KR101620566B1 - Camera Module Lens Assembly - Google Patents

Abstract

A camera module assembly is provided.
The present invention provides a lens barrel having at least one lens and a barrel housing having a focusing magnet and having a guide support portion for guiding the reciprocal movement of the lens barrel in the optical axis direction, An autofocusing unit that has a corresponding focusing coil and performs autofocus by the interaction between the focusing magnet and the focusing coil; And a coil plate mounted with the correcting magnet corresponding to the correction magnet mounted on the auto focusing section, wherein one end of the coil plate is connected to the auto focusing section so as to elastically support the coil plate while separating the auto focusing section from the coil plate, An image stabilizer for compensating for an unintentional hand movement by reciprocally moving the autofocusing unit in a direction orthogonal to the optical axis by interaction between the compensation magnet and the correction coil; And a second conductive pattern provided on the coil plate and electrically connected to the focusing coil, the first conductive pattern being electrically connected to the correction coil, the first conductive pattern being electrically connected to the first coil, And a power supply unit electrically connecting the pattern and the second conductive pattern.

Description

Camera Module Lens Assembly < RTI ID = 0.0 >

The present invention relates to a camera module assembly, and more particularly, to a camera module assembly that can easily electrically connect a camera shake correction coil used for camera shake correction and can supply power to an auto focusing coil used for auto focusing through a suspension wire Camera module assembly.

In general, camera modules are becoming smaller and more functional, and they are being installed in most portable IT devices, including mobile phones and tablet PCs, as high-resolution and high-resolution cameras can be implemented.

In this camera module, a camera module of a short focus type which shoots an object with a fixed focus is mainly used. However, recent technology development has made it possible to perform autofocus (AF) adjustment and to provide an optical image stabilizer ) Are being developed.

At present, the image stabilization function is mainly applied to a camera module mounted on a digital camera. As the size of the camera module becomes smaller, the size of the pixel becomes smaller, so that the receiving sensitivity of the image picked up by the image sensor becomes sensitive , The focus of an image captured by the image sensor is distorted even when a camera or a shutter of a mobile device is activated at the moment of a small camera shake, thereby preventing a sharp image from being obtained due to a decrease in image quality.

 In other words, the image stabilization device (OIS), together with an autofocus device (AF) component, forms a lens optical system in two directions perpendicular to the optical axis (Z-axis) (Z axis) perpendicular to the optical axis (Z axis), in order to increase the driving precision of the camera shake correction apparatus (OIS) Direction (X, Y), respectively.

In order to prevent deterioration in image quality due to camera shake of a user, the lens is moved in a direction perpendicular to the optical axis as the light passing through the lens of the optical system is generated by the deviation from the optical axis of the lens, so that the optical axis of the lens coincides with the incident path of light , The image sensor is moved in the direction perpendicular to the optical axis so that the optical axis is aligned with the incident path of the light received by the image sensor so that the camera shake correction is performed.

Korean Patent Laid-Open Publication No. 10-2013-0047350 discloses an image stabilization module that corrects camera shake by tilting the auto focusing module. However, since the auto focusing module is connected between the upper and lower elastic members and is elastically supported so as to be movable up and down, The camera shake correction module includes a coil block disposed on the side wall of the housing and a magnet disposed on an outer surface of the auto focusing module to move the auto focusing module in a tilting manner. Therefore, the optical path of the light received by the image sensor There is a problem that it is difficult to precisely and accurately perform the correction of the shaking motion.

In addition, the overall structure is complicated, and the process of electrically connecting the coil block to the external power source while mounting the coil block on the side wall of the housing is complicated, thereby reducing work productivity in the assembly line and also making it difficult to mass-produce the product.

Korean Patent Laid-Open Publication No. 10-2013-0062635 discloses a camera which includes a lens unit mounted on a housing, an camera-shake correction unit for correcting the movement of the lens unit relative to the housing, and a lens unit disposed between the housing and the lens unit for attenuating the movement of the lens unit by the camera- A camera module including a damping member is disclosed.

