KR100297771B1 - Actuator for optical pickup - Google Patents

Abstract

A base, a bobbin movably positioned on the base and fixed with an objective lens, a magnetic drive unit for driving the bobbin, the magnetic drive unit wound around the bobbin to drive the bobbin in a focus direction, and A track coil attached to the side to drive the bobbin in the track direction of the disc, a magnet installed on the base opposite the side of the bobbin to which the track coil is attached, an outer yoke fixed to the base and supporting the magnet, and at least one of the bobbins Disclosed is an optical pickup actuator comprising a pair of tilt coils which are spaced symmetrically from one another and spaced apart from each other over a side surface and an upper surface or a lower surface to drive a bobbin in response to an inclination of the disk.

Such an optical pickup actuator adjusts only the objective lens in the inclined direction in response to the tilting or bending of the disk. Therefore, the structure for the tilt adjustment is simple and compact, and the driving response speed is fast, which is suitable for a high speed optical recording / reproducing apparatus. .

Description

Actuator for Optical Pickup

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an actuator for optical pickup, and more particularly, to an optical pickup actuator capable of adjusting an inclination between an objective lens and a disc so as to prevent degradation of a recording or reproducing signal due to bending or tilting of the disc. .

In general, an optical pickup is an apparatus that is employed in an optical recording / reproducing apparatus and records and / or reproduces information on a disk mounted on a turntable in a non-contact manner while moving in a radial direction of a disk which is a recording medium. The optical pickup includes an objective lens that focuses the light emitted from the light source and forms an optical spot on the disk, which is installed in the actuator so that the disk forms the optical spot at the correct track position. To move.

In the process of recording and reproducing information on the disc with such optical pickup, when the disc is bent or tilted with respect to the optical pickup, in particular, the objective lens, the recording or reproducing signal is degraded.

As such, an optical pickup inclination adjusting device as shown in FIG. 1 has been proposed in order to prevent deterioration of a recording or reproducing signal due to bending or tilting of a disk.

Referring to the drawings, the optical pickup 1 is slidably coupled to the guide rail (not shown), the rack gear for transferring the optical pickup 1 in the radial direction of the disk 10 in accordance with the drive of the drive motor (3) The member 5 is hinged by the support member 7. And one side of the rack gear member 5 is provided with an inclination adjusting means 20 for supporting the lower portion of the optical pickup 1 to adjust the inclination of the optical pickup 1 with respect to the hinge axis (7a), On the upper side of the optical pickup 10 is provided a tilt detection means 30 for detecting the inclination of the disk 10 with respect to the optical axis of the objective lens (not shown).

The inclination adjustment means 20 raises or lowers one side of the optical pickup 1 according to the motor 21 coupled to one side of the rack gear member 5 and the rotation direction of the motor 21. The lifting unit 23 is configured to change the inclination of the optical pickup 1 with respect to the hinge axis 7a.

The tilt detection means 30 is provided with a light source 31 for irradiating light to the disk 10 at a predetermined angle and symmetrically installed on both sides of the light source 31 to reflect the light reflected from the disk 10. And a differential amplifier 37 for differentially amplifying detection signals of the first and second photodetectors 33 and 35 to receive light.

Since the detection signals of the first and second photodetectors 33 and 35 vary according to the degree of inclination of the disk 10, the signal output from the differential amplifier 37 is transmitted to the inclination adjustment means 20. When the optical pickup 1 is adjusted by feedback, the inclination of the optical pickup 1 may be adjusted in response to the inclination of the disc 10. Thus, the optical axis of the objective lens and the disk 10 can be adjusted to be perpendicular to each other to form an optical spot at the correct track position, thereby preventing deterioration of the recording or reproduction signal.

However, in the above case, since the motor 21 or the like is required to adjust the inclination of the optical pickup 1, the overall device is not only large in size but also complicated in structure. In addition, since the inclination of the entire optical pickup 1 is adjusted, the volume and mass of the portion to be adjusted are large, so that the driving power of the motor 21 for the inclination adjustment is large and the driving response speed is slow, thereby recording / information signal at high speed. It is not suitable for the optical recording and reproducing apparatus for reproduction.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described point, and an object thereof is to provide an optical pickup actuator in which an objective lens can be adjusted in response to the inclination of a disc so as to be suitable for a high speed optical recording / reproducing apparatus.

