KR20080010861A - Device for adjusting the focus of rense module - Google Patents

Abstract

An automatic focus adjusting device is provided to decrease a size of a camera by decreasing an overall height of the focus adjusting device by removing a yoke from the focus adjusting device. A holder(11) is coupled with a cover(12) to form a space in a body. Receiving grooves(11-1,12-1) are formed at respective corners of the holder. A magnetic circuit includes upper and lower permanent magnets(23,24), which are fixed on the receiving grooves of the holder and the cover through upper and lower springs(21,22). A driver moves a lens module(35) along a straight line by using a carrier according to a voltage, which is applied by a coil(31). The driver is contained in the space of the body. A power portion receives an external source voltage through a PCB(Printed Circuit Board)(37), which is electrically connected to the coil through the lower spring.

Description

Device for adjusting the focus of the small lens module {Device for adjusting the focus of rense module}

1 is an exploded perspective view of an automatic focusing apparatus according to the prior art,

2 is a cross-sectional view of the combination of the automatic focusing apparatus according to the prior art,

3 is an embodiment of the automatic focusing apparatus according to the present invention, 3a is an exploded perspective view of the automatic focusing apparatus, 3b is a combined cross-sectional view of the automatic focusing apparatus, 3c is an assembly view of the automatic focusing apparatus, 3d is a magnetic circuit diagram of the automatic focusing device.

Figure 4 is another embodiment of the automatic focusing apparatus according to the present invention, 4a is an exploded perspective view of the automatic focusing apparatus, 4b is a combined cross-sectional view of the automatic focusing apparatus, 4c is an assembly view of the automatic focusing apparatus, 4D is a magnetic circuit diagram of the autofocus control device.

4 is in accordance with the present invention.

* Explanation of symbols for main parts of the drawings *

11: holder 12: cover

21,22: Upper / lower spring 23,24,25: Permanent magnet

31 coil 32 carrier

35 lens module 37 circuit board

The present invention relates to a focusing apparatus for automatically focusing a lens module mounted on a digital camera, and the like, and in particular, to change the coupling structure and the arrangement of the components configured in the focusing apparatus so as to reduce the overall height of the lens module. It relates to an auto focusing device of a small lens module.

In general, a product that requires high-resolution high pixels, such as a digital camera, requires an apparatus for automatically focusing an image. In particular, an apparatus capable of linearly moving a lens module to automatically focus an image, for example, a digital camera A step motor or DC motor is required.

However, since miniaturization of the focusing device is difficult, a small coil module such as a camera phone is used with a V.C. (Voice Coil Motor) actuator as shown in FIGS. 1 and 2.

That is, as shown in Figures 1 and 2, the focusing device is the cover 51 and the holder 59 is coupled to each other to form a space portion 70, the yoke 54 on the inner wall surface of the space portion 70 A plurality of permanent magnets 55 constituting the magnetic circuit is mounted through the carrier, the carrier 52 for linearly moving the lens module 60 in accordance with the applied current of the coil 57 on the inner peripheral surface of the permanent magnet (55) The upper and lower springs 53 and 58 to which the carrier 52 is fastened to the holder 59 and the cover 51 and to which external power is input are mounted.

In addition, since the lower spring 58 of the focusing apparatus is divided into two parts and is electrically connected to both ends of the coil 57, the lower spring 58 is used as a medium for receiving current, and the upper spring 53 of the focusing apparatus is provided. ) Returns the carrier 52 when the coil is powered off.

Accordingly, when the current is supplied to the coil 57 to operate the focusing device, the carrier 52 coupled to the coil 54 is linearly moved by the interaction of the coil 54 and the permanent magnet 55. The lens 50 protrudes out of the cover 51.

On the other hand, when the current applied to the coil 57 to block the operation of the focusing device is blocked because the lens 60 is returned by the elastic force of the upper spring 53, the use of the lens focusing device is limited will be.

However, since most lens focusing devices are configured to form a magnetic circuit by attaching the permanent magnet 55 through the yoke 54, the height of the permanent magnet 55 and the yoke 54 and the height of the coil 57 are increased. Due to this, there is a limit in reducing the height of the lens focusing device, which makes it difficult to miniaturize.

Accordingly, the present invention has been made to solve the problems described above, by changing the coupling structure and arrangement of the various components of the focusing device to reduce the overall height of the lens module of the lens module The purpose is to provide an auto focusing device.

