KR100526347B1 - Micro-Optical Pick-up actuator - Google Patents

Abstract

        The present invention relates to a single-axis drive of the optical pickup suitable for ultra-small optical drive, in particular can eliminate the size limitation of the driver, to provide a thin micro-driver, and to solve the problem of sensitivity degradation by reducing the thickness, In the manufacture of the micro-drivers to increase the productivity can be manufactured at a low cost, yet to be able to configure a micro-drivers that can ensure high reliability.

       The optical pickup driver according to the present invention comprises a driver body having a lens holder and an objective lens at one end and a movable part, and a yoke, a permanent magnet, and a coil arranged at a relative direction to form a fixed part, and a side of the driver body. And a wire support holder for fixing the wire to the drive main body side, the wire being installed in the direction to support the driver in one axis.

       In addition, the optical pickup driver according to the present invention comprises a lens holder having a wire support holder on the upper side and a movable part formed by attaching an objective lens to one end of the lens holder, and the lens holder of the movable part in one axis. And a movable part side rotation inhibiting means for suppressing rotation of the movable part side lens holder to induce translational movement of the movable part, and a yoke plate in a lower direction of the movable part, and a permanent magnet on the plane of the yoke plate. It is characterized by consisting of a fixed portion arranged by placing the coil.

Description

Optical pick-up actuator {Micro-Optical Pick-up actuator}

        The present invention relates to a single-axis drive of the optical pickup suitable for ultra-small optical drive, in particular can eliminate the size limitation of the driver, to provide a thin micro-driver, and to solve the problem of sensitivity degradation by reducing the thickness, In the manufacture of the micro-drivers to increase the productivity can be manufactured at a low cost, yet to be able to configure a micro-drivers that can ensure high reliability.

        Recent developments in portable devices require solutions for storage systems that require the use of tiny drive devices and cheap media.

        The storage device for these devices must be very compact, resistant to external shocks, and can be manufactured at low cost. You also need to have a solution that makes your data compatible with digital cameras, cell phones, music players, PDAs, and other devices. Hundreds of megabytes of storage are needed for recording on media such as streaming video.

        Solid state storage, such as hard disk drives and smart media, is currently used in PDAs, camcorders, and digital cameras. Disadvantages of this storage solution are the relatively high cost of storage media per Mbyte and the absence of ROM media for the prevalence of read-only data. The biggest advantage of commercial optical storage devices is the inherent low media price and convenience of manufacturing ROM media that has been replicated. Next-generation optical storage devices, which will use blue lasers and high aperture lenses, are the technology for ultra-compact optical drives.

      Using next-generation optical storage technology, 27 gigabytes (Gbytes) of data can be recorded on a 12 cm optical disc.

It is possible. Using these data storage densities in ultra-compact optical drives, it is possible to record 1 Gbyte of storage capacity in a coin size. Research is also underway to reduce the size of the driver to match the disk size.

       The micro driver fixes the objective lens, which is one of the optical parts. The micro driver moves focusing part to fix the objective lens up and down and performs tracking while moving from side to side. This will read and store the signal at the desired location on the disc. Therefore, the micro actuator must be designed so that rotation does not occur and it must be translated. If rotation occurs, the optical axis is tilted, which causes errors in disc signal reproduction.

If rotation occurs, the optical axis is tilted, which causes errors in disc signal reproduction. To this end, the 4-wire method has been used so far. However, there is a limit in reducing the size due to securing the assembly space of the wire, and there is a problem such as a decrease in sensitivity due to the length of the wire as the size is reduced.

        1 is a general structure of such a microdriver. The objective lens 5 condensing the laser beam propagated from the fixing part to make a spot is adhered to the lens holder 3 fixing it, and four movable parts are supported by the movable part 1. In addition, a coil 6 is attached to the lens holder 3 to cause interaction of the permanent magnet 4 and the yoke 2 of the fixed part.

        As shown in FIG. 1, the micro driver has an objective lens 5 fixed to the lens holder 3 and supported by four biaxial wires 1. When a current is applied to the coil 6 attached to the lens holder 3, the permanent magnet 4 and the yoke 2 of the fixing part are driven in each direction. By using four wires 1 as two axes, translational motion occurs in each direction.

