KR101934729B1 - Voice coil motor - Google Patents

Abstract

A voice coil motor includes: a mover including a coil block including a bobbin having a cylindrical shape with both ends opened and a lens accommodated therein and having a pair of bosses disposed on a lower surface thereof facing each other and a coil wound around an outer circumferential surface of the bobbin; A stator including a magnet facing the coil block and a yoke for fixing the magnet; And a fused portion that includes a pair of elastic members coupled to each other along the lower surface of the bobbin and mutually insulated from each other and presses opposite ends of the elastic members protruding from the lower surface of the bobbin corresponding to the elastic members .

Description

Voice coil motor {VOICE COIL MOTOR}

The present invention relates to a voice coil motor.

In recent years, electronic products such as mobile phones with an ultra-compact digital camera that converts external light into images are being developed.

Conventionally, a micro digital camera incorporated in a mobile phone or the like includes an image sensor module that converts light passing through a lens and a lens into an image. In the case of a conventional micro digital camera, it is difficult to control the interval between the lens and the image sensor module, Images were difficult to implement.

In recent years, it has become possible to adjust the distance between the lens and the image sensor module by using a driving device such as a voice coil motor.

In a conventional voice coil motor, a coil is formed by winding a coil on an outer circumferential surface of a bobbin having a lens, a magnet is disposed at a position facing the coil block, a driving signal is applied to the coil block to generate a magnetic field, And the bobbin is lifted and lowered relative to the magnet.

In the conventional voice coil motor, plate springs are disposed at the lower and upper ends of the bobbin in order to flexibly support the bobbin, and a pair of leaf springs disposed at the lower end of the bobbin are electrically coupled to both ends of the coil constituting the coil block . Therefore, the driving signal applied to the leaf springs disposed at the lower end of the bobbin is transmitted to the coil block, and a magnetic field is generated from the coil block.

In the voice coil motor according to the related art, the coils of the coil block and the leaf springs disposed at the lower ends of the bobbin are respectively soldered by the solder, and the coil is disconnection from the leaf spring due to strong impact or vibration applied to the voice coil motor .

The present invention provides a voice coil motor having improved cohesion between a coil constituting a coil block disposed on an outer circumferential surface of a bobbin and an elastic member electrically connected to the coil.

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 coil block including a bobbin in which a lens is accommodated and both ends thereof are opened, a bobbin in which a pair of bosses facing the lower surface are disposed, and a coil block that is wound on an outer circumferential surface of the bobbin, character; A stator including a magnet facing the coil block and a yoke for fixing the magnet; And a fused portion that includes a pair of elastic members coupled to each other along the lower surface of the bobbin and mutually insulated from each other and presses opposite ends of the elastic members protruding from the lower surface of the bobbin corresponding to the elastic members .

In one embodiment, the voice coil motor includes a coil block including a bobbin in which a lens is accommodated and both ends thereof are opened, a bobbin in which a pair of bosses facing the lower surface are disposed, and a coil block that is wound on an outer circumferential surface of the bobbin, character; A stator including a magnet facing the coil block and a yoke for fixing the magnet; A base supporting the stator and contacting the bosses of the mover; And a pair of elastic members which are coupled along the lower surface of the bobbin and are insulated from each other, wherein the coil blocks, which are soldered to the opposite ends of the elastic members disposed on the lower surface of the bobbin by the up- The opposite end portions of the elastic members are thermally fused to the lower surface of the bobbin.

The voice coil motor according to the present embodiment includes a bobbin; A coil disposed on an outer circumferential surface of the bobbin; A magnet facing the coil; And an elastic member coupled to the bobbin, wherein the bobbin includes: a first boss protruding from one surface of the bobbin; and a second boss protruding from one surface of the bobbin and spaced apart from the first boss, The elastic member includes a through hole formed at a position corresponding to the first boss and engaged with the first boss, and a cutout portion (see Figs. 2 and 3) extending from the through hole with a width smaller than the diameter of the through- Wherein the first boss is coupled to the elastic member by fusion bonding, and the height of the first boss welded on one surface of the bobbin is lower than the height of the second boss.

The voice coil motor further includes a yoke disposed outside the bobbin, and the magnet may be disposed on the yoke.

The voice coil motor may further include a base disposed below the bobbin.

