KR101951777B1 - Voice coil motor - Google Patents

Abstract

Wherein the voice coil motor comprises: a mover including a bobbin having a hollow to which a lens is mounted and a coil block disposed on an outer circumferential surface of the bobbin; An elastic member elastically coupled to the bobbin; And a stator including a top plate for exposing the hollow, a housing including a side plate extending from an edge of the top plate and surrounding the mover and having a storage hole, and a flat magnet fixed to the storage hole, And a separation preventing portion for preventing the flat magnet from being separated from the side plate in the direction toward the coil block.

Description

Voice coil motor {VOICE COIL MOTOR}

The present invention relates to a voice coil motor.

Recently, a camera module for storing an image or a moving picture is installed in a portable communication device, and a camera module includes an image sensor module for converting external light into an image and a lens for focusing external light to the image sensor module.

Conventional camera modules can not adjust the distance between the lens and the image sensor module, so that it is difficult to obtain a high quality image desired by the user. Recently, a voice coil motor capable of adjusting the distance between the lens and the image sensor module of the camera module has been developed.

Conventionally, a voice coil motor includes an image sensor mounted on a rear surface of a base on which an opening is formed, a bobbin disposed on the base and mounted with a lens, a coil block wound on the bobbin and a magnet facing the coil block, And the gap between the lens mounted on the bobbin and the image sensor module is adjusted by using the attraction force and the repulsive force generated by the action of the magnetic field generated from the magnet block fixed to the coil block and the yoke.

The magnet of the conventional voice coil motor is formed in a triangular prism shape and the triangular prism magnet is arranged diagonally with respect to the coil block. When a magnet formed in a triangular prism shape is used, the size of the magnet increases, the position and arrangement of the magnet can be easily changed, and the magnet needs to be disposed on the inner surface of the yoke, thereby increasing the overall size of the voice coil motor.

The present invention provides a voice coil motor in which a magnet for driving a bobbin is changed to a flat magnet shape to be coupled to a designated position of the housing and the flat magnet is prevented from being separated from the housing.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In one embodiment, the voice coil motor includes: a mover including a bobbin having a hollow to which a lens is mounted and a coil block disposed on an outer circumferential surface of the bobbin; An elastic member elastically coupled to the bobbin; And a stator including a top plate for exposing the hollow, a housing including a side plate extending from an edge of the top plate and surrounding the mover and having a storage hole, and a flat magnet fixed to the storage hole, And a separation preventing portion for preventing the flat magnet from being separated from the side plate in the direction toward the coil block.

According to the voice coil motor of the present invention, the plate-shaped flat magnet facing the coil block and generating a magnetic field is formed in the storage hole formed in the side plate of the housing, and the side plate is provided with a separation preventing portion Thereby further improving the performance of the voice coil motor.

1 is an exploded perspective view of a voice coil motor according to an embodiment of the present invention. Fig. 2 is an assembled sectional view of Fig. 1. Fig.
3 is a cross-sectional view taken along line II 'of FIG.
4 to 6 are front views of the side plate of Fig.
7 is a cross-sectional view illustrating another embodiment of the departure prevention portion of the housing according to the embodiment of the present invention.
8 is a cross-sectional view illustrating another embodiment of the departure prevention portion of the housing according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. The definitions of these terms should be interpreted based on the contents of the present specification and meanings and concepts in accordance with the technical idea of the present invention.

1 is an exploded perspective view of a voice coil motor according to an embodiment of the present invention. Fig. 2 is an assembled sectional view of Fig. 1. Fig.

Referring to FIGS. 1 and 2, the voice coil motor 800 includes a mover 200, elastic members 300 and 400, and a stator 600. In addition, the voice coil motor 800 further includes a base 100 and a cover can 700.

The mover 200 includes a bobbin 210 and a coil block 250.

The bobbin 210 is formed in a cylindrical shape having a hollow 212, and a lens (not shown) is mounted on the inner surface of the bobbin 210.