        In order to apply a microdriver to a micro optical drive, a large portion of the existing size must be reduced. This requires a structurally simple structure. In the conventional structure, there are limitations in reducing the thickness of the driver by using four wires for the translational movement, and even though reducing the thickness thereof, there is a limit in reducing the wire stiffness.

        As the size of the micro-driver is miniaturized as a whole, there is a limit to the current 4-wire support method. Therefore, a new type of driver was needed. Currently, researches on drivers based on MEMS technology and miniaturization of commercial drivers are proposed.

       However, the MEMS driver has a problem that the manufacturing cost is high and the reliability is inferior, and the technology intended to miniaturize a commercial driver is designed to reduce the size in the current driving method, thereby decreasing productivity. In addition, there was a problem in that there is a limit to reducing the size.

       Accordingly, an object of the present invention is to provide a micro driver that can be applied without any size limitation in application to a micro optical drive.

       Another object of the present invention is a thin micro-driver which can be applied to a micro optical drive

To provide.

       Still another object of the present invention is to solve the problem of sensitivity deterioration caused by reducing the thickness of the microdriver for application to a compact optical drive.

       It is still another object of the present invention to provide a microdriver that can guarantee high reliability while increasing productivity in manufacturing a microdriver for application to a micro optical drive.

Features of the present invention for achieving this object,

      A permanent part for fixing an objective lens for condensing a laser to a lens holder, a wire for supporting the movable part, and a coil for reacting with the lens holder side coil to permanently guide the movable part in translation in each direction. In the optical pickup driver consisting of a fixing portion made of a magnet and a yoke,

       The optical pickup driver,

       At one end, the lens holder and the objective lens are arranged to be movable parts, and in the relative direction, the actuator main body is composed of fixed parts by arranging yokes, permanent magnets, and coils,

       A wire installed in the lateral direction of the driver body to support the driver in one axis;

       And a wire support holder for fixing the wire to the driving body side.

       Another feature of the present invention is a movable part formed by fixing an objective lens for condensing a laser to a lens holder, a wire for supporting the movable part, and interacting with the lens holder side coil to interact with the movable part in each direction. In the optical pickup driver consisting of a fixed portion consisting of a permanent magnet and a yoke to guide the translational movement,

       The optical pickup driver,

        A movable part comprising a lens holder having a wire support holder on an upper side and an objective lens attached to one end of the lens holder;

      A wire for supporting the lens holder of the movable part in one axis;

      Movable part side rotation suppression means for inducing the translational movement of a movable part by suppressing rotation of the said lens part lens holder;

      The yoke plate is formed in the lower direction of the movable part, and the permanent magnet and the coil are disposed on the plane of the yoke plate, characterized in that the fixed part is configured.

      When the driver is applied to the optical drive in this way, the size limitation can be eliminated in the application to the ultra-compact optical drive, the thin micro driver can be provided, and the problem of sensitivity deterioration caused by reducing the size and thickness of the driver can be solved. In addition, it is possible to construct a micro-driver that can be produced at a low cost by increasing productivity in the manufacture of the micro-driver, while ensuring high reliability.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. 2 is a view showing a configuration example of an optical pickup driver according to an embodiment of the present invention. 3 is a view for explaining a position setting example of the optical pickup driver of FIG. 2 according to an embodiment of the present invention. 4 is a perspective view of an optical pickup driver according to another exemplary embodiment of the present invention.

       The empty pick-up driver according to the present invention, as shown in Figures 2 to 4, the movable portion formed by fixing the objective lens for condensing the laser beam propagated from the fixed portion to the lens holder, the wire for supporting the movable portion, It consists of a permanent magnet and a yoke fixed part for reacting with the lens holder side coil to guide the movable part in the translational motion in each direction.

       As shown in FIG. 2, the optical pickup driver according to the first embodiment of the present invention includes a lens holder 203 and an objective lens 205 at one end thereof and constitutes a movable part, and the yoke 202 and the permanent magnet are disposed in the relative direction thereof. 204 and the driver body 200 which is arranged in order to form the coil 206 in a fixed portion, wires 201a and 201b which are installed in the lateral direction of the driver body 200 and support the driver in one axis. And a wire support holder 207 for fixing the wires 201a and 201b to the driver main body 200 side.

       The wires 201a and 201b may be configured one each in the lateral direction of the driver main body 200, and more than one.