However, the camera shake correcting unit for correcting the movement of the lens lens unit caused by the hand movement of the user at the time of photographing using the conventional camera module requires a separate bobbin having the correcting magnet provided on the outer surface of the lens unit, The total volume is increased, and the number of components is increased, which has a limitation in reducing the manufacturing cost.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method for electrically connecting a coil for correcting a shaking motion, And it is an object of the present invention to provide a camera module assembly capable of precisely performing an operation of correcting an unintentional hand movement by moving the auto focusing section horizontally by an interaction between an electric field of a camera shake correction coil and a magnetic field of a camera shake correction magnet.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

As a specific means for achieving the above object, the present invention provides a lens barrel having at least one lens, a barrel housing having a focusing magnet and a guide support portion for guiding the reciprocating motion of the lens barrel in the optical axis direction An autofocusing unit that has a focusing coil corresponding to the focusing magnet on the guide unit and performs autofocusing by the interaction between the focusing magnet and the focusing coil; And a coil plate mounted with the correcting magnet corresponding to the correction magnet mounted on the auto focusing section, wherein one end of the coil plate is connected to the auto focusing section so as to elastically support the coil plate while separating the auto focusing section from the coil plate, An image stabilizer for compensating for an unintentional hand movement by reciprocally moving the autofocusing unit in a direction orthogonal to the optical axis by interaction between the compensation magnet and the correction coil; And a second conductive pattern provided on the coil plate and electrically connected to the focusing coil, the first conductive pattern being electrically connected to the correction coil, the first conductive pattern being electrically connected to the first coil, And a power supply unit electrically connecting the pattern and the second conductive pattern.

Preferably, the guide support portion is formed of a plate assembled to close an opening portion opened to one side of the barrel housing.

More preferably, the second conductive pattern includes a first connection pattern formed on an upper surface of the barrel housing, and a second connection pattern formed on an upper surface of the guide support and electrically connected to the first connection pattern And the second connection pattern is connected to an inner pattern provided on the inner side surface of the guide support portion so that the focusing coil is mounted.

More preferably, an end of the suspension wire is connected to a first connection hole formed at an upper end of the barrel housing so as to be electrically connected to the first connection pattern, and the other end of the suspension wire is electrically connected to the first conductive pattern To the second connection hole formed on the coil plate.

Preferably, the guide support portion includes a first plate body that is assembled to close an opening portion opened at one side of the barrel housing, and a through hole that exposes the lens barrel so as to cover the upper portion of the barrel housing, And a second plate body bent from the sieve.

More preferably, the second conductive pattern has a connection pattern formed on the second plate body and extending to the first plate body, and the connection pattern is formed on the inner surface of the first plate body so that the focusing coil is mounted thereon It is connected to the internal pattern.

More preferably, an upper end of the suspension wire is connected to a third connection hole formed in the second plate body so that one end of the suspension wire is electrically connected to the connection pattern, and the other end of the suspension wire is electrically connected to the first conductive pattern And connected to the second connection hole formed on the coil plate.

More preferably, the connection pattern is provided on an outer surface of the second plate body or an inner surface of the second plate body.

Preferably, the barrel housing or the coil plate is protruded from the lower surface of the barrel housing at a predetermined height so that the lower end thereof contacts the upper surface of the coil plate, or the upper end of the barrel housing or the coil plate contacts the lower end of the barrel housing, And at least one stopper protruding from the upper surface of the coil plate at a predetermined height to prevent deflection.

Preferably, the correction magnet includes a first magnet and a second magnet disposed adjacent to a lower surface of the barrel housing, the correction coil includes a first coil mounted on a coil plate corresponding to the first magnet, And a second coil mounted on an upper surface of the coil plate corresponding to the second magnet.

More preferably, the first magnet and the second magnet are disposed in the first and second magnet arrangement grooves formed in the lower surface of the barrel housing.

The present invention as described above has the following effects.