The curved surface portion 214 and the flat surface portion 216 are alternately formed on the outer peripheral surface of the bobbin 210. In an embodiment of the present invention, do.

A bond tank 215 for fixing a coil block 250 to be described later is formed on a curved surface portion 214 formed on an outer circumferential surface of the bobbin 210. The bond tank 215 is formed in a curved surface portion 214, And has a seth shape.

The bond tank 215 may be formed on the flat surface portion 216 although the bond tank 215 is illustrated in the curved surface portion 214 in the embodiment of the present invention.

A portion of the upper end of each curved surface portion 214 formed on the outer circumferential surface of the bobbin 210 is cut so that a locking protrusion 214a is formed on the curved surface portion 214 of the bobbin 210 in the form of a step, 215 communicate with the latching jaw 214a.

A support portion 218 for supporting a coil block 250 to be described later is formed at the lower end of the outer circumference of the bobbin 210. The support portion 218 protrudes in a rib shape along the lower end of the outer circumference of the bobbin 210, do. A portion of the support portion 218 may include a cutout 219 that is partially cut so that both ends of the coil block 250 to be described later can be passed.

The coil block 250 included in the mover 200 is formed in a cylindrical shape and the coil block 250 is formed by winding an electric wire coated with an insulating resin such as enamel resin into a cylindrical shape.

The coil block 250 may be wound in a cylindrical shape and inserted into the outer circumferential surface of the bobbin 210. Alternatively, the coil block 250 may be directly wound on the outer circumferential surface of the bobbin 210.

The coil block 250 disposed on the outer circumferential surface of the bobbin 210 is bonded to the bobbin 210 by an adhesive provided to the bond tank 215.

Both end portions 252 and 254 of the coil block 250 disposed on the outer circumferential surface of the bobbin 210 protrude to the lower surface of the bobbin 210 through the cutout portion 219 of the support portion 218 formed on the bobbin 210.

Both end portions 252 and 254 of the coil block 250 protruding from the lower surface of the bobbin 210 through the cutout portion 219 of the support portion 218 are connected to the first elastic member 300 of the elastic members 300 and 400, Respectively.

The elastic members 300 and 400 include a first elastic member 300 and a second elastic member 400. The first elastic member 300 is coupled to the lower surface of the bobbin 210 and the second elastic member 400 is disposed on the upper surface of the bobbin 210.

One pair of the first elastic members 300 are disposed on the lower surface of the bobbin 210 and the pair of first elastic members 300 elastically support the lower surface of the bobbin 210. The pair of first elastic members 300 disposed on the lower surface of the bobbin 210 are spaced apart from each other and are not in electrical contact with each other.

The pair of first elastic members 300 coupled to the lower surface of the bobbin 210 may be formed by etching or pressing the conductive metal plate, respectively.

The pair of first elastic members 300 are formed in mutually symmetrical shapes with respect to the center of the bobbin 210. The pair of first elastic members 300 includes an inner elastic portion 302, an outer elastic portion 304, and a connecting elastic portion 306, respectively.

Each of the inner elastic portions 302 is formed in a semicircular plate shape when seen from the plane and through holes 303 are formed in the inner elastic portion 302 to be engaged with the bosses 213 formed on the lower surface of the bobbin 210 do. The inner elastic portions 302 are fixed to the lower surface of the bobbin 210.

Each inner elastic portion 302 is electrically connected to both ends 252 and 254 of the coil block 250, respectively. For example, the inner elastic portions 302 are electrically connected to both ends 252 and 254 of the coil block 250 using solder.

The outer elastic portions 304 are disposed on the outer side of the inner elastic portion 302 and the outer elastic portions 304 are formed in the shape of a semicircular plate when viewed in plan. The outer elastic part 304 is formed with a through hole 305 to be coupled with the boss 130 formed on the upper surface 110 of the base 100 to be described later.

The connecting elastic portion 306 elastically connects the inner elastic portion 302 and the outer elastic portion 304 and the connecting elastic portions 306 may be formed in a zigzag form have.

