KR20220100845A - Voice coil motor - Google Patents

Abstract

The present invention provides a voice coil motor which has a protrusion formed on a bobbin and a through hole formed on a leaf spring, wherein the protrusion penetrates the through hole, and also has a receiving unit formed on the bobbin when the protrusion is thermally fused to the leaf spring, wherein the receiving unit receives a thermally fused portion of the leaf spring, so that a change in position and shape of the leaf spring can be prevented during the thermal fusing. The voice coil motor comprises: a base unit; a bobbin which is disposed on the base unit; a first driving unit which is disposed on the bobbin; a second driving unit which faces the first driving unit; and an elastic member which is coupled to a lower portion of the bobbin and the base unit.

Description

Voice coil motor {VOICE COIL MOTOR}

The present invention relates to a voice coil motor.

Recently, a camera module including an image sensor capable of storing a digital image or a moving picture of a subject is mounted on a portable communication device such as a mobile phone, a game machine, and a tablet PC.

In the conventional camera module, it is difficult to adjust the distance between the image sensor and the lens disposed in front of the image sensor, so it is not easy to set an accurate focus on the subject.

With the recent development of voice coil motor (VCM) technology, it is possible to adjust the distance between the image sensor and the lens, making it possible to realize a better digital image or video.

A conventional voice coil motor includes a bobbin to which a lens is mounted and a leaf spring elastically coupled to the bobbin.

The bobbin includes a protrusion protruding from the bobbin in order to be coupled to the leaf spring, and the leaf spring has a through hole coupled to the protrusion.

After the protrusion of the bobbin is inserted into the coupling hole of the leaf spring, the protrusion is coupled to the bobbin while the protrusion is deformed by heat and pressure.

However, when a leaf spring having a very thin thickness is coupled to the bobbin in this way, there are various problems such as a shape deformation or a change in the position of the leaf spring due to the fusion-bonded protrusion.

Alternatively, the leaf spring can be coupled to the bobbin by insert-injecting the leaf spring into the bobbin.

Unlike this, a method of fixing the bobbin and the leaf spring using a bond is also possible, but when the bobbin and the leaf spring are fixed using the bond, contamination around the bobbin by the bond is generated and the bobbin and the leaf spring are arbitrarily separated. .

Laid-Open Patent Publication No. 10-2011-0139017 (2011.12.28.)

The present invention forms a protrusion on the bobbin and forms a through hole through which the protrusion passes through the plate spring to form a receiving part for accommodating the portion to be thermally fused among the plate springs in the bobbin when the protrusion is thermally fused to the plate spring, thereby forming a plate during thermal fusion. To provide a voice coil motor that prevents a change in the position and shape of a spring.

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 one embodiment, the voice coil motor includes a base unit; a bobbin disposed on the base unit; a first driving unit disposed on the bobbin; a second driving unit opposite to the first driving unit; and an elastic member coupled to the lower portion of the bobbin and the base unit.

According to the voice coil motor according to the present invention, among the elastic members that elastically support the bobbin, the inner elastic part to be thermally welded to the lower surface of the bobbin is inside the lower surface of the bobbin to prevent position change and shape deformation of the inner elastic part during thermal fusion. By forming a accommodating part for accommodating the elastic part, it has an effect of preventing a change in the position and shape of the inner elastic part.

1 is an external perspective view of a voice coil motor according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line II′ of FIG. 1 .
3 is an exploded perspective view of FIG. 1 ;
4 is a rear perspective view illustrating a rear surface and an elastic member of the bobbin.
5 is an enlarged view of part 'A' of FIG. 4 .

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 spirit of the present invention based on the contents throughout this specification.

1 is an external perspective view of a voice coil motor according to an embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line I-I' of FIG. 1 . 3 is an exploded perspective view of FIG. 1 ; 4 is a rear perspective view illustrating a rear surface and an elastic member of the bobbin. 5 is an enlarged view of part 'A' of FIG. 4 .

1 to 5 , the voice coil motor 600 includes a base unit 100 , a mover 200 , a stator 300 , and an elastic member 400 . In addition, the voice coil motor 600 may include a cover 500 .