(1) By providing the suspending wire which electrically connects the first conductive pattern of the coil plate and the second conductive pattern of the auto-focusing portion so that the auto focusing portion can be moved, the optical axis of the lens It is possible to obtain a high-quality image by performing the correction of the shaking motion that matches the image sensor more accurately.

(2) By easily mounting the correction coil of the camera shake correction unit to the first conductive pattern formed on the coil plate and electrically connecting them, the operation of electrically connecting the correction coil used for the shake correction can be performed more simply and quickly, Can be improved.

(3) The use of the substrate on which the correction coil is mounted is eliminated, and power is supplied to the focusing coil through the suspension wire, thereby reducing the overall number of constituent parts and reducing the manufacturing cost.

1 is an overall perspective view illustrating a camera module assembly according to a first embodiment of the present invention.
2 is an exploded perspective view illustrating a camera module assembly according to a first embodiment of the present invention.
FIGS. 3A and 3B are perspective views illustrating a guide support part used in a camera module assembly according to a first embodiment of the present invention.
4 is a perspective view of a barrel housing and a coil plate employed in a camera module assembly according to a first embodiment of the present invention.
5 is an overall perspective view illustrating a camera module assembly according to a second embodiment of the present invention.
6 is an exploded perspective view illustrating a camera module assembly according to a second embodiment of the present invention.
FIGS. 7A and 7B are perspective views illustrating a guide support part used in a camera module assembly according to a second embodiment of the present invention.
8 is a perspective view showing a barrel housing and a coil plate used in a camera module assembly according to a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

1 to 4, the camera module assembly 1000 according to the first embodiment of the present invention includes an autofocusing unit 100 that performs an autofocus function in the optical axis direction, And includes a shake correction unit 200 and a power supply unit 300 that perform the shake correction function.

1 to 3B, the autofocusing unit 100 includes a lens barrel 110, a barrel housing 120, and a guide support unit 130. The lens barrel 110 includes an inner space And at least one lens in the direction of the optical axis.

A lens barrel 112 is formed on the upper surface of the lens barrel 110 so as to expose a built-in lens. A focusing magnet 114, which is a permanent magnet on a substantially rectangular plate- ).

The lens barrel 110 is provided at its left and right sides with a substantially vertical guiding portion 116 for guiding movement of the lens barrel 110 in the optical axis direction corresponding to the guided portion 136 of the guiding support portion 130 do.

The barrel housing 120 has an inner space of a predetermined size to accommodate the lens barrel 110 movably in the optical axis direction and has an opening 129 opened at one side thereof corresponding to the guide support 130 A box-like structure on a substantially rectangular parallelepiped.

The barrel housing 120 includes a lens barrel 110 that moves in the optical axis direction by recessing the vertical guide groove 122 so as to restrict the downward movement while guiding the guide protrusion 111 protruding from the outer surface of the lens barrel, So that the lower end of the barrel housing 120 can be prevented from being in contact with the bottom surface of the barrel housing 120. The barrel housing 120 penetrates the through hole 124 on the bottom surface corresponding to the image sensor.

The guide support part 130 is formed of a substantially rectangular plate having an assembly groove 135 corresponding to a pair of right and left assembling steps 125 so as to close an opening 129 opened on one side of the barrel housing 120 .

On both right and left sides of the guide support part 130, there are provided a pair of right and left guide projections formed on the lens barrel 110 so as to support the lens barrel 110 disposed in the barrel housing in the direction of the optical axis, 136).

Between the guide portions 116 formed on the left and right sides of the lens barrel 110 and the guide holes 136 formed on both left and right sides of the guide support portion 130, a lens barrel serving as a movable member to the barrel housing, At the same time, at least one friction reducing member 137 such as a steel ball can be disposed so as to reduce the friction generated between the guide portion and the inside of the plane.

It is preferable that the friction reducing member 137 is disposed so as to be difficult to be separated from the groove formed in any one of the guide portion and the guide portion.

The upper end of the guide groove 130 of the guide support part 130 interferes with the upper end of the guide part 116 formed in the lens barrel 110 to limit the upward movement of the lens barrel 110, It is preferable to provide a hook 136a.

