KR20200084839A - Voice coil motor - Google Patents

Abstract

The present invention relates to a voice coil motor which is suitable for performing focusing motion and image stabilization together. The voice coil motor comprises: a mover having a first driving unit disposed on an outer circumferential surface of a bobbin fixing a lens; a stator having a second driving unit facing the first driving unit; a base supporting the stator and having an opening exposing the lens; a case coupled to the base and having the opening exposing the lens; an elastic member coupled to the mover on the case and floating the mover from the base when a driving signal is not applied to first and second drive units; an interference preventing member interposed between the case and the elastic member to prevent interference between the elastic member and the case when the mover is driven in both directions; and a cover member pressing and fixing the elastic member.

Description

VOICE COIL MOTOR

The present invention relates to a voice coil motor. In particular, the present invention relates to a voice coil motor that implements an auto focusing function and an image stabilization function that perform an auto focus function while being driven in both directions between an image sensor and a lens.

Recently, a mobile phone or a smartphone equipped with a camera module for storing a subject as a digital image or video has been developed.

The conventional camera module includes a lens and an image sensor module that converts light passing through the lens into a digital image.

However, the conventional camera module does not have an auto-focusing function that automatically adjusts the distance between the lens and the image sensor module, making it difficult to obtain a high-quality digital image, as well as deteriorating image quality due to hand-shake caused by the user's hand shaking. It has a problem that occurs.

(Patent Document 1) KR10-2009-0026480 A

The present invention provides a voice coil motor suitable for performing a focusing operation and an image stabilization function while the lens is up-down with respect to the image sensor.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems that 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 having a first driving portion disposed on an outer circumferential surface of the bobbin that fixes the lens; A stator having a second driving part facing the first driving part; A base having an opening that supports the stator and exposes a lens; A case coupled to the base and having an opening exposing the lens; An elastic member coupled to the mover on the case and floating the mover from the base when a drive signal is not applied to the first and second drive units; An interference prevention member interposed between the case and the elastic member to prevent interference between the elastic member and the case when the mover is driven in both directions; And a cover member for pressing and fixing the elastic member.

According to the voice coil motor according to the present invention, when the drive signal is not applied, the mover is kept separated from the base and the mover is driven in both directions toward the base or away from the base by the application of the drive signal. In particular, when the mover is driven in the direction toward the base, the elastic member coupled to the mover and the case covering the mover do not cause mutual interference to prevent the voice coil motor from being defective in driving during the focusing operation.

1 is a conceptual diagram of a voice coil motor according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the voice coil motor of FIG. 1.
3 is a perspective view of the voice coil motor with the cover member and the elastic member of FIG. 1 removed.
4 is a plan view showing a part of the case, the anti-interference member and the elastic member of FIG.
5 is a cross-sectional view of a case, an anti-interference member, an elastic member, and a bobbin.
6 is a cross-sectional view showing a state in which the bobbin of FIG. 5 is raised from the base.
7 is a cross-sectional view showing a state in which the bobbin of FIG. 5 descends toward the base.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of components shown in the drawings may be exaggerated for clarity and convenience of description. 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 the present specification.

1 is a conceptual diagram of a voice coil motor according to an embodiment of the present invention.

Referring to FIG. 1, the voice coil motor 900 performs an auto focus function and an image stabilization function together.

The auto focus function is a function of driving the mover 100 from the stator 200, and a lens 100 is mounted to perform the auto focus function, and the mover 100 and the base 300 perform the focus function ( 100) and/or when the driving signal is not applied to the stator 200, they are arranged to be spaced apart from each other.

As a driving signal for raising the mover 100 is applied to the mover 100 floating from the base 300, the mover 100 is driven in a first direction away from the base 300, and thus a specific focus function (close-up Focus).

In addition, as the driving signal for lowering the mover 100 is applied to the mover 100 floating from the base 300, the mover 100 is driven in a second direction closer to the base 300, and thus has a specific focus. Perform a function (infinity focus).