The present invention for achieving the above object; A body part having a holder and a cover, each of which has a seating groove formed in each corner, coupled to each other to form a space part; A magnetic circuit unit for forming magnetic circuits by fixing upper and lower permanent magnets through upper and lower springs in the mounting grooves of the holder and the cover; A driving unit for linearly moving the lens through a carrier which is accommodated in the space and operates according to a voltage applied by a coil; The power supply unit receives external power through a circuit board electrically connected to the coil via a lower spring.

The present invention for achieving the above object; A body part having upper and lower springs disposed on upper and lower sides thereof, as well as a space where the holder and the cover having respective seating grooves formed at each corner are coupled to each other; A magnetic circuit unit mounted to each corner of the holder as well as forming a magnetic circuit through a plurality of permanent magnets seated on an upper surface of a spacer for fixing the lower spring; A driving unit which is positioned on the inner circumferential surface of the permanent magnet and linearly moves the lens module through a carrier operated according to an applied voltage of a coil electrically connected to the lower spring; The power supply unit receives external power through a circuit board electrically connected to the coil via the lower spring.

Hereinafter, an embodiment according to the present invention will be described.

Example 1

3 is an embodiment of the automatic focusing apparatus according to the present invention, 3a to 3 is an exploded perspective view, a combined sectional view, an assembly diagram and a magnetic circuit diagram of the automatic focusing apparatus.

A holder 11 and a cover 12 having respective seating grooves 11-1 and 12-1 coupled to each corner to be coupled to each other to form a space 13; The magnetic circuit is fixed by fixing upper and lower permanent magnets 23 and 24 to upper and lower springs 21 and 22 in the mounting grooves 11-1 and 12-1 of the holder 11 and the cover 12. A magnetic circuit part to be formed; A driving unit linearly moving the lens module 35 through the carrier 32 accommodated in the space 13 and operating according to the voltage applied by the coil 31; The coil 31 includes a power supply unit that receives external power through a circuit board 37 electrically connected to the lower spring 22.

First, the body part, which forms the exterior of the small lens module and accommodates various components, is connected to the holder 11 and the cover 12 to form a space portion 13, in particular of the holder 11 The seating grooves 11-1 are formed at the upper corners of the upper surface, and the seating recesses 12-1 are formed at the lower corners of the cover 12.

At this time, the shape of the holder 11 and the cover 12 is preferably formed in a quadrangular shape to form the respective recessed grooves in the four corners, but may also be formed in a circular or polygonal.

The magnetic circuit unit generates magnetic flux in a direction orthogonal to the current by using a permanent magnet, and includes a plurality of upper permanent magnets 23 mounted in the seating grooves 12-1 of the cover 12, and A plurality of lower permanent magnets 24 mounted on the seating grooves 11-1 of the holder 11 interact with each other.

In addition, it is desirable to minimize the area occupied by molding the outer shape of the upper and lower permanent magnets (23, 24) in a rectangular shape as possible.

In addition, since the upper permanent magnet 23 is fixed to the holder 11 and the lower permanent magnet 24 is fixed to the cover 12, the focusing device is excluded from the yoke as in the prior art. Of course it is.

In addition, the upper permanent magnet 23 fixed to the holder 11 and the lower permanent magnet 24 fixed to the cover 12 is fixed by the upper / lower springs (21, 22).

In addition, while the upper permanent magnet 23 fixed to the holder 11 is magnetized to be the N pole in the axial direction of the coil 31, the lower permanent magnet 24 fixed to the cover 12 is the coil The magnet is magnetized so as to be the north pole in the attachment direction of (31).

In addition, the driving unit generates a driving force in a direction orthogonal to the magnetic circuit unit while being accommodated in the space 13, and reciprocates the lens module 36. The driving unit is mounted on the inner circumferential surface of the magnetic circuit unit and formed at a lower side thereof. The lower spring 22 is a projection 32 is heat-sealed to the projection and the coil 31 of the carrier 32 is attached to the screw groove of the external electricity is made of electricity.

The power supply unit supplies power required for operation of the driving unit, and includes a lower spring 22 connected to the coil 31 by soldering and a circuit board 37 connected to the lower spring 22 by soldering. .

Hereinafter, the operation according to the present embodiment will be described.

First, in order to configure the auto focusing device, once the rectangular coil 31 is coupled to the carrier 32 on which the lens module 35 is mounted, and then divided into two lower springs in accordance with the projection formed on the lower part of the carrier 32. (22) is heat-sealed.

Then, the lower springs 22 are soldered to both ends of the coil 31, respectively, and then the lower permanent magnets 24 are seated on the corners of the holder 11.

