KR20180042948A - Fpcb with suspension structure and optical actuator using it - Google Patents

Abstract

An FPCB having a suspension structure according to the present invention includes a movable body including a driving module and a lens driven by an applied power source and a camera actuator including a housing for accommodating the moving body, A first connection part exposed to the outside and installed in the housing; A second connection part electrically connected to a power supply terminal of the driving module; And a connection part connecting the first connection part and the second connection part and having a suspension part bent in one or more curved lines or a straight line.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an FPCB having a suspension structure and an optical actuator using the FPCB,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an FPCB applied to an optical actuator, and an optical actuator using the FPCB. More particularly, the present invention relates to an FPBC having a suspension structure to improve the movement efficiency of a moving object including a lens.

As the hardware technology for image processing has been developed and the user needs for image shooting have increased, there has been an increasing demand for autofocus (AF), etc. in camera modules mounted on mobile terminals such as mobile phones, smart phones, And OIS (Optical Image Stabilization).

The autofocus function adjusts the focal distance with the subject by linearly moving the lens or the assembly equipped with the lens in the optical axis direction so that a clear image is generated on the image sensor (CMOS, CCD, etc.) .

There are various methods of implementing the autofocus function. As a typical method, a magnet (permanent magnet) is installed on an AF carrier (or a movable body), a coil is installed on a fixed body (such as a housing or another type of carrier) , And moving the moving body in the direction of the optical axis by generating an electromagnetic force in a coil (provided in the fixed body) and a magnet (provided in the moving body) by a power source applied to the coil with an appropriate size for the coil.

The stabilization technique is a technique to overcome the image deterioration phenomenon caused by the camera shake of the photographer. The stabilization technique is a technique for improving the image by processing through the software or the like on the captured image, such as Digital Image Stabilization (DIS) Optical Image Stabilization (OIS) technology is used to physically correct the position of a lens or image element generated by image stabilization (EIS) and camera shake, thereby preventing a disturbance in an image of a subject generated in the image sensor have.

In the optical image correction technique, when a motion caused by a hand movement occurs in a moving object equipped with a lens, a method of moving the moving object in a direction compensating the movement (two directions perpendicular to the optical axis) is used. The electromagnetic force between the coil and the magnet is mainly used, and the AF or the OIS is driven by the position control by the Hall sensor more precisely.

The moving object on which the lens is mounted is provided with an iris (IRIS, APERTURE) for controlling the amount of light such as a human iris, which is usually driven by an external power source.

As described above, in the camera module in recent years, the lens is not implemented in a fixed form to a specific member but is mainly mounted on a moving body moving in the direction of the optical axis or the direction perpendicular to the optical axis direction. In the moving body, Respectively.

Therefore, the camera module or the actuator must include a structure for applying external power to the driving units mounted in the moving body continuously moving, and a configuration for interfacing the control signal when the hall sensor or the like is provided in the moving body.

Conventionally, in order to apply a power source or the like to a movable body moving in this way, there is used a method of connecting an external (a circuit board of a fixed body) and an electric line having a length considering the moving distance of the moving body between the moving body. However, And the position of the lens is not determined. Thus, there is a problem that the rear surface of the lens is covered.

In addition, when the outside and the moving body are connected by a simple wiring, precise movement of the moving body may be hindered by load and tension of the wiring, and tilt defect of the moving body is apt to occur.

Furthermore, conventionally, a method of applying external power to a moving object by using other conductive structures provided in the camera module is also used. In this case, since an artificial structure change must be performed in order to apply power, , And can cause considerable inefficiency in the assembly process and the like.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an FPCB having a structure in which a shape of a camera module can be adaptively changed as a mobile body moves, And it is an object of the present invention to provide an FPCB having a suspension structure capable of minimizing precise movement of a moving object and minimizing a tilt defect of a moving object.

Other objects and advantages of the present invention will become apparent from the following description, and it will be apparent from the description of the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by a combination of the constitution shown in the claims and the constitution thereof.

In order to achieve the above object, an FPCB having a suspension structure according to the present invention includes a movable body including a driving module and a lens driven by an applied power source, and a housing for housing the movable body, Wherein the FPCB is interfaced with the driving module, the FPCB being exposed to the outside and being installed in the housing; A second connection part electrically connected to a power supply terminal of the driving module; And a connection portion connecting the first connection portion and the second connection portion and having a suspension portion having a shape bent in at least one curved line or a straight line.

The suspension part of the present invention preferably includes at least one shape extending from the first connection part toward the second connection part and at least one shape extending from the second connection part toward the first connection part.

According to an embodiment, the suspension unit of the present invention includes: a first suspension unit connected to the first connection unit and configured to extend from the first connection unit toward the second connection unit; And a second suspension unit connected to the first suspension unit and extending in the direction of the first connection unit. In this case, the second connection unit may be connected to the second suspension unit.

