as it moves away from the first through-hole 323 in a plan view. can be formed. On the other hand, the second through-hole 324a extending from the first through-hole 323 has a shape in which the opening area is continuously or intermittently increased as the distance from the first through-hole 323 increases in a plan view. can be

Although it is shown in FIG. 4A that one second through-hole 324a is formed from the first through-hole 323, unlike this, at least two second through-holes 324a are formed from the first through-hole 323. It may be extended (or extended).

5A is an enlarged view of part 'C' of FIG. 1 . Figure 5b is an enlarged view showing that the adhesive is applied to Figure 5a.

1, 5A and 5B, the inner elastic part of the upper elastic member 320 in order to improve the adhesive force between the upper elastic member 320 and the upper surface of the bobbin 110 of the mover 100 by the adhesive. A through hole 325 including a first through hole 323 and a second through hole 324b and a third through hole 324c is formed in the 322 .

The first through hole 323 is formed at a position corresponding to the receiving groove 112 formed on the upper surface of the bobbin 110 of the mover 100 , and the opening area of the first through hole 323 is the receiving groove 112 . ) is formed with an opening area larger than the opening area of . Although it is shown in FIG. 5A that the opening area of the first through hole 323 is larger than the opening area of the receiving groove 112 , the opening area of the first through hole 323 is different from that of the receiving groove 112 . It may be formed less than the opening area of .

A protrusion 323a protruding toward the center of the receiving groove 112 is formed from the inner surface of the first through hole 323 . A plurality of protrusions 323a may protrude from the first through-hole 323 , and the protrusions 323a serve to improve adhesion between the adhesive and the inner elastic part 322 of the upper elastic member 320 .

The second through-hole 324b extends (or extends) along the upper surface of the bobbin 110 of the mover 100 from the inner surface of the first through-hole 323 .

The flowable adhesive 1 provided as the first through-hole 323 spreads from the first through-hole 323 to the second through-hole 324b by a capillary shape as shown in FIG. 5B, so that the adhesive and the upper elastic member ( By increasing the bonding area between the inner elastic parts 322 of the 320 , the adhesive force may be further improved.

The second through-hole 324b shown in FIG. 5A may be formed in various shapes and sizes, and the second through-hole 324b is formed in a slit shape from the first through-hole 323 and may be formed to have the same width. have.

The third through-hole 324c may extend (or extend) from the second through-hole 324b, and the third through-hole 324c may have a different shape and a different size from that of the second through-hole 324b. For example, the second through hole 324b may be formed in a line shape, and the third through hole 324c may be formed in a circular shape.

Although FIG. 5A shows that the second through-hole 324b having a line shape and the third through-hole 324c having a circular shape connected to the second through-hole 324b are formed from the first through-hole 323, However, different from this, the second through-holes 324b and the third through-holes 324c may be formed in various numbers and in various shapes.

Referring back to FIG. 1 , the base unit 400 is coupled to the stator 200 and serves to support the stator 200 .

The base unit 400 is formed in a plate shape, and an opening corresponding to a lens coupled to the bobbin 110 of the mover 100 is formed in the base unit 400 , and an image sensor is formed on the rear surface of the base unit 400 . can be placed.

The bobbin 110 of the mover 100 is disposed on the upper surface of the base unit 400 . A driving signal is applied to the lower surface of the bobbin 110 of the mover 100 and the upper surface of the base unit 400 to the first driving unit 120 of the mover 100 and the second driving unit 220 of the stator 200 . When not, they are spaced apart from each other by a predetermined distance.

As described above, when a driving signal is not applied to the first driving unit 120 of the mover 100 and the second driving unit 220 of the stator 200 , the bobbin 110 and the base unit 400 of the mover 100 . When the upper surfaces of the movers 100 are spaced apart from each other by a predetermined distance, the bobbin 110 of the mover 100 moves away from the base unit 400 with respect to the upper surface of the base unit 400 or in a direction closer to the upper surface of the base unit 400 . bidirectional driving is possible, so that the power consumption required to drive the mover 100 can be further reduced, and the driving time required for driving can be further shortened.