Then, the upper spring 21 is seated on the inner circumferential surface of the cover 12 to couple the upper permanent magnet 23, and then the cover 12 and the carrier 32 to which the upper permanent magnet 23 is coupled are seated. The holders 11 to each other.

Subsequently, the circuit board 37 is attached in the direction in which the lower spring 22 protrudes to be fixed by soldering, thereby receiving current from the outside.

In this way, the linear motion of the drive unit generates a force in the direction perpendicular to the current when the current flows perpendicularly to the magnetic flux by the Fleming's left-hand law.

That is, magnetic flux is generated by the upper permanent magnet 23 located at each corner of the cover 12 and the lower permanent magnet 24 located at each corner of the holder 11.

In particular, the magnetization direction of the permanent magnets (23, 24) is as shown in Fig. 3d, the center of the rectangular coil 31 is magnetized to the N pole, the outer side is magnetized to the S pole, the magnetic flux is alternating from the N pole to the S pole coil At this position, it should be perpendicular to the coil winding direction.

At this time, if the current is gradually increased by applying a voltage to the coil 31, the driving unit is moved when the generated electromagnetic force is greater than the elastic restoring force of the upper / lower springs 21 and 22 which fix the driving unit to the initial position. To start.

As the voltage increases, the driving unit moves in a linear linear motion. When the voltage decreases, the driving linear motion moves in the opposite direction. In addition, when the current supply is cut off, the driving unit returns to its original position by the elastic restoring force of the upper and lower springs 21 and 22.

Example 2

Figure 4 is an embodiment of the automatic focusing apparatus according to the present invention, Figures 4a to 4d is an exploded perspective view, a combined sectional view, an assembly diagram and a magnetic circuit diagram of the automatic focusing apparatus.

The holder 11 and the cover 12 having the respective recessed grooves 11-1 and 12-1 formed on the corners thereof are coupled to each other to form the space 13, as well as an upper spring on the upper and lower sides thereof. Body portion 21 and the lower spring 22 is disposed; A magnetic circuit unit mounted to each corner of the holder 11 to form a magnetic circuit through a plurality of permanent magnets 25 mounted on an upper surface of the spacer 26 fixing the lower spring 22; The driving unit for linearly moving the lens module 35 through the carrier 32 which is located on the inner circumferential surface of the permanent magnet 25 and operates according to the applied voltage of the coil 31 electrically connected to the lower spring 22. And; The coil 31 includes a power supply unit that receives external power through a circuit board 37 electrically connected to the lower spring 22.

First, the body part, as well as the appearance of the small lens module to accommodate the components, the holder 11 and the cover 12 are interconnected to the space portion 13 for accommodating various components described later To form.

In addition, the mounting groove 11-1 is formed in the upper corner portion of the holder 11, the mounting groove 12-1 is formed in the lower corner portion of the cover 12.

At this time, the shape of the holder 11 and the cover 12 is preferably formed in a quadrangular shape to form the respective recessed grooves in the four corners, but may also be formed in a circular or polygonal.

In addition, while the upper spring 21 is disposed on the ceiling surface of the cover 12, the lower spring 22 is disposed on the bottom surface of the holder 11, in particular the upper / lower springs (21, 22) Holes 21-1 and 22-1 are formed at corners of the holder 11 or the cover 12, respectively, which are fixed through pillars (not shown).

In addition, the magnetic circuit unit generates magnetic flux in a direction orthogonal to the current by using the permanent magnet, and the plurality of permanent magnets 25 mounted in the seating grooves 11-1 formed at the corners of the holder 11. It is preferable that the permanent magnet 25 is formed in a triangle shape as possible.

At this time, since the permanent magnet 25 is fixed to each corner portion of the holder 11, it is natural that the yoke as in the prior art is excluded. In addition, it is obvious that the permanent magnet 25 is magnetized so as to be the N pole in the axial direction of the coil 31.

In addition, the lower spring 22 interposed on the bottom surface of the holder 11 is fixed through the spacer 26, in particular the spacer 26 is in contact with the permanent magnet 25.

In addition, the driving unit generates a driving force in a direction orthogonal to the magnetic circuit unit while being accommodated in the space 13 to reciprocate the lens module 35. The lower spring 22 is composed of a carrier 32 heat-sealed and a coil 31 attached to a screw groove of the carrier 32.

The power supply unit supplies power required for operation of the driving unit, and includes a lower spring 22 connected to the coil 31 by soldering and a circuit board 37 connected to the lower spring 22 by soldering. .