The base unit 100 is formed in the shape of a rectangular parallelepiped plate, and in the central part of the base unit 100, there is a through hole 110 penetrating through the upper surface and the lower surface opposite to the upper surface of the base unit 100 as shown in FIG. is formed

At the four corners formed on the upper surface of the base unit 100 , coupling pillars 120 protrude, respectively.

3 to 5 , the mover 200 includes a bobbin 210 and a first driving unit 220 .

The bobbin 210 is formed, for example, in a cylindrical shape with upper and lower surfaces opened, and a female screw part 212 for mounting a lens (not shown) may be formed on the inner surface of the bobbin 210 .

On the lower surface 211 of the bobbin 210 facing the base unit 100, fusion protrusions 214 coupled to the elastic member 400 to be described later are respectively formed.

In one embodiment of the present invention, the fusion protrusions 214 are, for example, four on the left side with respect to the center of the bobbin 210, and four on the right side with respect to the center of the bobbin 210, respectively.

The fusion protrusions 214 are, for example, two forming a pair, and four fusion protrusions 214 are disposed on the left side with respect to the center of the bobbin 210 , and the right side with respect to the center of the bobbin 210 . Four fusion protrusions 214 are disposed on the. In addition, the fusion protrusions 214 on the left and right sides with respect to the center of the bobbin 210 are respectively arranged in a symmetrical shape.

In an embodiment of the present invention, the first driving unit 220 may include, for example, a coil block wound on the outer surface of the bobbin 210 . The coil block may be formed by winding a long wire insulated by an insulating material on the outer surface of the bobbin 210 . Alternatively, the coil block may be disposed on the outer surface of the bobbin 210 after winding a long wire insulated by an insulating material in a pipe shape.

Although it is illustrated and described that the first driving unit 220 is a coil block in an embodiment of the present invention, the first driving unit 220 may include a magnet attached to the outer surface of the bobbin 210. free

Referring back to FIG. 3 , the stator 300 includes a second driving unit 310 . In addition, the stator 300 may include a yoke 320 and a spacer 330 .

The second driving unit 310 is disposed outside the first driving unit 220 , and the second driving unit 310 is disposed to face the first driving unit 220 .

In one embodiment of the present invention, when the first driving unit 220 includes a coil block, the second driving unit 310 includes a magnet. Alternatively, when the first driving unit 220 includes a magnet, the second driving unit 310 includes a coil block.

The second driving unit 310 includes, for example, four magnets having a column shape, and the four magnets are formed at equal intervals around the first driving unit 220 . Alternatively, the four magnets may include a flat magnet.

The yoke 320 is formed in a square plate shape and vertically extended from the yoke top plate 321 from the four edges of the yoke top plate 321 and the yoke top plate 321 having a circular opening in the center. include The yoke 320 may be formed by pressing a metal plate that blocks magnetic fields or harmful electromagnetic waves (EMI).

Among the yoke side plates 322 of the yoke 320 , the second driving unit 310 is disposed on an inner surface formed by a pair of adjacent yoke side plates 322 , respectively.

The yoke 320 to which the second driving unit 310 is fixed therein prevents leakage of a magnetic field generated from the second driving unit 310 to improve the driving force of the mover 200 .

3 and 4 , the elastic member 400 is disposed on the lower surface 211 of the bobbin 210 of the mover 200 . In one embodiment of the present invention, the elastic member 400, for example, is made of a pair, each elastic member 400 is electrically insulated from each other.

The pair of elastic members 400 includes an inner elastic part 410 , an outer elastic part 420 , and a connection elastic part 430 .

The outer elastic part 420 is formed in a band shape bent in a 'U' shape when viewed in a plan view, and the outer elastic part 420 is connected to a pair of adjacent coupling pillars 120 of the base unit 100 . It is inserted and fixed to the base unit 100 .

The inner elastic part 410 is disposed on the lower surface 211 of the bobbin 210 . Accordingly, the inner elastic part 410 is formed in a curved band shape similar to the shape of the lower surface 211 of the bobbin 210 .

The inner elastic part 410 includes a through hole 412 formed at a position corresponding to the fusion protrusion 214 formed on the lower surface 211 of the bobbin 210 .

In one embodiment of the present invention, the through hole 412 is formed at a position corresponding to each fusion protrusion 214 formed on the lower surface 211 of the bobbin 210, and thus the fusion protrusion 214 is formed in the through hole 412. ) will pass.