When driving the mover 100 in both directions by applying different driving signals to the floater 100 floating with respect to the base 300 as described above, the amount of current is reduced by reducing the amount of current, thereby reducing the power consumption characteristics. In addition to being implemented, the driving distance of the mover 100 can be reduced to further reduce the time required for the focusing operation of the mover 100.

Hereinafter, a more specific configuration of the voice coil motor 900 having the autofocus function and the camera shake correction function by bidirectional driving will be described.

FIG. 2 is an exploded perspective view showing a specific configuration of the voice coil motor of FIG. 1.

1 and 2, the voice coil motor 900 includes a mover 100, a stator 200, a base 300, a case 400, an elastic member 540, an anti-interference member 600, and It includes a cover member 700.

The mover 100 includes a bobbin 110 and a first driving unit 120. The mover 100 performs an auto-focusing function while up-down from the upper part of the base 300 by the action with the stator 200 to be described later, and performs an image stabilization function while tilting from the upper part of the base 300.

The bobbin 110 is formed, for example, in a cylindrical shape, and an internal thread portion for coupling with the lens 130 is formed on the inner circumferential surface of the bobbin 110.

The bobbin 110 is formed with coupling protrusions 112 for coupling with elastic members 540 to be described later.

The outer circumferential surface of the bobbin 110 is formed in a shape in which a curved section and a straight section are alternately formed, and four straight sections and four curved sections are formed on the outer circumferential surface of the bobbin 110.

The grooves formed concavely from the outer circumferential surface of the bobbin 110 are formed in four straight sections formed on the outer circumferential surface of the bobbin 110.

The first driving unit 120 is coupled to each other on straight sections formed on the outer circumferential surface of the bobbin 110. For example, the first driving unit 120 may be disposed to face each other in two straight sections or four straight sections facing each other among the four straight sections formed on the outer circumferential surface of the bobbin 110.

In one embodiment of the present invention, the first driving unit 120 includes a magnet, and the magnet may include, for example, a 2-pole or 4-pole flat magnet.

The stator 200 includes a housing 210, a second driving unit 220, and a terminal plate 230.

The housing 210 has, for example, a quadrangular cylindrical shape in which upper and lower surfaces are opened.

The mover 100 is disposed inside the housing 210, and the housing 210 surrounds the first driving unit 120 disposed on the outer circumferential surface of the bobbin 110 of the mover 100.

In one embodiment of the present invention, the housing 210 is formed in, for example, a quadrangular cylindrical shape including four side walls 212. The housing 210 may be formed by, for example, an injection process using synthetic resin.

The second driving unit 220 is formed by winding an electric wire having a long length coated with an insulating resin.

In one embodiment of the present invention, the second driving unit 220 includes a coil block wound in a square frame shape. In one embodiment of the present invention, the second driving unit 220 may be formed at four equal intervals in the housing 210, which will be described later, to perform an image stabilization function.

One end of the second driving unit 220 and the other end opposite to the one end are respectively formed in opposite directions to the second driving unit 220.

For example, the one end of the second driving unit 220 is disposed on the left side of the second driving unit 220, and the other end of the second driving unit 220 is disposed on the right side of the second driving unit 220.

Since the second driving unit 220 is formed by winding an electric wire insulated by an insulating resin, when the second driving unit 220 having a predetermined thickness and having a thickness is disposed on the sidewall 212 of the housing 210, The volume of the voice coil motor 900 may be increased.

In an embodiment of the present invention, in order to prevent an increase in the volume of the voice coil motor 900 due to the second driving unit 220, the first side of the mover 100 among the outer surfaces of the side walls 212 of the housing 210 A receiving groove 214 is formed in a portion corresponding to the driving unit 120.

The storage groove 214 formed on the outer surface of the side wall 212 of the housing 210 is formed in a shape corresponding to the shape of the second driving unit 220.

In order to prevent the second driving unit 220 from protruding from the outer surface of the side wall 212 of the housing 210, the depth of the receiving groove 214 is preferably formed to be greater than or equal to the thickness of the second driving unit 220.