The first boss and the second boss may be formed on a lower surface of the bobbin, and the second boss may contact the base by movement of the bobbin.

The elastic member includes a first elastic member coupled to a lower surface of the bobbin and a second elastic member coupled to an upper surface of the bobbin. The through hole and the cut portion may be formed in the first elastic member.

The bobbin further includes a fused portion protruding from a lower surface of the bobbin and spaced apart from the first and second bosses. The fused portion is fused to a pair of the first and second bosses It is possible to fix the opposite ends of the first elastic members.

An engaging groove may be formed at an opposite end of the pair of first elastic members so as to surround at least a part of a side surface of the fused portion.

The fused portion may be formed in a rectangular parallelepipedic shape, and the engaging groove may be formed such that a facing end of the pair of first elastic members is in contact with three sides of the fused portion.

One end of the coil and the other end of the coil on the opposite side of the one end may be coupled to the opposite ends of the pair of first elastic members by solder.

When measured from the lower surface of the bobbin, the height of the fused portion may be lower than the height of the second boss.

The camera according to the present embodiment includes a bobbin; A lens coupled to the bobbin; A coil disposed on an outer circumferential surface of the bobbin; A magnet facing the coil; And an elastic member coupled to the bobbin, wherein the bobbin includes: a first boss protruding from one surface of the bobbin; and a second boss protruding from one surface of the bobbin and spaced apart from the first boss, Wherein the elastic member includes a through hole formed at a position corresponding to the first boss and engaged with the first boss, and a cutout extending from the through hole with a width smaller than the diameter of the through hole, The height of the first boss welded to the first surface of the bobbin may be lower than the height of the second boss.

The mobile phone according to the present embodiment includes a bobbin; A lens coupled to the bobbin; A coil disposed on an outer circumferential surface of the bobbin; A magnet facing the coil; And an elastic member coupled to the bobbin, wherein the bobbin includes: a first boss protruding from one surface of the bobbin; and a second boss protruding from one surface of the bobbin and spaced apart from the first boss, Wherein the elastic member includes a through hole formed at a position corresponding to the first boss and engaged with the first boss, and a cutout extending from the through hole with a width smaller than the diameter of the through hole, The height of the first boss welded to the first surface of the bobbin may be lower than the height of the second boss.

According to the voice coil motor of the present invention, the end of the leaf spring for resiliently supporting the bobbin is firmly coupled to the bobbin, so that even when a strong shock or vibration is applied to the voice coil motor, the coil spring of the coil block is disconnected from the leaf spring .

1 is an exploded perspective view of a voice coil motor according to an embodiment of the present invention.
2 is a plan view showing the first elastic member of the elastic member shown in Fig.
3 is a rear perspective view showing the first elastic member of the bobbin and the elastic member shown in Fig.
4 is an enlarged view of a portion 'A' in FIG.

Hereinafter, in order to distinguish between the "engaging boss 134" and the "boss 132", either one may be referred to as a "first boss" and the other as a "second boss".

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. 2 is a plan view showing the first elastic member of the elastic member shown in Fig. 3 is a rear perspective view showing the first elastic member of the bobbin and the elastic member shown in Fig. 4 is an enlarged view of a portion 'A' in FIG.

Referring to FIG. 1, a voice coil motor 800 includes a mover 100, an elastic member 200, and a stator 300. In addition, the voice coil motor 800 may further include a spacer 700.

Referring to FIGS. 1 and 2, the mover 100 includes a bobbin 150 and a coil block 190.

The bobbin 150 may be formed, for example, in the shape of a cylinder having both open ends. The bobbin 150 having a cylindrical shape with open ends at both ends serves to receive and fix the lens. In one embodiment of the present invention, the bobbin 150 is formed, for example, in a cylindrical shape with open ends at both ends.

A female screw portion 112 for fixing the lens is formed on the inner surface of the bobbin 150, and the lens is fixed using the female screw portion 112. The lens may be fixed to the female threaded portion 112 of the bobbin 150 using a lens fixing member or may be fixed to the female threaded portion 112 of the bobbin 150 directly.

A step 115 is formed at the lower end of the outer circumference of the bobbin 150, and the step 115 serves to support the coil block 190, which will be described later.

Referring to FIG. 3, bosses 132 arranged symmetrically with respect to the center of the bobbin 150 are formed on a lower surface 130 of the bobbin 150. The bosses 132 formed on the lower surface 130 of the bobbin 150 serve to seat the bobbin 150 on the lower case (or base) 420 of the case 400 described later.