The suspension unit may include a first suspension unit connected to the first connection unit and extending from the first connection unit toward the second connection unit, A second suspension part connected to the first suspension part and extending in the direction of the first connection part; And a third suspension unit connected to the second suspension unit and extending in the direction of the second connection unit. In this case, the second connection unit may be connected to the third suspension unit.

In this case, the first suspension part of the present invention extends from both sides of the first connection part on the basis of the center part of the first connection part, the second suspension part extends outwardly of the first suspension part, And the second connecting portion of the present invention may be provided so as to be folded at the end of the third suspension portion.

Also, the moving body of the present invention may be moved in the direction of the optical axis for automatic focus adjustment. In this case, the second connecting portion of the present invention may include a portion where the movement of the moving body in the optical axis direction is physically supported So that it is electrically connected to the power supply terminal of the drive module.

According to a preferred embodiment of the present invention, even if the moving object of the camera module frequently moves, the entire position and shape can be maintained as it is predicted, so that the physical contact or collision with other components in the camera module can be originally .

In addition, according to the present invention, even if the moving body moves in the up and down direction, a suspension structure that adaptively accommodates the movement is applied, so that the physical resistance force due to the moving body can be minimized so that precise driving of the moving body can be maintained, And the pulling force of the moving body can be dispersed, so that the horizontal tilting defect of the moving body can be minimized.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the detailed description of the invention given below, serve to better understand the technical idea of the invention, And shall not be construed as limited to such matters.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an overall configuration of an FPCB and a camera actuator including the FPCB according to a preferred embodiment of the present invention;
2 is a view showing an FPCB and other configurations according to a preferred embodiment of the present invention,
3 is a view showing a detailed configuration of an FPCB according to a preferred embodiment of the present invention,
4 is a view showing the FPCB of the present invention in which the structure is adaptively accommodated according to the movement of the moving body,
5 and 6 are views showing an FPCB according to another preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

FIG. 1 is a view showing an overall configuration of an FPCB 100 (hereinafter referred to as 'FPCB') having a suspension structure and a camera actuator 1000 including the same according to a preferred embodiment of the present invention.

1, the camera actuator 1000 of the present invention may include an FPCB 100, a moving object 200, a housing 300, and a cover 500.

The housing 300 corresponds to an outer case that protects the internal structure of the camera actuator 1000 together with the cover 500. The moving body 200 is moved in the optical axis direction (Z-axis direction) (X-axis direction and Y-axis direction) perpendicular to the optical axis for moving or correcting the camera shake (OIS).

The moving body 200 is accommodated in the housing 300 and corresponds to an object moving in the optical axis direction or in the direction perpendicular to the optical axis for automatic focusing or correction for camera shake. The moving object 200 is provided with a lens 210. Since the moving object 200 moves the lens 210 together with its physical movement, automatic focusing or camera shake correction is performed.

In this respect, the housing 300 corresponds to a fixed body in relation to the moving body 200, and the moving body 200 corresponds to a moving object moving on the basis of the fixed housing 300.

A driving module (not shown) driven by an external power source is provided inside the moving body 200. The driving module may be a diaphragm drive unit for physically driving the plate to adjust the amount or time of light entering the lens. The driving module may include a coil for generating an electromagnetic force by an applied power source, The camera-shake correction driving unit may be a camera-shake correction driving unit.

Further, in the case of an embodiment in which the AF is implemented in the form of having a permanent magnet in the fixture and a coil in the moving object, the drive module may be an autofocus drive unit. As described above, the driving module included in the moving object 200 of the present invention can be implemented in various forms as long as it is a unit driven by an externally applied power source.

It should be understood that the lens 210 of the present invention may be realized in the form of a single lens, a plurality of lenses, or a barrel together with a case, as well as a lens group together with other optical devices.

The FPCB 100 of the present invention corresponds to a configuration for interfacing a drive control signal for controlling an external power supply or a drive module to the drive module and may be applied to other devices to which the camera actuator 1000 of the present invention is applied A smart phone, etc.), it is preferable that one end of the FPCB 100 is exposed to the outside as shown in FIG. 1 for efficient electrical connection with the main board.

FIG. 2 is a view showing an FPCB 100 according to a preferred embodiment of the present invention and other configurations. FIG. 2 is a bottom perspective view of the camera actuator 1000 of the present invention in which the housing 300 is removed from the view shown in FIG.

2, according to an embodiment of the present invention, an AF driver 400 may be provided in the housing 300 (fixed body). By driving processing of the AF driver 400, (200) moves up and down in the optical axis direction.