Although in one embodiment of the present invention it is illustrated and described that the groove-shaped receiving groove 214 is formed on the outer surface of the side wall 212 of the housing 210, differently, it corresponds to the first driving unit 120 A through hole accommodating the second driving unit 220 may be formed in the housing 210.

Meanwhile, when the second driving unit 220 corresponding to the first driving unit 120 is disposed in the housing 210, it is difficult to provide a driving signal to the second driving unit 220. In particular, when the housing 210 is made of synthetic resin, it is more difficult to transmit a driving signal from the printed circuit board disposed on the rear surface of the base 300 to be described later to the second driving unit 220.

The terminal plate 230 transmits a driving signal provided from the printed circuit board disposed on the rear surface of the base 300 to the second driving unit 220.

The terminal plate 230 is manufactured in the form of a metal plate formed of a thin thickness, and some or all of the terminal plates 230 connected to the second driving unit 220 improve electrical connection characteristics with the second driving unit 220 to be described later. A plating layer may be formed in order to make it.

The terminal plate 230 is formed parallel to the side wall 212 of the housing 210, and the terminal plate 230 is integrally formed with the housing 210 by an insert injection process.

A portion of the terminal plate 230 inserted into the housing 210 is exposed by the receiving groove 214 that accommodates the second driving unit 220.

In one embodiment of the present invention, although the terminal plate 230 inserted into the housing 210 is described, differently, the terminal plate 230 may be inserted into the insertion groove formed in the housing 210 and assembled.

In one embodiment of the present invention, the end of the terminal plate 230 protrudes a predetermined length from the lower surface of the housing 210 so as to pass through the base 300.

The terminal plate 230 exposed by the storage groove 214 of the housing 210 is in contact with one end 222 and the other end 224 of the second driving unit 220, respectively, and the terminal plate 230 and the 2 One end and the other end 222,224 of the driving unit 220 are electrically connected to the terminal plate 230, respectively.

One end 222 of the terminal plate 230 and the second driving unit 220, and the other end 224 of the terminal plate 230 and the second driving unit 220 may be electrically connected to each other by a connecting member. .

For example, the connecting member may be a bottom for electrically connecting one end 222 and the terminal plate 230 of the second driving unit 220, the other end 224 of the second driving unit 220, and the terminal plate 230. It may include solder, which is a melting point metal. At this time, when the electric wires constituting the second driving unit 220 include copper, since the connection characteristics of the terminal plate 230 and the second driving unit 220 are poor, the second driving unit of the terminal plate 230 as described above ( It is preferable to form a plating layer on the part connected to one end 222 and the other end 224 of 220). Alternatively, the connecting member may include a conductive adhesive having adhesion and conductivity.

Referring again to FIG. 2, the base 300 is formed in a rectangular parallelepiped shape, and an opening 305 is formed in a central portion of the base 300. The coupling pillar 310 for coupling with the housing 210 is projected to the base 300.

The coupling grooves formed in the coupling pillar 310 and the coupling pillar 310 of the base 300 and the corresponding housing 210 are coupled in a mutually fitting manner.

An IR filter and an image sensor module may be mounted on the rear surface of the base 300.

The case 400 surrounds the stator 200 surrounding the mover 100 and prevents electromagnetic waves generated from the second driving unit 220 of the stator 200 or electromagnetic waves from outside from being applied to the second driving unit 220. do.

The case 400 may be formed by pressing a metal plate to block electromagnetic waves.

The case 400 includes a top plate 410 and a side plate 420. The top plate 410 and the side plate 420 are integrally formed.

The top plate 410 is formed in a square plate shape when viewed from a plane, and an opening exposing the lens 130 is formed at a central portion of the top plate 410.

The planar area of the opening 405 of the top plate 410 is formed larger than the planar area of the bobbin 110 so that the bobbin 110 on which the lens 130 is mounted is input/output through the opening of the top plate 410.