1 is a view schematically showing a conventional optical pickup tilt adjusting device;

2 is an exploded perspective view schematically illustrating an optical pickup actuator according to an embodiment of the present invention;

3 is a bottom perspective view of the bobbin of FIG. 2;

<Description of the symbols for the main parts of the drawings>

51 ... base 55 ... objective lens

60. Bobbin 70 ...

71.Poker coils 73.Track coils

75, 76, 77 ... Tilt coil 81 ... Magnet

83.Outside yoke

The present invention and the base to achieve the above object; A bobbin movably positioned on the base and having an objective lens fixed thereto; An optical pickup actuator, comprising: a focus coil wound around an outside of the bobbin and driving the bobbin in a focus direction; A track coil attached to a side surface of the bobbin and driving the bobbin in a track direction of the disk; A magnet installed in the base to face the side of the bobbin to which the track coil is attached; An outer yoke fixed to the base and supporting the magnet; And a pair of tilt coils which are spaced apart from each other and are symmetrically wound on at least one side and an upper or lower surface of the bobbin to drive the bobbin in response to the tilting of the disk.

Here, the tilt coil is wound around the side and top or bottom surface of the bobbin to which the track coil is attached, it is preferably provided to drive the bobbin in response to the inclination of the disk in the radial direction.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view schematically illustrating an optical pickup actuator according to an embodiment of the present invention, and FIG. 3 is a bottom perspective view of the bobbin of FIG. 2.

Referring to the drawings, the optical pickup actuator 50 includes a base 51, a bobbin 60 for fixing an objective lens, and a magnetic drive unit 70 for driving the bobbin 60.

The optical pickup (not shown) including the actuator 50 is slidably installed on the guide rail (not shown) to travel in a radial direction of the disc (not shown).

The bobbin 60 is movably positioned on the base 51. For example, the holder 52 is fixed to the base 51, and the bobbin 60 is connected to the holder 52 by a suspender 53 having one end fixed to the holder 52. 51) movably positioned above. The bobbin 60 is formed by the first and second side surfaces 61 and 62 in the radial direction of the disc, the third and fourth side surfaces 63 and 64 in the tangential direction of the disc, and the objective lens 55. It has upper and lower surfaces 65 and 66 parallel to the optical axis. Moreover, the inside of this bobbin 60 is formed with the some guide groove 67 in which the inner yoke mentioned later is fitted.

The magnetic drive unit 70 moves the bobbin 60 in the focus direction, the track direction and the inclined direction. To this end, the magnetic drive unit 70 is fixed to the focus coil 71, the track coil 73 and the tilt coil 75, the magnet 81 installed in the base 51, and the base 51. An outer yoke 83 supporting the magnet 81 is included.

The focus coil 71 is wound along the side of the bobbin 60, that is, on the outside to drive the bobbin 60 in the focus direction. The track coil 73 is attached to the first and second side surfaces 61 and 62 of the bobbin 60 to drive the bobbin 60 in the track direction of the disc. In other words, the track coils 73 are wound on the focus coils 71 of the first and second side surfaces 61 and 62 so as to form a rectangle, for example. At this time, each side (61, 62) is provided with a pair of track coils 73 symmetrically to each other.

The magnet 81 is attached to the outer yoke 83 so as to face the first and second side surfaces 61 and 62 of the bobbin 60 to which the track coil 73 is attached. The magnet 81 has an N pole on the first and second side surfaces 61 and 62 and an outer yoke 83 on the S pole, or vice versa.

On the other hand, between the pair of outer yoke 83 is provided with a pair of inner yoke (85) facing each outer yoke (83). The inner yoke 85 is fixed to the base 51 and fitted into the guide groove 67 formed in the bobbin 60 to guide the movement of the bobbin 60.

The tilt coil 75 is spaced at a predetermined interval over at least one side and the upper surface 65 or the lower surface 66 of the bobbin 60, and the first and second tilt coils 76, 77 wound symmetrically with each other. Is done.

Since the inclination or deflection of the disk occurs mainly in the radial direction, the first and second tilt coils 76 and 77 are formed in a track coil having a substantially curved rectangular shape as shown in FIGS. 2 and 3. It is preferable that the first side 61 and the bottom surface 66 of the bobbin 60 to which the 73 is attached are wound and the second side surface 62 and the bottom surface 66 are wound. In this case, upper and side portions of the first and second tilt coils 76 and 77 face the magnet 81 and lower and side portions are positioned on the lower surface 66. Here, the tilt coil 75 may be wound over the first and second side surfaces 61 and 62 and the upper surface 65 of the bobbin 60.