In an embodiment of the present invention, the first elastic member 300 is formed with a terminal portion 310 to be electrically connected to an external circuit board.

The electric signal provided to the terminal portion 310 is provided to both ends 252 and 254 of the coil block 250 through the pair of first elastic members 300 so that a magnetic field is generated from the coil block 250 .

On the other hand, the second elastic member 400 can be elastically coupled to the upper surface of the bobbin 210 on the upper surface opposite to the lower surface of the bobbin 210. The second elastic member 400 is engaged with a stroke projection formed on the housing of the stator described later.

3 is a cross-sectional view taken along the line I-I 'in FIG.

Referring to FIGS. 1 and 3, the stator 600 includes a flat magnet 610 and a housing 690.

The flat magnet 610 is arranged to face the coil block 250 wound on the bobbin 210, and the flat magnet 610 is composed of a plurality of flat magnets.

In one embodiment of the present invention, the flat magnet 610 is formed in a plate shape, and the four flat magnets 610 are arranged vertically to each other.

The flat magnet 610 is formed, for example, in the shape of a rectangular plate having mutually opposing long sides 612 and mutually opposing short sides 614.

The flat magnet 610 may include a single flat magnet formed of N poles and S poles or a laminated flat magnet having at least two single magnets formed of N poles and S poles. Alternatively, the flat magnet 610 may include a quadrupole flat magnet having an N pole-S pole-N pole-S pole.

The surface of the flat magnet 610 facing the coil block 250 is defined as the front surface 601 and the surface facing the front surface 601 of the flat magnet 610 is defined by the rear surface 602 ).

The housing 690 serves to fix the flat magnet 610 to face the coil block 250. In an embodiment of the present invention, the housing 690 is formed in the shape of a rectangular parallelepiped box having a bottom opened.

The housing 690 includes a top plate 620 and a side plate 630 and the flat magnet 610 is fixed to each side plate 630 of the housing 690.

The upper plate 620 of the housing 690 is formed in a rectangular plate shape and an opening 621 for exposing a lens mounted on the bobbin 210 is formed at the center of the upper plate 620, 690 extend from the four edges of the upper plate 620 in a direction to wrap the bobbin 210 and thus the housing 690 is formed in the shape of a rectangular parallelepiped box having a bottom opened.

A stopper portion 628 protrudes from the inner side surface formed by the opening 621 formed in the upper plate 620 of the housing 690. The stopper portion 628 protrudes from the curved portion 214 of the outer peripheral surface of the bobbin 210 (Not shown). The stopper portion 628 contacts the engagement protrusion 214a of the raised bobbin 210 to limit the stroke length of the bobbin 210. [

In an embodiment of the present invention, the stopper portion 628 may be formed as a curved surface having a curvature similar to or the same as the outer peripheral surface of the bobbin 210 when viewed in plan.

A stroke projection 640 protrudes from the upper plate 620 of the housing 690. The stroke protrusions 640 are formed at diagonal edges of the upper plate 620 and the stroke protrusions 640 may be formed at each corner of the upper plate 620.

The stroke projection 640 serves to secure a stroke space of the bobbin 210 and to fix the second elastic member 400. [

The stroke protrusions 640 are formed in pairs at the respective corners of the upper plate 620 of the housing 690. The pair of stroke protrusions 640 has a shape symmetrically symmetrical with respect to the center of the stroke protrusion 640 .

In an embodiment of the present invention, the pair of stroke projections 640 may be formed in a shape similar to a semicircular column. Alternatively, the pair of stroke protrusions 640 may be formed in various shapes such as a rectangular column, a polygonal column, and the like.

Although it has been shown and described that in one embodiment of the present invention a pair of stroke projections 640 are formed at each corner of the top plate 620 of the housing 690 in mutually symmetrical shapes, The stroke protrusions 640 of the housing 690 may be formed at each corner of the top plate 620 of the housing 690 in mutually asymmetric shapes.