Hereinafter, the operation according to the present embodiment will be described.

First, in order to configure the autofocusing device, once the coil 31 is coupled to the carrier 32 on which the lens module 35 is mounted, and then the lower spring 24 is thermally fused to the protrusion formed at the lower portion of the carrier 32. Then, soldered to the lower spring 22 at both ends of the coil 31 to be seated on the holder (11).

Then, the lower spring 22 is coupled to the holder 11 by using the spacer 26, and then the permanent magnet 25 is seated, the upper spring 21 is coupled to the upper side of the carrier 32, and then the cover 12 is attached. ) Assemble and combine.

Subsequently, the circuit board 37 is attached and soldered in a direction protruding to the outside of the lower spring 22 to receive current from the outside.

In this way, the linear motion of the drive unit generates a force in the direction perpendicular to the current when the current flows perpendicularly to the magnetic flux by the Fleming's left-hand law.

Due to this, the magnetic flux is generated by a plurality of permanent magnetic fluxes 25 located at the engaging portion of the cover 12 and the holder 11.

That is, the magnetization direction of the permanent magnet 25 is generated by a plurality of permanent magnets 25 magnetized so as to be located at the corner of the holder 11 as shown in FIG. It is.

At this time, if the current is gradually increased by applying a voltage to the coil 31, the driving unit is moved when the generated electromagnetic force is greater than the elastic restoring force of the upper / lower springs 21 and 22 which fix the driving unit to the initial position. To start.

As the voltage increases, the driving unit moves in a linear linear motion. When the voltage decreases, the driving linear motion moves in the opposite direction. In addition, when the current supply is cut off, the driving unit returns to its original position by the elastic restoring force of the upper and lower springs 21 and 22.

As described above, according to the automatic focusing apparatus of the small lens module according to the present invention, by fixing a plurality of permanent magnets by using a cover and a holder in a state in which the yoke configured in the focusing apparatus is excluded, Since the overall height is relatively low, the overall height of the device can be reduced, thereby miniaturizing the camera device.

Claims (7)

A holder 11 and a cover 12 having respective seating grooves 11-1 and 12-1 coupled to each corner to be coupled to each other to form a space 13; The magnetic circuit is fixed by fixing upper and lower permanent magnets 23 and 24 to upper and lower springs 21 and 22 in the mounting grooves 11-1 and 12-1 of the holder 11 and the cover 12. A magnetic circuit part to be formed; A driving unit linearly moving the lens module 35 through the carrier 32 accommodated in the space 13 and operating according to the voltage applied by the coil 31; A power supply unit that receives external power through a circuit board 37 electrically connected to the coil 31 via the lower spring 22; Automatic focusing device of a small lens module, characterized in that made. The method of claim 1, wherein the magnetic circuit unit, The upper permanent magnet 23 fixed to the holder 11 is magnetized so as to be the north pole in the axial direction of the coil 31, and the lower permanent magnet 24 fixed to the cover 12 is the coil 31. Auto focusing device of a small lens module, characterized in that the magnetized to the N pole in the axial direction. The apparatus of claim 1, wherein the lower springs (22) and the circuit board (37) are connected by soldering to receive a current from the outside. The holder 11 and the cover 12 having the respective recessed grooves 11-1 and 12-1 formed on the corners thereof are coupled to each other to form the space 13, as well as an upper spring on the upper and lower sides thereof. Body portion 21 and the lower spring 22 is disposed; A magnetic circuit unit mounted to each corner of the holder 11 to form a magnetic circuit through a plurality of permanent magnets 25 mounted on an upper surface of the spacer 26 fixing the lower spring 22; The driving unit for linearly moving the lens module 35 through the carrier 32 which is located on the inner circumferential surface of the permanent magnet 25 and operates according to the applied voltage of the coil 31 electrically connected to the lower spring 22. And; A power supply unit that receives external power through a circuit board 37 electrically connected to the coil 31 via the lower spring 22; Automatic focusing device of a small lens module, characterized in that made. The method of claim 4, wherein the magnetic circuit unit, The permanent magnet 25 is a magnetized auto focusing device of the small lens module, characterized in that the magnetized so that the N pole in the axial direction of the coil (31). The method of claim 4, wherein the upper and lower springs (21, 22), Auto-focusing device of a small lens module, characterized in that each of the holes (21-1, 22-1) is fixed to the holder (11) or the cover 12 through the pillar at its corners. 5. The apparatus of claim 4, wherein the lower spring and the circuit board are connected by soldering to receive a current from the outside. 6.

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