The side plate 420 extends from the edge of the top plate 410 along the outer surface of the side wall 212 of the housing 210 of the stator 200, and the side plate 420 is fixed to the base 300.

2 and 4, the elastic member 540 is coupled to the movable member 100 to elastically support the movable member 100, and the elastic member 540 is movable member 100 and/or stator ( When a driving signal is not applied to 200), the mover 100 is elastically supported so as to float from the base 300.

By allowing the elastic member 540 to float the mover 100 from the base 300, the mover 100 can be driven in both directions relative to the base 300 to perform a focusing operation.

The elastic member 540 includes an inner elastic portion 510, an outer elastic portion 520 and a connecting elastic portion 530.

The inner elastic portion 510 is coupled to the coupling protrusion 112 of the bobbin 110, and the inner elastic portion 510 may be formed in a circular ring shape, for example.

The outer elastic portion 520 is disposed outside the inner elastic portion 510, and the outer elastic portion 520 is formed in a rectangular band shape, for example.

The connecting elastic portion 530 connects the outer elastic portion 520 and the inner elastic portion 510 to impart elasticity to the inner elastic portion 510.

The connecting elastic portion 530 is bent in a zigzag shape and formed in a long strip shape generating elasticity.

The elastic member 540 including the inner elastic portion 510, the outer elastic portion 520, and the connecting elastic portion 530 is not disposed inside the top plate 410 of the case 400, but the upper portion of the top plate 410 Is placed on.

The additional elastic member 580 is formed in a shape similar to the elastic member 540, and the additional elastic member 580 is coupled to the lower surface of the bobbin 110 to elastically support the bobbin 110.

The interference prevention member 600 is interposed between the upper plate 410 of the case 400 and the elastic member 540.

The interference preventing member 600 is connected to the inner elastic part 510 of the elastic member 540 while the bobbin 110 is driven in a direction closer to the base 300 to connect the elastic part 530 when performing a focusing operation. And interfering with the top plate 410 disposed under the connecting elastic portion 530 to prevent a defect in the focusing operation of the bobbin 110.

For example, when the interference prevention member 600 is not formed between the elastic member 540 and the top plate 410 of the case 400, the top plate 410 is connected to the elastic member 530 of the elastic member 540 It should not be in contact with, in order to implement it without the interference prevention member 600, the area of the opening 405 of the top plate 410 must be formed larger.

In this way, when the area of the opening 405 of the top plate 410 is formed to be larger, external foreign substances are introduced through the opening 405 of the top plate 410, and foreign substances are accumulated inside the voice coil motor 900 to form a voice coil. The failure incidence rate of the motor 900 is increased and the life is shortened.

To prevent this, an interference preventing member 600 is interposed between the elastic member 540 and the upper plate 410 of the case 400.

The anti-interference member 600 is formed in the shape of a steel plate with an opening 605 formed therein, and the anti-interference member 600 may form a metal plate by a punching process or a synthetic resin by an injection process.

The thickness of the interference prevention member 600 is formed so that the connecting elastic portion 530 of the elastic member 540 moving up and down according to the stroke length of the bobbin 110 of the mover 100 does not contact the upper plate 410. .

The interference prevention member 600 disposed on the top plate 410 of the case 400 is fixed to the top plate 410 by various methods such as spot welding, laser welding, or soldering. On the other hand, when the interference prevention member 600 is a synthetic resin injection material, the interference prevention member 600 is fixed to the upper surface of the top plate 410 using an adhesive.

A guide hole 610 for aligning a position is formed in the anti-interference member 600 so that the anti-interference member 600 can be accurately positioned at a designated position of the top plate 410. On the other hand, a guide protrusion coupled to the guide hole 610 of the interference prevention member 600 may be formed on the top plate 410 corresponding to the guide hole 610.

With the anti-interference member 600 coupled to the designated position of the top plate 410, the area of the opening 605 of the anti-interference member 600 is the area of the opening 405 of the top plate 410 of the case 400. It is formed larger.