       Wherein the rotation of the driver main body 200, the wire support holder which is the position of the center 303 of the coil 206 for generating a force and the support center 304 of the wires 201a and 201b as shown in FIG. By setting the distance 207 to half of the length 301 of the wire to generate a half moment, it is possible to suppress the rotation and to implement the translational motion.

       The optical pickup driver according to the second embodiment of the present invention, as shown in Figure 4, constitutes a lens holder 403 having a wire support holder 403a on the upper side, and the objective lens at one end of the lens holder 403 405 is attached to the movable part, the wires 401a and 401b for supporting the lens holder 403 of the movable part in one axis, and the movable part side lens holder 403 suppresses the rotational movement of the movable part. And a yoke plate 402 in the lower direction of the movable portion and arranging the permanent magnet 404 and the coil 406 on the plane of the yoke plate 402. It is made up of government.

      The movable part side rotation suppressing means guides the hole 403b formed in the lens holder 403 of the movable part and the hole 403b of the lens holder 403 to mechanically fix the lens holder 403. It consists of a shaft 407 protruding from the fixing portion.

      The yoke plate 402 is formed at one end of the yoke plate 402 to support the permanent magnet support rib 402a protruding upwards to seat the permanent magnet 404 and the wires 401a and 401b. The wire support rib 402b may be provided.

       Referring to the operation and effect of the optical pickup driver according to the present invention according to the embodiment as follows.

       As shown in FIG. 2, the optical pickup driver according to the first embodiment of the present invention includes a lens holder 203 and an objective lens 205 at one end thereof and constitutes a movable part, and the yoke 202 and the permanent magnet are disposed in the relative direction thereof. 204 and the driver body 200 which is arranged in order to form the coil 206 in a fixed portion, wires 201a and 201b which are installed in the lateral direction of the driver body 200 and support the driver in one axis. And a wire support holder 207 for fixing the wires 201a and 201b to the driver main body 200 side.

       Here, the wires 201a and 201b are composed of one each in the lateral direction of the driver main body 200, while using two wires each one of the support center, the force center, and the length of the wires 201a and 201b. Relationships are designed to induce translational movements.

       In FIG. 2, when the current is applied to the coil 206, the objective lens 205 and the lens holder 203 on the movable side are driven by the permanent magnet 204 and the yoke 202. This reduces the number of wires from four to two. This causes the rotation of the movable part when a force is applied, but can be controlled using a force center, a support center, and a wire length as shown in FIG. 3, where the position of the center 303 of the coil 206 generating the force and the wire are generated. The distance 301 of the wire support holder 207, which is the support center of the 201a and 201b, is set to half 302 of the length of the wire to achieve an equilibrium force, thereby easily suppressing the rotation generated. can do. 3 is a view illustrating a rotation suppression configuration by setting a coil position and a length of a wire for rotation suppression of the optical pickup driver according to the first embodiment. In this way, if the distance between the center of the coil generating the force and the support center is half the length of the wire, rotation can be suppressed.

       According to the structure of the present invention, since the number of wires can be two, it is easy to apply to an ultra-small optical drive, and the overall size can be greatly reduced, which is advantageous in miniaturization, thinning, and weight reduction. In addition, the structure is simplified to increase the overall productivity and productivity of the actuator, which is an advantageous structure, and a structure that is advantageous to reduce the production cost.

       The optical pickup driver according to the second embodiment of the present invention, as shown in Figure 4, constitutes a lens holder 403 having a wire support holder 403a on the upper side, and the objective lens at one end of the lens holder 403 405 is attached to the movable part, the wires 401a and 401b for supporting the lens holder 403 of the movable part in one axis, and the movable part side lens holder 403 suppresses the rotational movement of the movable part. And a yoke plate 402 in the lower direction of the movable portion and arranging the permanent magnet 404 and the coil 406 on the plane of the yoke plate 402. It is a government. Thus, the movable portion translates along the uniaxial wires 401a and 401b.

       Here, each of the wires 401a and 401b is configured along the lens holder 403, and each of the wires 401a and 40b can be used to induce translational movement of the movable part. .

        Rotation occurs when the movable part moves, and the suppression of the rotation forms a hole 403b in the lens holder 403 of the movable part, and the shaft 407 protruding the hole 403b of the lens holder 403 from the fixing part. To control. In this way, the shaft 407 serves as a guide to suppress the rotation, and the movable portion is translated.