A bond tank portion 625 is formed in a trench shape along the periphery of the stroke projection 640 on the upper plate 620 of the housing 690. An adhesive agent is provided on the bond tank portion 625, 2 The elastic member 400 is adhered to the top plate 620 of the housing 690.

A coupling protrusion 627 is formed at a position adjacent to the stroke protrusion 640 of the upper plate 620 of the housing 690. The engaging projections 627 are formed at positions adjacent to the respective stroke projections 640.

The engaging projection 627 allows the second elastic member 400 to be coupled to the housing 690 in a designated direction and the diagonal coupling protrusions 627 formed on the top plate 620 of the housing 690 are engaged with the second elastic member 400 is formed in an asymmetrical shape with respect to the center of the upper plate 620 in order to prevent the upper plate 620 from being coupled to the housing 690 in an unspecified direction.

A housing 690 is formed at a central portion of each side plate 630 of the housing 690. The housing 690 is made of a flat magnet 610 using a receiving hole 635, As shown in FIG.

4 to 6 are front views of the side plate of Fig.

3 and 4, each side plate 630 of the housing 690 has a flat magnet 610 housed in a receiving hole 635 of each side plate 630, And a separation preventing portion 636 for preventing the separation preventing portion 636 from being detached in a direction toward the direction of the sheet.

The deviation preventing portion 636 prevents the malfunction of the mover 200 caused by the flat magnet 610 from being interfered with the coil block 250 by the deviation of the flat magnet 610 in the direction toward the coil block 250 do.

The separation preventing portion 636 extends from the inner side surface 631 of the side plate 630 into the receiving hole 635 and the separation preventing portion 636 is formed to have a small thickness so as not to interfere with the coil block 250.

The release preventing portion 636 contacts both edges of the front surface 601 of the flat magnet 610 and the release preventing portion 636 is formed on the inner side surface of the side plate 630 631 to the opposite edges of the front surface 601 of the flat magnet 610. [

When the release preventing portion 636 extends from the inner side surface 631 of the side plate 630 into the receiving hole 635 in the embodiment of the present invention, 636, the flat magnet 610 may be formed to have a thickness substantially equal to the thickness of the side plate 630. In addition, in one embodiment of the present invention, the outer surface of the side plate 630 is disposed coplanar with the rear surface 602 of the flat magnet 610.

The separation preventing portion 636 may be formed in a first direction FD parallel to the axial direction of the bobbin 210 and parallel to the short sides 614 of the flat magnet 610 as shown in FIG.

5, the separation preventing portion 636 is parallel to the upper plate 620 of the housing 690 and parallel to the long side 612 of the flat magnet 610 and perpendicular to the first direction FD It may be formed in the second direction SD.

6, the departure prevention portion 636 includes a first direction FD and a housing 690 parallel to the axial direction of the bobbin 210 and parallel to the short sides 614 of the flat magnet 610, May be formed in a second direction SD parallel to the upper plate 620 of the flat magnet 610 and parallel to the long side 612 of the flat magnet 610 and perpendicular to the first direction FD.

7 is a cross-sectional view illustrating another embodiment of the departure prevention portion of the housing according to the embodiment of the present invention.

7, the separation preventing portion 637 formed on the side plate 630 of the housing 690 protrudes from the receiving surface 635a formed by the receiving hole 635 passing through each side plate 630 The separation preventing portion 637 is formed to be thinner than the thickness of the side plate 630 and the separation preventing portion 637 supports both edges of the front surface 601 of the flat magnet 610.

7, the thickness of each flat magnet 610 is formed to be a thickness obtained by subtracting the thickness of the separation preventing portion 637 from the thickness of the side plate 630. As shown in FIG. In addition, in one embodiment of the present invention, the outer surface of the side plate 630 is disposed coplanar with the rear surface 602 of the flat magnet 610.