Therefore, when the anti-interference member 600 is coupled to the designated position of the top plate 410, a portion of the top plate 410 of the case 400 by the anti-interference member 600 is covered by the anti-interference member 600. Exposed without being supported, the exposed portion is a portion corresponding to the connecting elastic portion 530 of the elastic member 540.

That is, when the anti-interference member 600 is disposed on the top plate 410, and the outer elastic portion 520 of the elastic member 540 is disposed on the top surface of the anti-interference member 600, the connection of the elastic member 540 A gap corresponding to the thickness of the interference prevention member 600 is formed between the elastic portion 530 and the top plate 410.

When the gap G as shown in FIG. 5 is formed between the connecting elastic portion 530 of the elastic member 540 and the top plate 410 by the interference prevention member 600 as described above, illustrated in FIG. 7 As shown, even if the bobbin 110 is driven in a direction close to the base 300, the connecting elastic portion 530 of the elastic member 540 can be prevented from causing interference while contacting the top plate 410.

2 and 5 to 7, when a driving signal for raising the mover 100 is applied to the stator 200, the bobbin 110 of the mover 100 is as shown in FIG. 6. The inner elastic portion 510 and the connecting elastic portion 530 of the elastic member 540 are moved upward.

Conversely, when a driving signal for lowering the mover 100 is applied to the stator 200, the bobbin 110 of the mover 100 is lowered as shown in FIG. 7 and inside the elastic member 540 The elastic portion 510 and the connecting elastic portion 530 are moved downward.

As the mover 100 descends, the connecting elastic portion 530 of the elastic member 540 descends together with the mover 100, and the connecting elastic portion 530 is topped by the thickness of the interference prevention member 600. It will not come into contact with or interfere with (410).

The cover member 700 includes an opening exposing the lens 130, and the cover member 700 is fixed by pressing the elastic member 540 disposed on the case 400.

As described in detail above, when the drive signal is not applied, the mover is kept spaced apart from the base, and the mover is driven in both directions toward the base or away from the base by the application of the drive signal. When the mover is driven in the direction toward the base, the elastic member coupled to the mover and the case covering the mover do not cause mutual interference to prevent the voice coil motor from being defective in driving during the focusing operation.

Although the embodiments according to the present invention have been described above, they are merely exemplary, and those skilled in the art will understand that various modifications and equivalent ranges of the embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined by the following claims.

900...Voice coil motor 100...Motor
200...Stator 300...Base
400...case 540...elasticity
600...Interference prevention member 700...Cover member

Claims (20)