The bosses 132 formed on the lower surface 130 of the bobbin 150 may be formed in, for example, a rectangular parallelepiped shape. Alternatively, the bosses 132 formed on the lower surface 130 of the bobbin 150 may have various shapes other than a rectangular parallelepiped shape.

The bosses 132 formed on the lower surface 130 of the bobbin 150 may have coupling bosses 134 formed on both sides thereof. The engaging bosses 134 are engaged with the first elastic member 210 of the elastic member 200 to be described later and serve to bring the elastic member 200 into close contact with the lower surface 130 of the bobbin 150. [ The end of the coupling boss 134 is melted by heat and pressure, and the first elastic member 210 is brought into close contact with the lower surface 130 of the bobbin 150. The joining boss 134 may have a height corresponding to the boss 132 before being melted (fused) by heat and pressure as shown in Fig. 3 and may be formed at a lower height than the boss 132 after fusion . Here, the height of the coupling boss 134 and the height of the boss 132 are based on the lower surface 130 of the bobbin 150.

A fused portion 136 is separately formed on the lower surface 130 of the bobbin 150 together with the coupling boss 134.

In one embodiment of the present invention, the fused portion 136 may be formed, for example, in the shape of a rectangular parallelepiped. Alternatively, the fused portion 136 may be formed in various shapes such as a cylinder, a square column, and a polygonal column in addition to a rectangular parallelepiped.

The fused portion 136 formed on the lower surface 130 of the bobbin 150 is formed at a central portion of the pair of adjacent bosses 132. The fused portion 136 is disposed at a position corresponding to the opposite end of the pair of first elastic members 200 to be described later.

The fused portion 136 functions to bring the end portions of the first elastic members 210 of the elastic member 200 to be described later into close contact with the lower surface 130 of the bobbin 150. [

The height of the fused portion 136 is formed to be lower than the height of the boss 132 when measured from the lower surface 130 of the bobbin 150. In this embodiment,

When the height of the fused portion 136 is higher than the height of the boss 132, when the bobbin 150 is seated in the case 400, the fused portion 136 may contact the lower case 420 before the boss 132, So that the bobbin 150 can be tilted.

The coil block 190 is wound around the outer circumferential surface of the bobbin 150 and the coil block 190 is fixed to the step 115 formed at the lower end of the outer circumferential surface of the bobbin 150. The coil block 190 may be adhered to the outer peripheral surface of the bobbin 150 by, for example, an adhesive. Alternatively, the coil block 190 wound in a cylindrical shape may be inserted into the outer peripheral surface of the bobbin 150, and the coil block 190 may be coupled to the bobbin 150 by an adhesive.

A magnetic field is generated from the coil block 190 and a magnetic field generated from the coil block 190 and a magnetic field generated from the stator 300 to be described later are applied to the coil block 190 disposed on the outer circumferential surface of the bobbin 150. [ The bobbin 150 is driven by the magnetic field generated from the magnet 350 of the magnetic disk.

Referring to FIGS. 1 and 2, the elastic member 200 includes a first elastic member 210 and a second elastic member 220.

The first elastic member 210 is coupled to the lower surface 130 of the bobbin 150 and the first elastic member 210 elastically supports the bobbin 150.

The first elastic members 210 of the pair are respectively coupled to the lower surface 130 of the bobbin 150 and the pair of first elastic members 210 are electrically insulated from each other .

A connection terminal 211 is formed on each of the pair of first elastic members 210 and a driving signal is externally applied to the connection terminals 211 formed on the first elastic members 210.

Each of the pair of first elastic members 210 includes an outer elastic portion 212, an inner elastic portion 214, and a connecting elastic portion 219.

The outer elastic part 212 and the inner elastic part 214 are connected by a connecting elastic part 219. Each first elastic piece 210 elastically biases the bobbin 150 by elastic force of the connecting elastic part 219, .

The inner elastic part 214 is fixed to the lower surface 130 of the bobbin 150. The outer elastic part 212 is fixed by the lower case 420 and the spacer 700 of the case 400 to be described later. The outer elastic portion 212 is formed with a connection terminal 211 electrically connected to the external circuit board.

