KR100711507B1 - Device for driving the camera renz for communicator - Google Patents

Abstract

The present invention relates to a driving device for advancing or reversing a camera lens embedded in a communication terminal or the like, comprising: a cylindrical base (10); A carrier 20 accommodated in the base 10 and provided with a lens 21; A driving unit 30 interposed between the carrier 20 and the base 10 to operate the carrier 20 through the magnetic force of the magnet 31 and the coil 32; In the driving device of the camera lens for a communication terminal consisting of the leaf spring (40, 45) mounted on the movement path of the carrier 20, the coil 32 through the outer yoke (11a) on the inner wall surface of the base (10) ) Is mounted and the magnet 31 is mounted on the outer circumferential surface of the carrier 20 through the inner yoke 11b, by using the magnet 31 moving through the magnetic force generated in the driving unit 30. When the magnetic flux of the drive unit 30 is released while protruding the lens 21, the lens 21 is returned by using the leaf spring 40. By fixing the magnet in a fixed state, the lead wire is prevented from being burned out, thereby minimizing malfunction and extending the service life.

Camera lens, base, carrier, drive unit, leaf spring

Description

Device for driving camera lens for communication terminal {Device for driving the camera renz for communicator}

1 is a cross-sectional view showing a lens driving apparatus according to the prior art,

2 is a cross-sectional view showing a state before the projection of the camera lens according to the present invention;

3 is a cross-sectional view showing a protruding state of a camera lens according to the present invention.

Explanation of symbols on the main parts of the drawings

1 Lens driving device 10 Base

11, a, 11b: York 20: Carrier

21 lens 22 cover

30: drive unit 31: magnet

32 coil 32a, 32b lead wire

40,45: leaf spring

The present invention relates to a driving device for advancing or reversing a camera lens embedded in a communication terminal, and the like, in particular for maximizing the work productivity according to the manufacture of the lens driving device as well as for extending the life of the lens driving device A driving device for a camera lens.

In general, a communication terminal, that is, a device such as a digital camera, a mobile phone, or a PDA, is a communication terminal that not only transmits text or voice data but also transmits image data. The communication terminal transmits information such as text and images. A small camera is built in as a means to do so.

However, since the camera of the communication terminal is made small, it mainly adopts the method of fixing the lens, but recently, the moving object is enlarged to shoot, the auto focusing function is added, or the video shot using the digital zoom. Ways to expand this are under study.

Therefore, various methods of driving the lens by developing a method of fixing the camera lens in the communication terminal are under development, and in particular, the lens is applied using the electric force of the magnet and coil embedded in the driving device of the communication terminal. Advancing or reversing technology has been developed and commercialized.

For example, as shown in FIG. 1, according to Japanese Patent Publication No. 2004-280031, the lens driving device 100 is operated through the magnet 120 and the coil 130 at the side of the yoke 110. The carrier 150 having the lens 140 in the center thereof is configured, and the amount of movement of the lens 150 is controlled through the springs 160 and 160 'supporting the carrier 150.

Accordingly, when the lens driving device 100 is operated, the carrier 150 is operated while the coil 130 moves along the receiving space of the yoke 110 by the driving force generated by the magnetic flux of the magnet 120. The lens 150 configured at the center of the 150 is projected or returned to operate.

However, the lens driving device 100 has a structure in which the coil 130 moves while the magnet 120 is fixed to the inner wall of the yoke 110. For example, when the portion for applying power to the coil 130 is burned out. In addition to the malfunction and shortening of the service life, there was a problem that the work productivity due to the manufacturing of the lens drive device is reduced.

In addition, the lens driving device 100 is a state in which the yoke 110 forms an accommodating space having a shape of approximately “c”, and at least the entire thickness of the lens driving device becomes thick as it corresponds to one wall surface of the yoke 110. Since the slimming of the terminal is relatively difficult, the convenience caused by the miniaturization of the communication terminal may be deteriorated.

For this reason, there is a problem that the communication terminal does not sufficiently satisfy the needs of consumers who demand high-end and high-performance cameras.

Accordingly, the present invention has been made to solve the above problems, to maximize the work productivity according to the manufacturing of the lens driving device, as well as to extend the life of the lens driving device camera lens for the communication terminal Its purpose is to provide a driving device.

The present invention for achieving the above object, the cylindrical base; A carrier provided with a lens and received in the base; A driving unit interposed between the carrier and the base to operate the carrier through the magnetic force of the magnet and the coil; In the driving device of the camera lens for a communication terminal consisting of a leaf spring mounted on the movement path of the carrier, the coil 32 is mounted on the inner wall surface of the base through the outer yoke and the magnet through the inner yoke on the outer peripheral surface of the carrier Is equipped with a configuration.