      In addition, the yoke plate 402 by protruding the permanent magnet support rib 402a to the upper side in order to seat the permanent magnet 404 can be stably supported and fixed to the permanent magnet 404, the wire (401a) (401b) Wire support ribs 402b capable of supporting the axial wires 401a and 401b may be formed in one end of the yoke plate 402 to support a solid state.

       In the structure according to the second embodiment, since the number of wires can be two, it is easy to apply to an ultra-small optical drive, and the overall size can be greatly reduced, which is advantageous in miniaturization, thinning, and weight reduction. In addition, the structure is simplified to increase the overall productivity and productivity of the actuator, which is an advantageous structure, and a structure that is advantageous to reduce the production cost.

      As described above, the present invention is advantageous in miniaturization, thinning, and weight reduction because it is easy to apply to an ultra-small optical drive and can greatly reduce the overall size because the driver can be configured by only one axis wire in constructing the optical pickup driver. The simplified structure can increase the overall productivity and productivity of the driver, which is advantageous in structure, advantageous in reducing production cost, and can manufacture a high reliability optical pickup driver without deterioration of sensitivity.

        Such a size limitation necessary for providing the micro driver required in the micro optical drive of the present invention can be removed by changing the structure. In addition, in the construction of the optical pickup driver, the driver can be composed of only one axis wire, so it is easy to apply to an ultra-small optical drive, and the overall size can be greatly reduced. It is possible to increase the overall mass productivity and productivity of the driver, which is advantageous in structure, it is advantageous to reduce the production cost, it is possible to manufacture a high reliability optical pickup driver without degradation of sensitivity.

       1 is a view for explaining the configuration of a conventional optical pickup driver

2 is a view showing a configuration example of an optical pickup driver according to an embodiment of the present invention;

3 is a view for explaining a position setting example of the optical pickup driver of FIG. 2 according to an embodiment of the present invention;

4 is a perspective view of an optical pickup driver according to another embodiment of the present invention;

* Description of the symbols for the main parts of the drawings *

       200: optical pickup driver 201a.201b.401a.401b: wire

       202: York 203.403: lens holder

       204.404: Permanent magnet 205.405: Objective lens

       206.406: Coil 207: Wire support holder

       402: York plate 402a: permanent magnet support rib

       403a: wire support holder 402b: wire support rib

       403b: hole 407: shaft

Claims (6)

       A permanent part for fixing an objective lens for condensing a laser to a lens holder, a wire for supporting the movable part, and a coil for reacting with the lens holder side coil to permanently guide the movable part in translation in each direction. In the optical pickup driver consisting of a fixing portion made of a magnet and a yoke,        The optical pickup driver,        At one end, the lens holder and the objective lens are arranged to be movable parts, and in the relative direction, the actuator main body is composed of fixed parts by arranging yokes, permanent magnets, and coils,        A wire installed in the lateral direction of the driver body to support the driver in one axis;        Consists of a wire support holder for fixing the wire to the driving body side,        The rotation pickup of the driver body is controlled by setting the distance of the center of the coil to generate a force and the distance of the wire support holder which is the support center of the wire to half of the length of the wire.        The method of claim 1,        And one wire each configured in the lateral direction of the driver body. delete        A permanent part for fixing an objective lens for condensing a laser to a lens holder, a wire for supporting the movable part, and a coil for reacting with the lens holder side coil to permanently guide the movable part in translation in each direction. In the optical pickup driver consisting of a fixing portion made of a magnet and a yoke,        The optical pickup driver,       A movable part comprising a lens holder having a wire support holder on an upper side and an objective lens attached to one end of the lens holder;       A wire for supporting the lens holder of the movable part in one axis;      Movable part side rotation suppression means for inducing the translational movement of a movable part by suppressing rotation of the said lens part lens holder;      And a fixing part configured to form a yoke plate in a lower direction of the movable part and to arrange a permanent magnet and a coil on a plane of the yoke plate.       The method of claim 4, wherein       The movable portion side rotation suppressing means,       A hole formed in the lens holder of the movable portion;      And an axis protruding from the fixing part to guide the hole of the lens holder to mechanically fix the lens holder.       The method of claim 4, wherein       The yoke plate is a permanent magnet support rib protruding to the upper side to seat the permanent magnet,       And a wire support rib formed at one end of the yoke plate to support the wire.