A focusing coil 134 is disposed on an inner surface of the guide support 130 corresponding to the focusing magnet 114 provided at one side of the lens barrel 110. The electric field of the focusing coil 134 The lens barrel 110 disposed in the barrel housing 120 can be driven in the optical axis direction by the external force generated by the interaction between the magnetic fields of the focusing magnet 114.

The guide support part 130 forms an inner pattern 323 to be described later so that the focusing coil 134 can be electrically mounted on an inner surface of the guide support part 130. The inner pattern 323 detects the position of the lens barrel And a position sensor 134a for focusing can be mounted.

At least one yoke 132 is provided on the outer surface of the guide support 130 to induce a magnetic field generated by the focusing magnet 114 toward the focusing coil 134 to increase the interaction between the magnetic field and the electric field. ).

The yoke 132 may be integrally formed on the outer surface of the guide support portion formed by resin molding or may be fixedly installed in a yoke arrangement groove formed on the outer surface of the guide support portion.

2 and 4, the camera-shake correcting unit 200 includes a correction magnet 210 provided in the auto-focusing unit 100 and a camera- And a correction coil 230 provided on the coil plate 220.

Accordingly, due to the interaction between the magnetic field generated by the correction magnet 210 and the electric field generated by the correction coil 230, the autofocusing unit 100 is reciprocated in the direction orthogonal to the optical axis to correct the camera shake will be.

The correction magnet 210 includes a first magnet 211 and a second magnet 212 fixedly installed adjacent to a lower surface corner of the barrel housing 120 and having a magnetic force of a predetermined intensity, The correction coil 230 includes a first coil 231 mounted on an upper surface of the coil plate 220 corresponding to the first magnet 211 and a coil plate 220 corresponding to the second magnet 212 And a second coil 232 mounted on the upper surface of the second coil 232. [

The correction magnet 210 including the first magnet 211 and the second magnet 212 reduces the vertical distance between the barrel housing 120 of the auto focusing unit and the correction coil 230 of the hand shake correcting unit, 128b formed in the lower surface of the barrel housing 120 so as to reduce the overall volume of the module assembly.

The coil plate 220 on which the correction coil 230 is mounted penetrates through an exposure hole 222 in a region corresponding to the image sensor mounted on the main substrate and is connected to the first and second coils of the correction coil 230 231, and 232, and a first conductive pattern 310 electrically connected to the first conductive pattern 310 to supply external power.

The coil plate 220 is provided at a position adjacent to the first and second coils 231 and 232 of the correction coil 230 to sense the position of the autofocusing unit 100, And correction position sensors 231a and 231b for sensing the direction of the vehicle.

The positional information sensed by the position sensors 231a and 231b is mounted on the first conductive pattern 310 of the coil plate 220 together with the correction coil, Lt; / RTI >

The correction position sensors 231a and 231b can selectively use either a Hall sensor or a Photo Reflector Sensor in addition to the focusing position sensor 134a, . This characteristic has been widely used for measuring the position of the driving unit of the autofocus device including the magnet and the coil. The magnet of the autofocus device driving unit, which is mainly composed of a magnet and a coil, may be used as an opposite magnet of the hall sensor, or a third hall sensor exclusive magnet may be further provided.

The photo-reflector sensor emits a certain amount of light from the sensor itself and is reflected by a reflection plate provided at a position opposite to the sensor. Then, the photo-reflector sensor measures the amount or intensity of light entering the sensor, Which is a change in the optical axis of the lens barrel, and a shift in position of the auto-focusing unit.

A vertical gap is maintained between the barrel housing of the autofocusing unit 100 and the correction coil of the coil plate 220 at each corner of the coil plate 220 and the lens is driven in the optical axis direction, A plurality of suspension wires 240 having a predetermined length for resiliently supporting the autofocusing unit 100 such that the autofocusing unit 100 can move horizontally in a direction orthogonal to the optical axis.

