KR100428333B1 - Device for driving object lens - Google Patents

Abstract

An objective lens driving device for driving an objective lens for optically reading information recorded on a disk which is rotationally driven. The objective lens holding member 2 is held to the relay holding member 71 by four first metal wires 61, and the relay holding member 71 is fixed to the relay holding member 71 by four second metal wires 62. FIG. Keep at 72. Disks with different rotation frequencies corresponding to bands of different resonant frequencies, respectively, brought about by the first free vibration system with the first metal wire 61 as the main part and the second free vibration system with the second metal wire 62 as the main part. In the band, the acceleration sensitivity acting on the objective lens holding member 2 increases. This makes it possible to increase the tracking sensitivity to the displacement of the information recording track of the optical spot in at least two disk rotation frequency bands.

Description

Objective lens driving device {DEVICE FOR DRIVING OBJECT LENS}

As one supporting means of the objective lens holding member in the objective lens driving apparatus used in the information reproducing apparatus for optically reading the information recorded on the disc-shaped recording medium which is rotationally driven, for example, using four metal wires, There is a cantilever support system for fixing each one end to the objective lens holding member and the other end to the fixing part. In this cantilever support system, the primary resonance frequency of the objective lens driving device is determined by the mass of the movable body including the objective lens holding member and the spring constant of the metal wire.

In this primary resonant frequency band, since the drive sensitivity with respect to the applied current to the objective lens drive device is remarkably increased, the primary resonant frequency band is designed so as to substantially match the rotation frequency band of the recording medium. The optical spot generated by the objective lens fixed to the lens holding member makes it easy to secure the acceleration necessary for following the displacement of the focusing direction and the tracking direction of the information recording track due to the rotation of the recording medium. Focusing and tracking servo performance required for reading optical information of the information reproducing apparatus can be ensured.

Recently, in the CD-ROM reproducing apparatus, the speed of data transmission such as 4x, 8x, and 16x is promoted relative to the standard transfer speed of recording information used for conventional music program reproduction, and the like. The mainstream became occupied. This speeding up of data transfer is achieved by means of increasing the rotational speed of the disc, which is an information recording medium, and on the basis of this rotational speed, an optical spot generated by the objective lens is required to accurately follow the displacement of the information track of the disc. Acceleration sensitivity is required for the objective lens driving apparatus of the optical pickup in charge of reading information.

In order to satisfy this demand, in the conventional objective lens driving apparatus, the primary resonant frequency is increased with the increase of the rotational speed of the disc, and the rotational frequency of the disc at which the maximum displacement in the focusing direction and the tracking direction of the information recording track occurs. It was designed so that the maximum level of acceleration sensitivity could be obtained in the band.

However, in the conventional objective lens driving apparatus, since the primary resonance frequency of the objective lens driving apparatus is increased in accordance with the increase of the rotational speed of the disk for the purpose of speeding up data transmission, the rotation frequency of the disk near the DC band. The optical spot generated by the objective lens in the band lowers the acceleration sensitivity for tracking the displacement of the information recording track, and operates at a standard transmission speed of data applied to music reproduction or the like which is a standard function of the CD-ROM reproducing apparatus. There was a problem that performance was hindered.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the conventional objective lens driving apparatus as described above, and in at least two disc rotation frequency bands, an objective lens capable of increasing the following sensitivity to displacement of an information recording track of an optical spot. It is an object to provide a drive device.