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

2 and 3 are cross-sectional views showing a state before and after protrusion of the camera lens according to the present invention, the cylindrical base 10; A carrier 20 accommodated in the base 10 and provided with a lens 21; A driving unit 30 interposed between the carrier 20 and the base 10 to operate the carrier 20 through the magnetic force of the magnet 31 and the coil 32; In the driving device of the camera lens for a communication terminal consisting of the leaf spring (40, 45) mounted on the movement path of the carrier 20, the coil (through an outer yoke (11a) on the inner wall surface of the base (10) 32 is mounted, and the magnet 31 is mounted on the outer circumferential surface of the carrier 20 through the inner yoke 11b, by using the magnet 31 moving through the magnetic force generated in the drive unit 30. When the magnetic flux of the drive unit 30 is released while protruding the lens 21, the lens 21 is returned using the leaf spring 40.

Here, the lens driving apparatus 1 of the present invention includes a base 10, a carrier 20 accommodated in the base 10, and a drive unit 30 interposed between the base 10 and the carrier 20. ) And leaf springs 40 and 45 for fixing / returning the carrier 20.

The base 10 is inserted into an installation place of a communication terminal (not shown) to support the entire apparatus, and a holder 12 having an accommodation space therein is configured.

In addition, the coil 32 is fixed to the inner wall surface of the holder 12 via an outer yoke 11a for focusing magnetic flux.

At this time, the outer yoke (11a) is formed in a cylindrical shape that forms a single wall surface, rather than a structure of forming a space portion having a substantially "c" shape by the outer wall and the inner wall, using a magnetic material such as wrought iron as the material This is preferred.

In addition, the carrier 20 is accommodated in the base 10 and moves up and down, and the bottom surface thereof is kept in a sealed state, and in particular, the lens 21 is fixed to the center thereof through the cover 22. It is sealed.

In addition, the magnet 20 is fixed to the carrier 20 via an inner yoke 11b for focusing magnetic flux on its outer wall surface.

At this time, the inner yoke (11b), the separation distance is formed at a predetermined distance from the outer yoke (11b), it is preferable to use a magnetic material such as soft iron.

In addition, the driving unit 30 is configured in the inner space of the base 10 to operate the carrier 20, and the magnet 31 and the yoke 11 mounted on the circumferential surface of the carrier 20. It is composed of a coil 32 mounted on the inner wall surface of the).

In addition, the coil 32 is preferably configured such that its lead wires 32a and 32b pass through the leaf spring 45, and the magnet 31 has only one side thereof, preferably only a surface facing the coil 32. It is preferable to magnetize.

For this reason, the magnet 31 reciprocates according to the amount of current in the state in which the coil 32 of the drive unit 30 is fixed.

The leaf springs 40 and 45 are mounted on the bottom and top surfaces of the base 10, respectively, to prevent axial displacement of the lens 21 through the elastic force, and are made of a material such as phosphor bronze. It is preferable to select.

At this time, the leaf spring 45 is formed with a through hole having a predetermined shape through which the lead wires 32a and 32b pass.

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

First, when the autofocusing switch is selected while the lens driving device 1 is mounted on a communication terminal (cell phone, etc.), power is applied to the coil 32 of the driving unit 30. 20) is moving upward.

That is, since the electromagnetic force in the upward direction acts on the magnet 31 by the power applied to the lead wires 32a and 32b of the coil 32, the elastic force of the leaf spring 40 according to the amount of current applied to the coil 32. To win the lens 21 is protruding.

In this case, the lens 21 of the carrier 20 is set at a position where the electromagnetic force of the driving unit 30 and the elastic force of the leaf spring 40 are in equilibrium, and accordingly, the lens (according to the amount of current applied to the coil 32) 21) the amount of movement is controlled.

On the other hand, when the autofocusing switch of the communication terminal is released, the power applied to the coil 32 of the driving unit 30 is cut off, so that the lens 21 is returned by the elastic force of the leaf spring 40 as shown in FIG. 2. To be received into the base 10.

As described above, according to the driving device of the camera lens for a communication terminal according to the present invention, by attaching the magnet to the yoke of the lens driving device to be movable, the damage of the lead wire is prevented to minimize the malfunction of course In addition to extending the service life, the lens driving device can be miniaturized by forming the yoke of the lens driving device into a cylindrical shape forming a single wall surface, thereby increasing the convenience of using a communication terminal.

Claims (3)

A cylindrical base 10; A carrier 20 accommodated in the base 10 and provided with a lens 21; A driving unit 30 interposed between the carrier 20 and the base 10 to operate the carrier 20 through the magnetic force of the magnet 31 and the coil 32; In the driving device of the camera lens for a communication terminal consisting of leaf springs (40, 45) mounted on the movement path of the carrier (20), The coil 32 is mounted on the inner wall surface of the base 10 through the outer yoke 11a and the magnet 31 is mounted on the outer circumferential surface of the carrier 20 through the inner yoke 11b. The leaf spring 40 when the magnetic flux of the drive unit 30 is released while protruding the lens 21 using the magnet 31 moving through the magnetic force generated by the drive unit 30. Driving device for a camera lens for a communication terminal, characterized in that for returning the lens (21). The method of claim 1, wherein the leaf spring 45, A driving device of a camera lens for a communication terminal, characterized in that a through hole through which lead wires (32a, 32b) pass through the body. According to claim 1, wherein the magnet 31 of the drive unit 30, The driving device of the camera lens for a communication terminal, characterized in that the one side is magnetized.

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