The inner elastic portion 214 is soldered to the end of the coil forming the coil block 190 and the solder. A clip portion for engaging with the coil of the coil block 190 is formed on the inner elastic portion 214. The inner elastic portion 214 is formed in a curved plate shape having substantially the same curvature as the lower surface 130 of the bobbin 150.

The drive signal applied from the outside to the connection terminal 211 is sequentially applied to the coil block 190 through the outer elastic portion 212, the connecting elastic portion 219 and the inner elastic portion 214, A magnetic field is generated from the block 190.

The inner elastic portion 214 includes the through hole 215 and the through hole 215 is formed at a position where the through hole 215 is engaged with the coupling boss 134 formed on the lower surface 130 of the bobbin 150 shown in FIG. .

A pair of first elastic members 210 are disposed along the lower surface 130 of the bobbin 150 so that the ends of each inner elastic portion 214 of the pair of first elastic members 210 , Are arranged to face each other.

The opposite ends of each inner elastic portion 214 are disposed on both sides of the fused portion 136 of the bobbin 150 and the opposite ends of each inner elastic portion 214 are fixed by the fused portion 136 .

Even if strong or strong vibrations are applied to the voice coil motor 800, the opposite ends of the inner elastic part 214 are not in contact with the bobbin 200. Therefore, when the end portions of the inner elastic parts 214 are fixed by the fused part 136, The coil of the coil block 190 can be prevented from being disconnected from the inner elastic part 214 while being separated from the coil spring 150.

3 and 4, the first elastic member 210 is fixed to the lower surface 130 of the bobbin 150 by firmly fixing the opposite ends of the first elastic members 210 by the fused portion 136 The recesses 217 may be formed at each of opposite ends of the inner elastic portions 214 of the first and second elastic members 214. [

The engaging recesses 217 formed at the opposite ends of the inner elastic portions 214 of the first elastic members 210 are formed in a groove or an opening shape to be inserted into the surface of the fused portion 136.

When the fused portion 136 is formed, for example, in the form of a rectangular parallelepiped, the fused groove 217 may be formed in a shape that encloses, for example, three sides of the fused portion 136, The inner elastic portion 214 of the first elastic member 210 can be firmly coupled to the lower surface 130 of the bobbin 150 by the elastic member 217.

Although it has been shown and described that the first elastic member 210 is fused to the bobbin 150 by using the fused portion, the coil of the coil block 190 may be broken The opposite ends of the first elastic members 210 may be directly heat welded to the lower surface 130 of the bobbin 150. [

1, the second elastic member 220 of the elastic member 200 is fixed to the yoke 310 to be described later, and the second elastic member 220 is fixed to the lower surface 130 of the bobbin 150, As shown in Fig.

The stator 300 includes a yoke 310 and a magnet 350.

The yoke 310 includes a yoke top plate 312, a yoke side plate 314, and a back yoke 316. In an embodiment of the present invention, the yoke 310 prevents leakage of a magnetic field generated from a magnet 350, which will be described later, to improve the driving efficiency of the mover 100.

The yoke top plate 312 is formed in the shape of a square plate, and an opening for exposing the bobbin or the lens is formed at the center of the yoke top plate 312.

The yoke side plate 314 extends from each edge of the yoke top plate 312 in a direction to wrap the bobbin 150.

The back yoke 316 extends from the inner surface formed by the opening of the yoke top plate 312 so as to face the respective corners of the yoke side plate 314.

The magnet 350 is disposed at a position facing each corner of the yoke side plate 314 and the magnet 350 is disposed at a position facing the coil block 190 disposed on the outer circumferential surface of the bobbin 150.

The magnet 350 can be adhered to the yoke side plate 314, for example, by an adhesive.

The bobbin 150 can be moved upward by a force generated by a magnetic field generated from each magnet 350 and a magnetic field generated from the coil block 190. The bobbin 150 has first and second elasticity And is elastically supported by the members 210 and 220. At this time, the moving distance of the bobbin 150 can be precisely controlled by precisely controlling the amount of current applied to the coil block 190.

The case 400 includes an upper case 410 and a lower case 420. The case 400 serves to couple and fix the mover 100, the elastic member 200, and the stator 300 to each other.

The upper case 410 includes an upper plate 411 and a coupling post 412. The upper case 410 is disposed on the upper portion of the yoke 310 and the second elastic member 220 of the elastic member 200 is interposed between the upper case 410 and the yoke 310.