The upper end of the plurality of suspension wires 240 is inserted and connected to the first connection hole 121 formed at the edge of the barrel housing 120 and the lower end of the suspension wire 240 is connected to the edge of the coil plate 220 And the second connection holes 142 formed in the first and second connection portions.

The suspension wire 240 may be made of a conductive metal material so as to electrically connect a first conductive pattern and a second conductive pattern to be described later or may be formed of a resin material having an outer surface coated with a conductive material, Lt; / RTI >

In addition, the barrel housing 120 is provided with a contact (not shown) for interference between the barrel housing 120 and the coil plate 220 or a component such as a correction coil mounted thereon when the barrel housing 120 is moved by the interaction between the correction coil and the correction magnet. It is preferable that at least one stopper 127 is provided to prevent the barrel housing from sagging while the lower end thereof is in contact with the upper end of the coil plate 220 so as to prevent the barrel housing from sagging.

  The stopper 127 is formed to protrude from the lower surface of the barrel housing at a predetermined height. However, the stopper 127 is not limited thereto. The stopper 127 may be formed on the lower surface of the barrel housing, As shown in FIG.

The power supply unit 300 is formed on the upper surface of the coil plate 220 so that the first and second coils 231 and 232 of the correction coil 230 are mounted and electrically connected to each other, And a second conductive pattern 320 including a first conductive pattern 310 and formed on the auto focusing portion 100 to be electrically connected to the focusing coil 134.

The first conductive pattern 310 and the second conductive pattern 320 are electrically connected to each other via a suspension wire 240 made of a conductive material so that the first conductive pattern 310 and the second conductive pattern 320 Is supplied to the focusing coil (134) so as to be supplied to the second conductive pattern (320) through the suspension wire (240) and move in the optical axis direction of the lens barrel.

The second conductive pattern 320 formed on the auto focusing part 100 includes a first connection pattern 321 formed on a top surface of the barrel housing 120 in a predetermined pattern, And a second connection pattern 322 formed in a predetermined pattern on the outer surface of the guide supporter 130 and electrically connected to the first connection pattern 321.

At this time, the upper surface of the barrel housing 120 is provided with an enlarged surface having a width relatively larger than the thickness of the barrel housing so as to secure a sufficient area for forming the first connection pattern 321 .

The second connection pattern 322 is connected to an inner pattern 323 formed on the inner surface of the guide support 130 and electrically connected to the focusing coil 134. The inner pattern 323 is provided with focusing And a position sensor 134a for electrically transmitting the detection signal can be transmitted.

The inner pattern 323 formed on the inner side surface of the guide support part 130 is connected to the second support part 130 formed on the outer surface of the guide support part 130 via a conductive via hole 323a formed in the guide support part 130. [ And may be electrically connected to the connection pattern 322.

The first connection pattern 321 formed on the barrel housing 120 and the second connection pattern 322 formed on the guide support 130 may be formed as a combination of the barrel housing 120 and the guide support 130, The end portions facing each other can be electrically connected and connected to each other in a contact manner.

At this time, between the barrel housing 120 and the guide support part 130, there is formed a guide support part 130 which is assembled to the opening of the barrel housing while ensuring stable electrical connection between the first connection pattern and the second connection pattern, And can be connected via a conductive adhesive so as to fix the position.

One end of the suspension wire 240 positioned between the auto focusing unit 110 and the coil plate 220 is formed at an upper end of the barrel housing 120 to be electrically connected to the first connection pattern 321 The other end of the suspension wire 240 is connected to the first connection hole 121 and is connected to the second connection hole 121. The other end of the suspension wire 240 is electrically connected to the first conductive pattern 310, And is inserted and connected to the connection hole 241.