8 is a cross-sectional view illustrating another embodiment of the departure prevention portion of the housing according to the embodiment of the present invention.

8, the separation preventing portions 637 formed on the side plates 630 of the housing 690 protrude from the receiving surfaces 635a formed by the receiving holes 635 passing through the respective side plates 630 The thickness of the separation preventing portion 637 is formed to be thinner than the thickness of the side plate 630.

When the separation preventing portion 637 protrudes from the storage surface 635a, the thickness of the flat magnet 610 is influenced by the separation preventing portion 637. In order to prevent the thickness of the flat magnet 610 from being reduced by the separation preventing portion 637, the flat magnet 610 in contact with the separation preventing portion 637 may be provided with the separation preventing portion 637, Receiving groove 613 is formed. The flat magnet 610 is formed to have substantially the same thickness as the side plate 630 regardless of the separation preventing portion 637 by forming the receiving groove 613 in the flat magnet 610. [

In addition, in one embodiment of the present invention, the outer surface of the side plate 630 is disposed coplanar with the rear surface 602 of the flat magnet 610.

The side plates 630 of the housing 690 are formed with coupling grooves 626 which are engaged with the coupling pillars 120 formed at the respective corners of the upper surface 110 of the base 100 to be described later.

Socket grooves 638 are formed on both sides of the storage holes 635 of the pair of side plates 630 facing the side plates 630 of the housing 690. The socket grooves 638 are formed on both sides of the voice coil The motor 800 is coupled to the socket of the external circuit board.

The cover can 700 includes a cover can top plate 710 and a cover can side plate 720. In an embodiment of the present invention, the cover can 700 can be formed by cutting a magnetic field or machining a metal plate that can block harmful electromagnetic waves.

The cover can top plate 710 includes openings corresponding to the hollows of the bobbin 210 and the inner surfaces of the cover can top plate 710 are connected to the respective stroke protrusions 710 protruding from the respective corners of the top plate 620 of the housing 690 640).

The cover can side plate 720 extends from the edge of the cover can top plate 710 in a direction to cover the side plate 630 of the housing 690 and the cover can side plate 720 extends from the side plate 690 of the housing 690 630 and the rear face 602 of each flat magnet 610 coupled to the receiving hole 635 of the flat magnet 610. [

The rear surface 602 of the flat magnet 610 comes into contact with the inner surface of the cover can side surface plate 720 so that the flat magnet 610 does not flow forward or backward from the side surface plate 630 of the housing 690.

The cover can side plate 720 blocks magnetic fields leaking from the flat magnet 610 and blocks harmful electromagnetic waves. The back surface 602 of the flat magnet 610 and the cover can side plate 720 can be bonded together by a bond.

When the socket groove 638 is formed in the side plate 630 of the housing 690, the cover can side plate 720 covering the side plate 630 of the housing 690 is provided with a cut- A portion 725 is formed.

The base 100 serves to fix the bobbin 210, the first elastic member 300, the stator 600, and the cover can 700.

The base 100 is formed, for example, in the shape of a rectangular parallelepiped plate having an opening 105 at the center thereof, and an image sensor module (not shown) is mounted on the rear surface of the base 100. An IR filter disposed in front of the image sensor module may be disposed on the rear surface of the base 100. The IR filter removes the infrared rays contained in the external light.

The rear surface of the bobbin 210 coupled with the first elastic member 300 is disposed on the upper surface 110 of the base 100 opposite to the rear surface.

Four coupling pillars 120 are formed at four corners of the upper surface 110 of the base 100 so as to protrude in a direction perpendicular to the upper surface 110. The coupling pillars 120 are connected to the housing 690, As shown in FIG.

 Bosses 130 coupled to the first elastic member 300 are formed on the upper surface 110 of the base 100.

The base 100 is formed with through holes 140 through which the terminal portions 310 formed in the first elastic member 300 pass.