As described in detail above, when the bobbin of the movable member and the elastic member coupled to the bobbin are mutually coupled using the adhesive, the bonding area between the bobbin and the elastic member by the adhesive is further increased to further improve the bonding force between the bobbin and the elastic member. and prevents separation of the bobbin and the elastic member by driving the bobbin.

Although various embodiments 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. Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

100...Movers 200...Stators
300...Elastic member 400...Base unit
500...Cover 600...Lens drive unit

Claims (13)

a cover including an upper plate including an opening and a side plate extending from the upper plate;
a bobbin disposed within the cover;
a coil disposed on the bobbin;
a magnet disposed between the side plate of the cover and the coil and facing the coil;
a base coupled to the side plate of the cover; and
It includes an elastic member coupled to the bobbin,
The elastic member includes an inner elastic part coupled to one surface of the bobbin, an outer elastic part disposed outside the inner elastic part, and a connection elastic part connecting the inner elastic part and the outer elastic part,
The bobbin includes a groove formed on the one surface of the bobbin,
The inner elastic part includes a through hole,
The through hole of the inner elastic part includes a first area formed at a position corresponding to the groove of the bobbin, and a second area extending in one direction from the first area,
The first region of the through hole is formed in a circular shape having a first diameter, and the second region is formed in a line shape,
An adhesive is disposed between the groove of the bobbin and the first and second regions of the through hole. According to claim 1,
The groove of the bobbin is formed in a circular shape having a second diameter smaller than the first diameter. According to claim 1,
The second region of the through hole extends in one direction with a second width smaller than the first diameter. According to claim 1,
The adhesive is the portion of the inner elastic part around the second area of the through hole as the flowable adhesive provided to the first area of the through hole spreads from the first area of the through hole to the second area of the through hole. A lens drive device placed up to . According to claim 1,
A lens driving device in which a portion of the one surface of the bobbin is exposed through the second region of the through hole of the inner elastic part. According to claim 1,
The first area of the through hole and the second area of the through hole are formed in different shapes from each other. According to claim 1,
The adhesive is a lens driving device for fixing the inner elastic part to the one surface of the bobbin. According to claim 1,
The second region of the through hole is a lens driving device to increase the adhesive force between the inner elastic portion and the one surface of the bobbin. image sensor;
The lens driving device of claim 1; and
A camera module including a lens coupled to the bobbin of the lens driving device. A smartphone comprising the camera module of claim 9. a cover including an upper plate including an opening and a side plate extending from the upper plate;
a bobbin disposed within the cover;
a coil disposed on the bobbin;
a magnet disposed between the side plate of the cover and the coil and facing the coil;
a base coupled to the side plate of the cover; and
It includes an elastic member coupled to the bobbin,
The elastic member includes an inner elastic part coupled to one surface of the bobbin, an outer elastic part disposed outside the inner elastic part, and a connection elastic part connecting the inner elastic part and the outer elastic part,
The bobbin includes a groove formed on the one surface of the bobbin,
The inner elastic part includes a plurality of through-holes,
The through hole of the inner elastic part includes a first area formed at a position corresponding to the groove of the bobbin, and a second area extending from the first area,
The first region of the through hole is formed in a circular shape having a first diameter, and the second region is formed in a line shape,
The second regions of the plurality of through-holes extend to face different directions, respectively. 12. The method of claim 11,
and an adhesive disposed in at least a portion of the groove and the through hole of the bobbin. a cover including an upper plate including an opening and a side plate extending from the upper plate;
a bobbin disposed within the cover;
a coil disposed on the bobbin;
a magnet disposed between the side plate of the cover and the coil and facing the coil;
a base coupled to the side plate of the cover; and
It includes an elastic member coupled to the bobbin,
The elastic member includes an inner elastic part coupled to one surface of the bobbin, an outer elastic part disposed outside the inner elastic part, and a connecting elastic part connecting the inner elastic part and the outer elastic part.

Images