In this case, one end of the suspension wire 240 inserted corresponding to the first connection hole 121 may be electrically connected while bonding and bonding with a conductive adhesive, and the first connection pattern 321 may be electrically connected to the suspension wire The first conductive pattern 310 extends to the inner surface of the first connection hole 121 so as to ensure electrical connection and the first conductive pattern 310 extends to the inner surface of the second connection hole 241. [

The first conductive pattern 310 and the second conductive pattern 320 are formed on the surfaces of the coil plate 220, the barrel housing 120 and the guide support 130, which are injection molded by the resin injected into the cavity of the mold, Can be precisely provided by a MID (Molded Interconnect Device) method in which a predetermined pattern is selectively formed by using a laser in a first order and then a conductive pattern is formed in a second order using electroless plating.

Although the second conductive pattern 320 is illustrated as being formed by the MID method on the barrel housing 120 and the guide support 130, the present invention is not limited thereto. The FPCB provided on the barrel housing A second connection pattern pattern-printed on another FPCB provided on the upper portion of the guide support portion, and a second connection pattern formed on another FPCB provided on the inner surface of the guide support portion, Pattern.

The main board 400 on which the image sensor 410 is mounted is disposed directly below the coil plate 220 so that the light incident through the lens barrel is incident on the sensor surface of the image sensor, .

The autofocusing unit 100 and the camera shake correcting unit 200 are formed by passing a circular hole 142 through an upper surface corresponding to the lens barrel and by a box-shaped shield can 140 opened downward The shield can 140 is provided at its lower end with a retaining piece 144 for resiliently engaging with a retaining protrusion 226 formed on the outer side of the coil plate 220.

5 to 8, the camera module assembly 1000a according to the second embodiment of the present invention includes an autofocusing unit 100 that performs an autofocus function in the optical axis direction as in the first embodiment, The same reference numerals are given to the same components as those including the shake correction unit 200 and the power supply unit 300 that perform the shake correction function in the direction orthogonal to the optical axis, and the detailed description thereof will be omitted.

The guide supporting part 130 assembled to the barrel housing of the auto focusing part 110 is coupled to a pair of right and left assembling steps 125 to close the opening 129 opened on one side of the barrel housing 120 A first plate body 130a having an assembly groove 135 and a through hole 131 for exposing the lens barrel are formed and a second plate body 130b bent from the first plate body to cover the upper portion of the barrel housing ).

On both left and right sides of the first plate body 130a of the guide support part 130, a pair of right and left guide parts formed on the lens barrel 110 for guiding the lens barrel 110 disposed in the barrel housing in the optical axis direction And includes a pair of right and left inner surfaces 136.

Between the guiding portions 116 formed on the left and right sides of the lens barrel 110 and the guided portions 136 formed on both sides of the first plate of the guide plate 130, At least one friction reducing member 137 such as a steel ball can be disposed so as to reduce the friction generated between the guiding portion and the guided portion of the lens barrel at the same time.

It is preferable that the friction reducing member 137 is disposed so as to be difficult to be separated from the groove formed in any one of the guide portion and the guide portion.

A focusing coil 134 is disposed on the inner surface of the first plate 130a of the guide support 130 corresponding to the focusing magnet 114 provided on one side of the lens barrel 110, The lens barrel 110 disposed in the barrel housing 120 can be driven in the optical axis direction by an external force generated by an interaction between the electric field of the focusing magnet 134 and the magnetic field of the focusing magnet 114.

An inner pattern 323 to be described later is formed on the inner surface of the first support body 130 so that the focusing coil 134 can be electrically mounted on the inner surface of the lens barrel. And a focusing position sensor 134a for sensing a focusing position of the subject.

The magnetic field generated by the focusing magnet 114 may be directed to the focusing coil 134 on the outer surface of the first plate 130a of the guide support 130 to increase the interaction between the magnetic field and the electric field. And may include at least one yoke 132.

The yoke 132 may be integrally formed on the outer surface of the guide support portion formed by resin molding or may be fixedly installed in a yoke arrangement groove formed on the outer surface of the guide support portion.

The second plate body 130b has a rectangular shape that is bent at a substantially right angle from the top of the first plate body so as to cover the upper portion of the corresponding barrel housing corresponding to the remaining area except for the inner space arranged to move the lens barrel in the direction of the optical axis. It can be made of a plate.