The top plate 411 of the upper case 410 may be formed in a rectangular plate shape when viewed from the top and an opening 414 exposing the bobbin 150 is formed at the center of the top plate 411 of the upper case 410. [ .

The coupling pillar 412 of the upper case 410 protrudes in parallel with the bobbin 150 from the four corners of the upper plate 411 and the coupling pillar 412 is engaged with the lower case 420 to be described later.

The lower case 420 includes columns 425 which are engaged with the respective coupling pillars 412 of the upper case 410.

As described above in detail, the coil spring of the coil block is disconnected from the leaf spring even if a strong shock or vibration is applied to the voice coil motor by firmly coupling the end of the leaf spring for resiliently supporting the bobbin to the bobbin by the heat fusion method Defects can be prevented.

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 100 ... Mover
200 ... elastic member 300 ... stator
700 ... Spacer

Claims (10)

Bobbin;
A coil disposed on an outer circumferential surface of the bobbin;
A magnet facing the coil;
A first elastic member coupled to a lower surface of the bobbin; And
And a base disposed under the bobbin,
Wherein the bobbin includes a first boss and a second boss projecting from the lower surface of the bobbin and spaced apart from each other,
Wherein the first elastic member includes a through hole that is engaged with the first boss and a cutout portion that extends from the through hole with a width smaller than the diameter of the through hole,
Wherein the first elastic member includes an inner elastic portion coupled to the lower surface of the bobbin, an outer elastic portion disposed on the outer side of the inner elastic portion, and a connection elastic portion connecting the inner elastic portion and the outer elastic portion,
The through hole and the cutout portion are spaced apart from the inner peripheral surface of the inner elastic portion,
Wherein the second boss is longer than the first boss with respect to the lower surface of the bobbin and contacts the base by movement of the bobbin. The method according to claim 1,
Wherein the first boss passes through the through hole and does not pass through the cutout. The method according to claim 1,
And the second boss does not pass through the through hole. The method according to claim 1,
The cross section formed by cutting the first boss in the horizontal direction is circular,
And the through-hole is formed in a shape and size corresponding to the circular cross-section of the first boss. The method according to claim 1,
And a second elastic member coupled to an upper surface of the bobbin. The method according to claim 1,
Wherein the second boss includes a plurality of second bosses,
Wherein the plurality of second bosses are arranged symmetrically with respect to a center axis in the vertical direction of the bobbin. The method according to claim 1,
And the outer surface of the second boss is disposed on the same plane as the outer surface of the bobbin. The method according to claim 1,
The first elastic members are provided in pairs and are spaced apart from each other,
Wherein the bobbin further includes a fused portion protruding from the lower surface of the bobbin and spaced apart from the first boss,
Wherein the fused portion fixes opposite ends of the pair of first elastic members by fusing,
Wherein one end of the coil and the other end of the coil on the opposite side of the one end are coupled to each other by solder on the opposite ends of the pair of first elastic members. 9. The method of claim 8,
Wherein an engaging groove formed to surround at least a part of a side surface of the fused portion is formed at an opposite end of the pair of first elastic members,
Wherein the fused portion is formed in a rectangular parallelepipedic shape and the engaging groove is formed such that a facing end of the pair of first elastic members is in contact with three sides of the fused portion. Bobbin;
A lens coupled to the bobbin;
An image sensor disposed under the lens;
A coil disposed on an outer circumferential surface of the bobbin;
A magnet facing the coil;
A first elastic member coupled to a lower surface of the bobbin; And
And a base disposed under the bobbin,
Wherein the bobbin includes a first boss and a second boss projecting from the lower surface of the bobbin and spaced apart from each other,
Wherein the first elastic member includes a through hole that is engaged with the first boss and a cutout portion that extends from the through hole with a width smaller than the diameter of the through hole,
Wherein the first elastic member includes an inner elastic portion coupled to the lower surface of the bobbin, an outer elastic portion disposed on the outer side of the inner elastic portion, and a connection elastic portion connecting the inner elastic portion and the outer elastic portion,
The through hole and the cutout portion are spaced apart from the inner peripheral surface of the inner elastic portion,
Wherein the second boss is longer than the first boss with respect to the lower surface of the bobbin and contacts the base by movement of the bobbin.

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