Summary of the Invention

The objective lens driving device of the present invention maintains the objective lens and generates a driving force in a tracking coil perpendicular to the optical axis of the focusing coil and a focusing coil for generating a driving force in a focusing direction parallel to the optical axis of the objective lens on the outer circumference thereof. An objective lens holding member on which a tracking coil is wound, one end fixed to the objective lens holding member, four first metal wires on which the other end is fixed to the relay holding member, and one end fixed to the relay holding member. Generating a driving force by Lorentz force by supplying current to the focusing coil and the tracking coil through the four second metal wires having the other end fixed to the fixing part, the second metal wire, and the second metal wire. A magnetic circuit member disposed in the fixing portion to form a magnetic field for the magnetic field; Possible after movement by elastic deformation of the relay supported by the holding member, wherein the intermediate holding member to be movable by an elastic deformation of the second metal wire and be supported by the government. Thereby, the total mass of the member, such as the said objective lens holding member, which is movably supported by the elastic deformation of the said 1st metal wire, the 1st free vibration system by the spring constant of 4 1st metal wire, and 4 A total mass of the members such as the objective lens holding member and the relay member which is held by the second metal wire to the fixed portion by the second metal wire and movably supported by the elastic deformation of the second metal wire; By constructing two free vibration systems of the second free vibration system by the spring constant of the second metal wire, and optimizing the mass of these constituent members and the spring constant of the metal wire than the resonance frequency caused by the first free vibration system In the low band, it causes resonance inherent to the second free vibration system. As a result, the acceleration sensitivity acting on the objective lens holding member in the objective lens driving device in each band of the resonance frequency caused by the first free vibration system and the resonance frequency caused by the second free vibration system is reduced. To increase the tracking performance of the optical spot to the displacement of the information recording track by roughly matching the resonance frequency inherent to the first free vibration system to the high speed rotational frequency of the disk for the purpose of high speed transmission of data, In addition, the resonance occurring in the second free vibration system improves the tracking performance of the optical spot to the displacement of the information recording track in the rotation frequency band of the disk at the standard transmission speed of data, thereby at least two disk rotations. Tracking sensitivity to the displacement of the information recording track of the optical spot in the frequency band Can increase.

The present invention is directed to an objective lens driving apparatus for driving an objective lens for optically reading information recorded on a disc-shaped recording medium that is rotationally driven in a focusing direction parallel to the optical axis of the objective lens and a tracking direction perpendicular to the optical axis. It is about.

1 is a plan view of an objective lens driving apparatus according to the present invention;

2 is a perspective view of an objective lens driving device according to the present invention;

3 is a diagram showing an example of acceleration frequency characteristics of a conventional objective lens driving apparatus;

4 is a diagram showing an example of acceleration frequency characteristics of an objective lens driving device corresponding to the speeding up of data transmission by raising the conventional primary resonance frequency;

Fig. 5 is a diagram showing an example of acceleration frequency characteristics of the objective lens driving device according to the present invention.

Best Mode for Carrying Out the Invention The best mode for carrying out the present invention will be described below with reference to the drawings as an example of an optical pickup objective lens driving device used in a CD-ROM reproducing apparatus. 1 and 2, a focusing coil 3 for generating a driving force in a focusing direction parallel to the optical axis of the objective lens 1 on the outer circumference of the objective lens holding member 2 holding the objective lens 1; And a tracking coil 4 for generating a driving force in a tracking direction perpendicular to the optical axis of the objective lens, and the printed circuit board 5 is fixed to both sides of the objective lens holding member 2, and through this focusing. Both terminals of each of the coil 3 and the tracking coil 4 and one end of the four first metal wires 61 are connected and fixed by soldering 13, whereby electrical conduction between the two is achieved, The other end of the first metal wire 61 is connected and fixed by soldering 13 to the printed circuit board 81 previously fixed to the relay support block (relay holding member) 71 while electrical conduction is established between them. have.

That is, the objective lens holding member 2 is supported by the relay support block 71 so as to be movable by the elastic deformation of the four first metal wires 61. In addition, one end of the four second metal wires 62 is connected to and fixed to the printed circuit board 81 fixed to the relay support block 71, and at the same time, electrical connection with the first metal wires 61 is achieved. Both ends of the second metal wire 62 are electrically connected to each other by soldering 13 to the printed circuit board 82 fixed to the fixed support block (fixing part) 72 by the vis 11. The connection is fixed. In the part where the 2nd metal wire 62 of this fixed support block 72 is fixed, the stiffener 14 which consists of silicon | silicone etc. for stopping a vibration is inserted. This fixed support block 72 is also fixed to a fixed part such as a device base.

That is, the relay support block 71 is supported by the fixed part so as to be movable by elastic deformation of four second metal wires 62 parallel to the first metal wire 61. Reference numeral 10 is a magnet fixed to the magnetic yoke (magnetic circuit member) 9 fixed to the fixed part so as to face the gap between the focusing coil 3 and the tracking coil 4 with a predetermined gap. The magnetic circuit member is constituted by the magnetic circuit member 10 and the magnetic yoke 9. The magnet 10 is driven by Lorentz force to the focusing coil 3 and the tracking coil 4 by a predetermined driving current supplied through the first metal wire 61 and the second metal wire 62. Form a magnetic field to generate Thereby, the objective lens holding member in the focusing direction parallel to the optical axis of the objective lens 1 and the tracking direction perpendicular to the optical axis in accordance with the supply of current to the focusing coil 3 and the tracking coil 4 ( The displacement of 2) is obtained, and focusing servo and tracking servo operations are performed.