The AF driver 400 controls the power of a proper size and direction to be applied by using a Hall sensor for sensing the position of a magnet provided on the mobile object 200, that is, a position of the mobile object 200, And a driving driver 410. The Hall sensor and the driving driver may be implemented in separate configurations and may be implemented integrally with the single chip 410 as shown in FIG.

The AF driver 400 may include a coil 420 for generating an electromagnetic force by an external power source and an AF circuit board 430 on which the coil 420 and the driver 410 are mounted. A yoke 440 may be provided on the rear surface of the substrate 430 to generate magnet and attraction force of the movable body 200.

The moving body 200 moves up and down according to the driving of the AF driving unit 400. In this case, since the driving unit mounted on the moving body 200 must perform iris driving, OIS driving, or the like, 200 is required. The FPCB 100 of the present invention corresponds to a configuration for performing the function of applying an external power source to the moving body 200 to be moved.

Hereinafter, a detailed configuration of the FPCB 100 according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a diagram showing a detailed configuration of the FPCB 100 according to a preferred embodiment of the present invention. As shown in FIG. 3, the FPCB 100 of the present invention includes a first connection unit 110, a second connection unit 120, and a connection unit 130.

The first connection part 110 of the FPCB 100 functions as a terminal exposed to the outside as described with reference to FIG. 1 and the like. The first connection part 110 of the FPCB 100 is connected to the housing 300 of the present invention corresponding to a fixed body in a relative relation with the mobile body 200 Respectively.

The second connection unit 120 of the FPCB 100 is electrically connected to the mobile unit 200 and specifically includes a driving module provided inside the mobile unit 200 through a through hole formed in the mobile unit 200, And corresponds to a portion electrically connected to the power supply terminal.

The connection part 130 of the FPCB 100 is a part for connecting the first connection part 110 and the second connection part 120 and has a shape bent in at least one curved line or a straight line, (131).

3, the suspension unit 131 includes at least one shape extending from the first connection unit 110 to the second connection unit 120 and at least one shape extending from the second connection unit 120 to the first connection unit 110 One or more shapes that extend may be combined. The extending shape may be a linear shape most commonly, but may be implemented in various shapes including a combination of a straight line and a curved shape as shown in the drawings according to an embodiment.

Specifically, the suspension unit 131 of the present invention may include a first suspension unit 132, a second suspension unit 133, and a third suspension unit 134.

The first suspension part 132 is connected to the first connection part 110 and extends from the first connection part 110 in the direction of the second connection part 120. The second suspension part 133 has a shape And has a shape that is connected to the suspension part 132 and extends in a direction opposite to the first suspension part 132, that is, in the direction of the first connection part 120.

Further, the third suspension part 134 is connected to the second suspension part 133 and has a shape in which the extension direction thereof is turned again to extend in the direction of the second connection part 120. In this case, the second connection part 120 of the present invention is connected to the third suspension part 134.

According to the embodiment, the third suspension unit 134 may be omitted. In this case, the second connection unit 120 corresponding to the part electrically connected to the driving unit 200, that is, the driving module provided in the moving unit 200, And may be connected to the second suspension unit 133.

The second connection part 120 may be one of the ends of the connection part 130 and may be an end part of the connection part 130 so as to be electrically connected to the driving module inside the mobile device 200, 200 may have various structures and shapes depending on the shape, structure, and the like of the holes and terminals formed outside.

The camera actuator 1000 according to the present invention includes a lens 210 mounted on a center portion of the camera actuator 1000. Light incident on an image pickup device (CCD, CMOS, etc.) It should not be blocked or blocked.

A method of applying an external power source to a moving object 200 by using wiring or the like has conventionally been used. Therefore, when the position of a wiring is moved to the rear surface of the lens due to frequent movement of the moving object 200, Lt; / RTI >

The present invention is adapted to adaptively change the movement of the mobile body 200 and to prevent the position of the mobile body 200 from being changed so as to more effectively solve such a problem.

3 and 4, the first suspension part 132 of the present invention is configured to extend from both sides of the first connection part 110 with respect to the center part of the first connection part 110, The second suspension part 133 extends outwardly of the first suspension part 132 to secure a space in the middle part. Furthermore, when the third suspension unit 134 is further included according to the embodiment, the third suspension unit 134 is configured to extend in the outward direction of the second suspension unit 133.

In such a configuration, a space can be effectively secured in the center portion of the camera actuator 1000, so that no light entering the imaging element from the lens 210 is blocked or blocked at all.

3, the first suspension unit 132, the second suspension unit 133, and the third suspension unit 134 of the present invention may be configured to be symmetrical with respect to each other. This symmetrical structure can uniformly disperse the load or the tension of the entire FPCB 100, thereby further minimizing the influence on the precise driving of the moving body 200 and more effectively preventing the tilt failure of the moving body 200 can do.