As described in detail above, the plate-shaped flat magnet facing the coil block and generating a magnetic field is formed in the accommodation hole formed in the side plate of the housing, and the side plate is provided with the departure prevention portion for preventing the flat magnet from separating Thereby further improving the performance of the voice coil motor.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

800 ... Voice coil motor 200 ... Mover
300,400 elastic member 600 stator
700 ... cover cans

Claims (15)

A cover including a top plate including a hole, and a side plate extending from the top plate;
A housing disposed within the cover;
A bobbin disposed in the housing;
A coil disposed in the bobbin;
A magnet disposed in the housing and facing the coil;
A base disposed below the housing and coupled with the side plates of the cover; And
And an elastic member coupled to the bobbin,
Wherein the magnet includes a first surface facing the coil and a second surface disposed on the opposite side of the first surface and fixed to the side plate of the cover by an adhesive,
The housing includes a departure prevention portion for supporting a portion of the first surface of the magnet,
The housing including a top plate disposed between the magnet and the top plate of the cover, and a side plate extending from the top plate of the housing along the side plate of the cover,
The separation preventing portion is formed on the side plate of the housing,
The thickness of the magnet corresponding to the distance between the first surface and the second surface of the magnet is thinner than the thickness of the side plate of the housing in the corresponding direction. The method according to claim 1,
Wherein the magnets include a laminated magnet in which two single magnets formed of N poles and S poles are stacked. The method according to claim 1,
Wherein the elastic member includes a first elastic member coupled to a lower surface of the bobbin and an upper surface of the base,
And the coil is electrically connected to the first elastic member. The method of claim 3,
Wherein the first elastic member includes an inner elastic portion coupled with a lower surface of the bobbin, an outer elastic portion coupled with the base, and a connection elastic portion connecting the inner elastic portion and the outer elastic portion,
The base includes a boss projecting from an upper surface of the base,
And the outer elastic portion includes a hole coupled with the boss. 5. The method of claim 4,
Wherein the first elastic member further comprises a terminal portion extending from the outer elastic portion,
And the base includes a hole through which the terminal portion passes. The method according to claim 1,
Wherein the side plate of the cover is provided with a cutout portion that exposes a part of the side plate of the housing. The method according to claim 1,
The side plate of the cover includes a first side plate and a second side plate disposed opposite the first side plate,
The magnet includes a first magnet disposed between the coil and the first side plate, and a second magnet disposed between the coil and the second side plate. delete delete The method according to claim 1,
Wherein the side plates of the housing comprise a plurality of side plates,
Wherein the magnet includes a plurality of magnets,
Wherein each of the plurality of magnets is disposed between two adjacent side plates of the plurality of side plates of the housing. The method according to claim 1,
Wherein the elastic member includes a second elastic member coupled to an upper surface of the bobbin and the upper plate of the housing. The method according to claim 1,
Wherein the magnet is a flat magnet having a flat plate shape. The method according to claim 1,
Wherein the cover is a cover cannula shielding a magnetic field or an electromagnetic wave. A cover including a top plate including a hole, and a side plate extending from the top plate;
A housing disposed within the cover;
A bobbin disposed in the housing;
A lens coupled to the bobbin;
A coil disposed in the bobbin;
A magnet disposed in the housing and facing the coil;
A base disposed below the housing and coupled with the side plates of the cover;
An image sensor disposed under the base at a position corresponding to the lens; And
And an elastic member coupled to the bobbin,
Wherein the magnet includes a first surface facing the coil and a second surface disposed on the opposite side of the first surface and fixed to the side plate of the cover by an adhesive,
The housing includes a departure prevention portion for supporting a portion of the first surface of the magnet,
The housing including a top plate disposed between the magnet and the top plate of the cover, and a side plate extending from the top plate of the housing along the side plate of the cover,
The separation preventing portion is formed on the side plate of the housing,
Wherein a thickness of the magnet corresponding to a distance between the first surface and the second surface of the magnet is thinner than a thickness of the side plate of the housing in a corresponding direction. A portable communication device comprising a camera module according to claim 14.

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