As described above, in the case where the first and second tilt coils 76 and 77 are provided on the first and second side surfaces 61 and 62 side, the disk may be inclined or warped in the radial direction. Correspondingly, the bobbin 60 can be adjusted.

Although not shown, the first and second tilt coils 76 and 77 may be provided on the third and / or fourth side surfaces 63 and 64. As described above, when the first and second tilt coils 76 and 77 are provided on the third and fourth side surfaces 63 and 64, the disc is inclined in the tangential direction, that is, in the jitter direction of the disc. The bobbin 60 can be adjusted in response to the warpage.

2 and 3, the operation of the optical pickup actuator 50 according to the present invention will be described.

When a current is applied to the focus coil 71, the bobbin 60 is imaged according to Fleming's left hand law by the interaction between the current flowing through the focus coil 71 and the magnetic field formed by the magnet 81. Can be driven downward. That is, by changing the direction of the current applied to the focus coil 71, the bobbin 60, that is, the objective lens 55 can be driven in the direction of the disk or away from the disk. Thus, the position of the objective lens 55 is adjusted so that the distance between the objective lens 55 and the disk is the on focus position.

The track coil 73 interacts with the magnet 81 as follows. The directions of the currents flowing in the upper and lower portions of each of the track coils 73 are opposite to each other and are canceled because they are located in the same magnetic field. In accordance with Fleming's left hand law, the bobbin 60 is driven in the track direction, i.e., in the radial direction of the disc, by the interaction between the current flowing on both sides of the track coil 73 and the magnet 81. Therefore, the position of the objective lens 55 is adjusted in the track direction so that the light spot focused by the objective lens 55 is brought into the correct track position of the disc.

When a current is applied to the first and second tilt coils 76 and 77, the direction of the current flowing in both side portions positioned on the first and second side surfaces 61 and 62 of each of the tilt coils 75 is different. Are canceled because they are opposite each other and are located within the same magnetic field. Therefore, the bobbin 60 is inclined in the radial direction of the disc by the interaction between the current flowing above the first and / or second tilt coil 77 and the magnet 81 according to Fleming's left hand law. Is adjusted.

Meanwhile, the current flowing under the first and / or second tilt coil 77 may adjust the inclination of the bobbin 60 by interaction with the magnet 81. Directions of currents flowing in both sides of the first and second tilt coils 76 and 77 located on the lower surface 66 of the bobbin 60 are opposite to each other and are offset within the same magnetic field.

The intensity and direction of the current applied to the first and second tilt coils 76 and 77 in the optical pickup actuator 50 as described above are the same as those of the conventional optical pickup tilt adjusting apparatus described with reference to FIG. 1. , According to the tilt or warp signal of the disk detected by the tilt detection means (not shown) provided above the optical pickup having the actuator 50 according to the present invention, and thus the first and second tilt coils ( When the current is properly applied to the 76 and 77, the objective lens 55 can be adjusted such that the optical axis of the objective lens 55 and the disc are perpendicular to each other.

Although the present invention has been described and illustrated to adjust the inclination of the disc in the radial direction with reference to FIGS. 2 and 3, it can be provided to adjust the inclination of the disc in the jitter direction within the scope of the technical idea of the present invention. have.

According to the present invention as described above, since only the objective lens is adjusted in the inclined direction in response to the tilting or bending of the disk, the structure for tilt adjustment is simple and compact, so that the driving response speed is high, so it is suitable for a high speed optical recording / reproducing apparatus. Do.

In addition, since the objective lens can be adjusted in the oblique direction with much less power than the driving power for driving the motor in the conventional inclination adjusting apparatus, it can be employed in the portable optical recording / reproducing apparatus.

Claims (2)

A base; A bobbin movably positioned on the base and having an objective lens fixed thereto; In the optical pickup actuator comprising a; a magnetic drive unit for driving the bobbin, The magnetic drive unit, A focus coil wound around the bobbin and driving the bobbin in a focus direction; A track coil attached to a side surface of the bobbin and driving the bobbin in a track direction of the disk; A magnet installed in the base to face the side of the bobbin to which the track coil is attached; An outer yoke fixed to the base and supporting the magnet; And a pair of tilt coils wound at least one side and an upper surface or a lower surface of the bobbin, spaced apart from each other and symmetrically wound to drive the bobbin in response to the tilting of the disk. According to claim 1, wherein the tilt coil is wound over the side and top or bottom surface of the bobbin to which the track coil is attached, characterized in that provided to drive the bobbin in response to the inclination of the disk in the radial direction Actuator for optical pickup.