3 shows acceleration frequency characteristics seen in the objective lens driving apparatus conventionally used. According to this, a remarkable increase in the acceleration gain can be seen in the primary resonant frequency band, and the frequency band is generally matched with the rotation frequency band of the disc, thereby reducing the displacement of the information recording track of the optical spot in the objective lens drive device. It is possible to increase the following sensitivity. In addition, in the case where the rotational frequency of the disk is increased for the purpose of speeding up the data transmission, as shown in FIG. It can be increased. However, since the acceleration gain in the frequency band close to the DC band decreases in inverse proportion to the power of the frequency increase in accordance with the rise of the primary resonance frequency, the disk 22 applied to music reproduction or the like using the CD-ROM reproducing apparatus is used. In the low speed rotation frequency band, it may be a factor that lowers the sensitivity to follow the displacement of the information recording track 23 of the light spot 21.

Therefore, as the best mode for carrying out the present invention, as described above, a pair of first metal wires 61 is used by using two sets of metal wires of one set of four as support means for the objective lens holding member 2. ), One end of which is fixed to the objective lens holding member 2, the other end of which is fixed to the relay holding member 71, and the total mass of the member supported by the first metal wire 61; A first free vibration system is constructed by the spring constant of the first metal wire 61, and the other set of second metal wires 62 has one end fixed to the relay holding member 71 and the other end fixed portion. And a second free vibration system formed by the total mass of the member supported by the second metal wire 62 and the spring constant of the second metal wire 62. By optimizing the mass of each constituent member and the spring constant of the metal wires 61 and 62, as shown in Fig. 5, the first resonant frequency band inherent in the first free vibration system, and the lower than that, In both of the primary resonant frequency bands inherent in the two free vibration systems, the acceleration gain acting on the objective lens holding member 2 is increased.

As described above, two sets of free vibration systems using two sets of metal wires 61 and 62 as four sets of support means for the objective lens holding member 2 are constructed, and the resonant frequency inherent to the first free vibration system is achieved. Approximately coincides with the high speed rotation frequency band of the disc for high speed transmission of data, thereby increasing the acceleration acting on the objective lens holding member 2 in the high speed rotation frequency band of the disc, and further increasing the first free vibration system. By causing the second free vibration system to have an inherent resonance phenomenon in the frequency band lower than the inherent resonance frequency, thereby accelerating the acceleration in the low speed rotation frequency band of the disk applied to music reproduction using a CD-ROM playback apparatus. By increasing the acceleration obtained by the free vibration system alone, In the high-speed rotation of the large band and the music reproduction frequency band of the low-speed rotating disks or the like is applied on both sides, it is possible to increase the follow-up sensitivity of the displacement of the information recording track of the optical spot.

The objective lens driving apparatus according to the present invention is useful as a driving apparatus for driving an objective lens in an optical pickup for optically reading information recorded on a disk-shaped recording medium which is rotationally driven, and particularly, a CD-ROM reproducing apparatus and Likewise, it is suitable for use in an optical information recording and reproducing apparatus corresponding to the transmission speed of two or more pieces of recording information.

Claims (1)

In the objective lens driving device, Tracking direction perpendicular to the optical axis of the focusing coil 3 and the objective lens 1 for holding the objective lens 1 and generating a driving force in a focusing direction parallel to the optical axis of the objective lens 1 on the outer peripheral portion thereof. An objective lens holding member 2 on which a tracking coil 4 for generating a driving force is wound; Four first metal wires 61 having one end fixed to the objective lens holding member 2 and the other end fixed to the relay holding member 71; Four second metal wires 62 having one end fixed to the relay holding member 71 and the other end fixed to the fixing unit 72; The high current is supplied to the focusing coil 3 and the tracking coil 4 via the first metal wire 61 and the second metal wire 62 to form a magnetic field for generating a driving force by Lorentz force. Magnetic circuit members (9, 10) disposed in the government (72), The objective lens holding member 2 is supported by the relay holding member 71 so as to be movable by elastic deformation of the first metal wire 61, and the relay holding member 71 is supported by the second metal wire. Supported by the fixing portion 72 to be movable by the elastic deformation of (62) Objective lens drive device.