The second plate body 130b interferes with the upper end of the guide portion 116 formed on the lens barrel 110 to limit the upward movement of the lens barrel 110 as the movable member.

6 and 8, the camera-shake correcting unit 200 includes a correction magnet 210 provided on the auto-focusing unit 100 and a camera- And a correction coil 230 provided on the coil plate 220.

Accordingly, due to the interaction between the magnetic field generated by the correction magnet 210 and the electric field generated by the correction coil 230, the autofocusing unit 100 is reciprocated in the direction orthogonal to the optical axis to correct the camera shake will be.

The coil plate 220 on which the correction coil 230 is mounted penetrates through an exposure hole 222 in a region corresponding to the image sensor mounted on the main substrate and is connected to the first and second coils of the correction coil 230 231, and 232, and a first conductive pattern 310 electrically connected to the first conductive pattern 310 to supply external power.

A vertical gap is maintained between the barrel housing of the autofocusing unit 100 and the correction coil of the coil plate 220 at each corner of the coil plate 220 and the lens is driven in the optical axis direction, A plurality of suspension wires 240 having a predetermined length for resiliently supporting the autofocusing unit 100 such that the autofocusing unit 100 can move horizontally in a direction orthogonal to the optical axis.

One end of the plurality of suspension wires 240 is inserted and connected to the third connection hole 131a formed at the corner of the second plate body 130b and the other end of the suspension wire 240 is connected to the coil plate 220 And may be inserted and connected to the second connection holes 142 formed in the corners, respectively.

The power supply unit 300 is formed on the upper surface of the coil plate 220 so that the first and second coils 231 and 232 of the correction coil 230 are mounted and electrically connected to each other, And a second conductive pattern 320 including a first conductive pattern 310 and formed on the auto focusing portion 100 to be electrically connected to the focusing coil 134.

The first conductive pattern 310 and the second conductive pattern 320 are electrically connected to each other via a suspension wire 240 made of a conductive material so that the first conductive pattern 310 and the second conductive pattern 320 Is supplied to the focusing coil (134) so as to be supplied to the second conductive pattern (320) through the suspension wire (240) and move in the optical axis direction of the lens barrel.

The second conductive pattern 320 formed on the auto focusing part 100 is formed on the upper surface of the second plate body 130b of the guide support part in a predetermined pattern to form a connection pattern 324 ).

The connection pattern 324 is connected to an internal pattern 323 formed on the inner surface of the first plate body 130a of the guide supporter 130 and electrically connected to the focusing coil 134, 323 may be electrically mounted with a focusing position sensor 134a to transmit a sensing signal.

The inner pattern 323 formed on the inner surface of the guide support part 130 is formed on the outer surface of the second plate body 130b via the conductive via hole 323a formed in the guide support part 130, The connection pattern is formed on the inner surface of the second plate member 130b and extends to the inner surface of the first plate member 130b. So that a series of pattern circuits can be formed.

One end of the suspension wire 240 positioned between the auto focusing unit 110 and the coil plate 220 is electrically connected to the connection pattern 324 formed on the second plate body 130b, The other end of the suspension wire 240 is connected to a second connection hole 241 formed in the coil plate 220 and electrically connected to the first conductive pattern 310 And connected and connected.

At this time, one end of the suspension wire 240 inserted corresponding to the third connection hole 131a may be electrically connected while bonding and bonding through a conductive adhesive, and the connection pattern 324 may be electrically connected to the suspension wire And the first conductive pattern 310 may extend to the inner surface of the second connection hole 241. The second connection hole 241 may be formed on the inner surface of the third connection hole 131a.

The second conductive pattern 320 is formed on the barrel housing 120 and the guide support 130 by the MID method. However, the second conductive pattern 320 is not limited to the FPCB, And a pattern printed on the FPCB provided on the inner surface of the first plate member to mount the focusing coil on the inner pattern.