4 is a view showing a state of the FPCB 100 according to the present invention in which the structure is adaptively accommodated as the mobile 200 moves.

4, the FPCB 100 according to the present invention has a structure in which the shape of the FPCB 100 is adaptively changed when the mobile 200 is vertically moved by the AF driver 400. Therefore, the load of the FPCB 100 The force transmitted to the moving body 200 can be minimized and the moving body 200 can be moved precisely and the possibility that a defect in the horizontal tilting of the moving body 200 is generated can be remarkably reduced.

4, the AF driver 400 is located on the right side with respect to the mobile 200, and typically guides the flexible movement of the mobile 200 between the mobile 200 and the AF driver 400 A ball or a moving guide rail for physically supporting the moving body 200 is provided.

4, the second connection part 120 of the FPCB 100 is connected to the center of the mobile device 200 in order to further minimize the influence of the load or the tension of the FPCB 100 on the mobile device 200, It is more preferable to be electrically connected to the power supply end of the driving module provided in the mobile unit 200 at a position (B in Fig. 4) deviated to the right with respect to the portion (Fig. 4A)

That is, as described above, an AF driver 400 is provided on the right side of the center of the mobile 200, and a ball or a moving guide rail located between the mobile 200 and the AF driver 400 The second connecting portion 120 is configured to be positioned at a position (B in FIG. 4) that is biased toward the portion where the movement of the moving body 200 in the optical axis direction is physically supported, because the moving body 200 is physically supported .

5 and 6 are views showing an FPCB 100 according to another preferred embodiment of the present invention.

The FPCB 100 according to another preferred embodiment of the present invention is different from the previously described embodiment in that the second connecting portion 120 is connected to the connecting portion 130 (specifically, the third suspension portion 134) The second connection portion 120 is formed in a plate-like structure so that one side is connected to the end portion of the third suspension portion 134 and the third suspension portion 134 is folded (see FIGS. 5 and 6) 6 " F "part) of the first connection part 110 in the direction of the first connection part 110.

6, the FPCB 100 of the present invention can be implemented as a stepped structure, thereby realizing an adaptive change according to the movement of the mobile 200 as described above, Can be further optimized, for example, to various shapes and structures.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

In the above description of the present invention, the first and second modifiers are merely terms of a tool concept used for relatively separating the components of each other, so that they are used to indicate a specific order, priority, etc. It should be interpreted that it is not a terminology.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It should be understood that various modifications may be made in the ordinary skill in the art.

1000: Camera actuator
100: FPCB 110: first connection
120: second connection part 130: connection part
131: Suspension part 132: First suspension part
1333: second suspension part 134: third suspension part
200: moving body 210: lens
300: housing 400: AF driver

Claims (8)

An FPCB for interfacing an external power or an electrical signal to the driving module in a camera actuator including a moving body having a driving module and a lens driven by an applied power source and a housing for accommodating the moving body,
A first connection part exposed to the outside and installed in the housing;
A second connection part electrically connected to a power supply terminal of the driving module; And
And a connection part connecting the first connection part and the second connection part and having a suspension part having a shape bent at least one curved line or a straight line. The suspension system according to claim 1,
And at least one shape extending in the direction of the second connecting portion from the first connecting portion and at least one shape extending in the direction of the first connecting portion from the second connecting portion. 3. The apparatus according to claim 2,
A first suspension unit connected to the first connection unit and extending from the first connection unit toward the second connection unit; And
And a second suspension part connected to the first suspension part and extending in the direction of the first connection part,
And the second connection unit is connected to the second suspension unit. 3. The apparatus according to claim 2,
A first suspension unit connected to the first connection unit and extending from the first connection unit toward the second connection unit;
A second suspension unit connected to the first suspension unit and extending in the direction of the first connection unit; And
And a third suspension part connected to the second suspension part and extending in the direction of the second connection part,
And the second connection part is connected to the third suspension part. The apparatus of claim 4, wherein the first suspension unit comprises:
Extending from both sides of the first connection portion with respect to a center portion of the first connection portion,
Wherein the second suspension part has a shape extending outwardly of the first suspension part and the third suspension part has a shape extending outwardly of the second suspension part. The connector according to claim 4,
Wherein the third suspension unit is provided in a form of being folded at the end of the third suspension unit. The mobile terminal according to claim 1,
Moves in the optical axis direction for automatic focus adjustment,
Wherein the second connecting portion comprises:
Wherein the driving unit is electrically connected to a power supply terminal of the driving module at a position deflected toward a portion where the moving body is physically supported in the optical axis direction with respect to a center portion of the moving body. An optical actuator comprising an FPCB having the suspension structure according to any one of claims 1 to 7.

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