A case including a top plate and a side plate extending from the top plate;
A housing disposed in the case;
A bobbin disposed in the housing;
A base disposed under the bobbin;
A first driving part disposed on the bobbin;
A second driving part disposed on the housing and facing the first driving part;
An interference prevention member disposed on an upper surface of the upper plate of the case;
A cover member disposed on the interference prevention member; And
An elastic member including an inner elastic part coupled to the bobbin, an outer elastic part fixed between the interference preventing member and the cover member, and a connecting elastic part connecting the inner elastic part and the outer elastic part,
When a first driving current in a first direction is applied to any one of the first driving part and the second driving part, the bobbin moves in a first direction closer to the base along the optical axis direction,
The voice coil motor is formed such that the thickness of the interference prevention member in the optical axis direction is longer than the stroke length of the bobbin in the first direction. According to claim 1,
The thickness of the interference prevention member is a voice coil motor formed so that the connecting elastic portion of the elastic member does not contact the upper plate of the case. According to claim 1,
When the bobbin moves in the first direction, at least a portion of the connecting elastic portion of the elastic member is disposed in a lower position than the outer elastic portion voice coil motor. According to claim 1,
When the bobbin moves in the first direction, the voice coil motor is disposed at a position lower than the outer elastic portion of the elastic member of the inner elastic portion of the elastic member. According to claim 1,
When the bobbin moves in the first direction, the connecting elastic portion of the elastic member overlaps the interference preventing member in the direction perpendicular to the optical axis direction. According to claim 1,
The interference prevention member includes a hole,
A voice coil motor is formed on the top plate of the case to form a protrusion that is engaged with a hole of the interference prevention member. According to claim 1,
The top plate of the case includes an opening,
The interference prevention member includes an opening,
The opening of the interference preventing member is formed larger than the opening of the case, so that a part of the upper surface of the upper plate of the case is exposed to the inside of the interference preventing member. According to claim 1,
The interference preventing member and the case are mutually coupled by any one of an adhesive member, spot welding, laser welding and soldering,
The first driving part includes a magnet, and the second driving part includes a coil. The method of claim 8,
The housing includes a groove formed on an outer surface of the side wall of the housing,
The coil is disposed in the groove of the housing,
The depth of the groove of the housing is formed to be more than the thickness of the coil,
The coil is a voice coil motor in which four are disposed at equal intervals in the housing to perform an image stabilization function for the bobbin. According to claim 1,
When a second driving current in a second direction opposite to the first direction is applied to any one of the first driving part and the second driving part, the bobbin coil motor moves in a second direction away from the base. The method of claim 10,
It includes an additional elastic member coupled to the lower portion of the bobbin,
The elastic member separates the bobbin from the base in an initial state in which a driving signal is not applied to the first driving part and the second driving part,
One of the first driving part and the second driving part includes a coil, and the other includes a magnet,
As the first driving current is applied to the coil, the bobbin moves in the first direction closer to the base,
The voice coil motor moves in the second direction away from the base as the bobbin moves as the second driving current is applied to the coil. According to claim 1,
A voice coil motor having an outer circumference of the cover member having a shape and size corresponding to the outer circumference of the interference prevention member. According to claim 1,
The voice coil motor is formed in a shape and size corresponding to the outer circumference of the interference prevention member of the upper plate of the case. The voice coil motor of claim 1;
A lens coupled to the bobbin of the voice coil motor; And
A camera module including an image sensor that converts light passing through the lens into an image. A smartphone comprising the camera module of claim 14. A case including a top plate and a side plate extending from the top plate;
A housing disposed in the case;
A bobbin disposed in the housing;
A base disposed under the bobbin;
A first driving part disposed on the bobbin;
A second driving part disposed on the housing and facing the first driving part;
An interference prevention member disposed on an upper surface of the upper plate of the case;
A cover member disposed on the interference prevention member; And
An elastic member including an inner elastic part coupled to the bobbin, an outer elastic part fixed between the interference preventing member and the cover member, and a connecting elastic part connecting the inner elastic part and the outer elastic part,
When a first driving current in a first direction is applied to any one of the first driving part and the second driving part, the bobbin moves in a first direction closer to the base along the optical axis direction,
The voice coil motor is formed such that the thickness of the interference preventing member in the optical axis direction is such that the connecting elastic portion of the elastic member does not contact the upper plate of the case. The method of claim 16,
When the bobbin moves in the first direction, at least a portion of the connecting elastic portion of the elastic member is disposed in a lower position than the outer elastic portion voice coil motor. The method of claim 16,
When the bobbin moves in the first direction, the voice coil motor is disposed at a position lower than the outer elastic portion of the elastic member of the inner elastic portion of the elastic member. The method of claim 16,
When the bobbin moves in the first direction, the connecting elastic portion of the elastic member overlaps the interference preventing member in the direction perpendicular to the optical axis direction. A case including a top plate and a side plate extending from the top plate;
A housing disposed in the case;
A bobbin disposed in the housing;
A base disposed under the bobbin;
A first driving part disposed on the bobbin;
A second driving part disposed on the housing and facing the first driving part;
A cover member disposed on the top plate of the case; And
A voice coil motor including an elastic member including an inner elastic part coupled to the bobbin, an outer elastic part, and a connecting elastic part connecting the inner elastic part and the outer elastic part.

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