The connection elastic part 430 is formed in a zigzag shape, one side of the connection elastic part 430 is connected to the inner elastic part 410, and the other side opposite to the one side of the connection elastic part 430 is an outer elastic part ( 420) is connected.

In one embodiment of the present invention, the through hole 412 of the inner elastic part 410 of the elastic member 400 is inserted into the fusion protrusion 214 formed on the lower surface 211 of the bobbin 210, and the fusion protrusion ( As the shape of the 214 is deformed by heat and pressure, the inner elastic part 410 is coupled to the lower surface 211 of the bobbin 210 by pressing the upper surface of the inner elastic part 410 .

In this way, heat and pressure are applied to the fusion protrusion 214 to deform the shape of the fusion protrusion 214 and press the upper surface of the inner elastic part 410 to fix the elastic member 400 to the lower surface 211 of the bobbin 210 . The position of the inner elastic part 410 may be changed frequently during the operation. In addition, the shape of the inner elastic part 410 may also be changed.

As such, when the position of the inner elastic part 410 is changed, the mover 200 may be driven at a position out of a designated path, or the elastic force acting on the mover 200 may be changed.

4 and 5 , during thermal fusion of the inner elastic part 410 to the lower surface 211 of the bobbin 210 , the position of the inner elastic part 410 is changed or the shape of the inner elastic part 410 is changed. In order to prevent deformation, a receiving part 216 for accommodating the inner elastic part 410 is formed on the lower surface 211 of the bobbin 210 .

The accommodating part 216 formed on the lower surface 211 of the bobbin 210 has, for example, a recess shape concavely formed in an undercut shape from the lower surface 211 of the bobbin 210 .

In addition, while the inner elastic part 410 of the elastic member 400 inserted into the receiving part 216 is heat-sealed by the fusion protrusion 214 of the bobbin 210, the position and shape of the inner elastic part 410 is changed and the shape is changed. In order to prevent alteration, the accommodating part 216 may be formed in the same shape and the same size as the inner elastic part 410 when viewed in a plan view.

The accommodating part 216 does not communicate with the outer surface and/or the inner surface of the bobbin 210 in order to prevent a change in the position of the inner elastic part 410 of the elastic member 400 . However, in order to prevent the connection elastic part 430 connected to the inner elastic part 410 of the elastic member 400 from interfering with the bobbin 210 , the connecting elastic part 430 connected to the inner elastic part 410 . ) and the receiving portion 216 of the bobbin 210 is in communication with the outer surface of the bobbin (210).

Referring back to FIG. 3 , an additional elastic member 450 for elastically supporting the bobbin 210 is disposed on the upper surface opposite to the lower surface 211 of the bobbin 210 .

The spacer 330 serves to fix the elastic member 400 , the additional elastic member 450 , the mover 200 , and the stator 300 .

The spacer 330 includes an upper spacer 332 and a lower spacer 335 , and the upper spacer 332 and the lower spacer 335 are engaged with each other.

The outer elastic part 420 of the elastic member 400 is fixed between the lower spacer 335 and the upper surface of the base unit 100 , and the additional elastic member 450 is fixed to the lower surface of the upper spacer 332 .

The cover 500 includes a cover top plate 510 having a rectangular plate shape having a circular opening for exposing a lens, and a cover side plate 520 extending from the edge of the cover top plate 510, and the cover side plate 520 ) is coupled to the base unit 100 .

As described in detail above, among the elastic members that elastically support the bobbin, the inner elastic part is formed on the lower surface of the bobbin in order to prevent the position change and shape deformation of the inner elastic part during thermal fusion of the inner elastic part to the lower surface of the bobbin. It has an effect of preventing a change in the position and shape of the inner elastic part by forming a accommodating part.

Although the embodiments according to the present invention 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.

600...voice coil motor 100...base unit
200...Movers 300...Stators
400...Elastic member 500...Cover

Claims (1)

base unit;
a bobbin disposed on the base unit;
a first driving unit disposed on the bobbin;
a second driving unit opposite to the first driving unit; and
and an elastic member coupled to a lower portion of the bobbin and the base unit.

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