When power is supplied to the correction coil 230 through the first conductive pattern 310 of the camera module assembly 1000 or 1000a having the above-described configuration, by the interaction between the electric field of the correction coil and the magnetic field of the correction magnet The auto focusing unit 100 connected to the coil plate via the suspension wire is reciprocated in the horizontal direction orthogonal to the optical axis so that the lens provided in the auto focusing unit moved by the camera shake coincides with the optical axis, The camera-shake correction is performed so that the incident light can be clearly incident on the incident surface of the sensor.

In addition, when power is supplied to the focusing coil of the auto focusing unit through the second conductive pattern 320 connected to the first conductive pattern supplied with external power through the suspension wire, the electric field of the focusing coil The lens barrel provided in the barrel housing is moved in the optical axis direction by the interaction between the magnetic fields of the magnet so that the image of the subject can be clearly incident on the incident surface of the image sensor.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

100; Auto focusing part
110: lens barrel
114; Magnet for focusing
116:
120: barrel housing
121: first connection hole
122: vertical guide groove
125: assembly jaw
130:
130a:
130b: second sheet body
132: York
134: Coils for focusing
136: inside the circle
200:
210: Magnet for correction
211,212: 1st and 2nd magnets
220: coil plate
230: Correction coil
231,232: first and second coils
240: suspension wire
300: Power supply
310: first conductive pattern
320: second conductive pattern
321: First connection pattern
322: Second connection pattern
323: Internal pattern
324: Connection pattern

Claims (11)

And a barrel housing provided with a focusing magnet on a lens barrel having at least one lens and having a guide support portion for guiding the reciprocating motion of the lens barrel in the optical axis direction, An autofocusing unit having a coil and performing autofocus by the interaction between the focusing magnet and the focusing coil;
And a coil plate mounted with the correcting magnet corresponding to the correction magnet mounted on the auto focusing section, wherein one end of the coil plate is connected to the auto focusing section so as to elastically support the coil plate while separating the auto focusing section from the coil plate, An image stabilizer for compensating for an unintentional hand movement by reciprocally moving the autofocusing unit in a direction orthogonal to the optical axis by interaction between the compensation magnet and the correction coil; And
A first conductive pattern electrically connected to the correction coil is provided on the coil plate and a second conductive pattern electrically connected to the focusing coil is provided on the auto focusing portion, And a power supply unit electrically connecting the first conductive pattern and the second conductive pattern,
Wherein the guide support portion includes a first plate body that is assembled to close an opening portion opened at one side of the barrel housing and a through hole that exposes the lens barrel so as to be bent from the first plate body to cover the upper portion of the barrel housing, The second plate body being made of a metal material,
The second conductive pattern includes a connection pattern formed on the second plate body and extending to the first plate body. The connection pattern is connected to an internal pattern formed on the inner surface of the first plate body, The camera module assembly comprising: delete delete delete delete delete The method according to claim 1,
Wherein one end of the suspension wire is connected to an upper end of the third connection hole formed in the second plate such that the one end of the suspension wire is electrically connected to the connection pattern and the other end of the suspension wire is electrically connected to the first conductive pattern, And a second connection hole formed in the second connection hole. The method according to claim 1,
Wherein the connection pattern is provided on an outer surface of the second plate body or an inner surface of the second plate body. The method according to any one of claims 1, 7, and 8,
The barrel housing or the coil plate is formed with a coil spring which is formed at a predetermined height from the lower surface of the barrel housing so that the lower end of the coil plate is in contact with the upper surface of the coil plate or an upper end thereof contacts the lower surface of the barrel housing, And at least one stopper protruding from the upper surface of the coil plate at a predetermined height. The method according to any one of claims 1, 7, and 8,
Wherein the correction magnet includes a first magnet and a second magnet disposed adjacent to a lower surface of the barrel housing, the correction coil includes a first coil mounted on a coil plate corresponding to the first magnet, And a second coil mounted on an upper surface of the coil plate corresponding to the second coil. 11. The method of claim 10,
Wherein the first magnet and the second magnet are disposed in the first and second magnet arrangement grooves formed in the lower surface of the barrel housing.

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