KR19990017728A - Optical Pickup Actuator and Manufacturing Method Thereof - Google Patents

Abstract

The present invention relates to an optical pick-up actuator and a method of manufacturing the same so as to maintain a constant distance between the tracking coil and the permanent magnet in the movable portion.

The optical pickup actuator of the present invention includes a first bobbin in which the tracking coil is wound, a second bobbin in which the focusing coil is wound and engaged with the first bobbin to form a movable part, and driving means for driving the movable part.

The manufacturing method of the optical pickup actuator of the present invention includes a first step of winding the tracking coil to the first bobbin, and a second step of fastening the first bobbin to the second bobbin on which the focusing coil is wound.

The optical pickup actuator of the present invention and the method of manufacturing the same can ensure the distance between the tracking coil and the permanent magnet at the movable part and at the same time ensure the accuracy of the mounting position of the tracking coil.

Description

Optical pickup actuator and manufacturing method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an actuator for performing tracking and focusing operations of an objective lens, and more particularly, to an optical pickup actuator and a method of manufacturing the same, which maintain a constant distance between a tracking coil and a permanent magnet in a movable part.

Recently, with the rapid development of optical discs, various products of optical pickups for recording / reproducing information of optical discs have been developed. The optical pickup includes an actuator moving along a recording signal recorded on the information recording surface of the disc and an optical system for reading the recorded signal. In response to the surface vibration and the eccentricity of the optical disk due to the rotation of the optical disk, the actuator allows the optical beam focused from the objective lens to follow the signal track center of the optical disk. The focusing operation of the actuator is to drive the objective lens vertically so that the light spot of the light beam from the objective lens falls within the depth of focus in the signal track of the optical disc. The tracking operation of the actuator is to drive in the horizontal direction so that the light spot of the light beam from the objective lens follows the center of the signal track of the optical disc.

A conventional optical pickup actuator will be described with reference to FIGS. 1 to 6.

Referring to FIGS. 1 and 2 with reference to FIG. 3, the conventional optical pickup actuator is largely comprised of a movable part 10 and a fixed part 20, and the movable part 10 includes a bobbin 1 and a focusing coil. 2), a tracking coil 3, an objective lens 8, and PCB Bobbin (9). The fixing part 20 is composed of the yoke 5, the permanent magnet 4, the frame (6).

The movable part 10 and the fixed part 20 are connected with the spring wire 7. In the movable portion 10, a cylindrical inner diameter is drilled through the inner diameter of the bobbin 1 so that the objective lens 8 is fitted to the inner diameter. The focusing coil 2 is wound around the outer periphery of the bobbin 1, and the tracking coil 3 is bonded onto the focusing coil 2. In the fixing portion 20, the permanent magnet 4 is bonded to both inner sides of the yoke 5 and the yoke 5 is fixed to the frame 6.

It is the role of the actuator to drive the light beam from the optical system to drive the objective lens 8 in the focusing or tracking direction. The driving of the objective lens 8 is performed by the driving of the movable part 10. In detail, the current flows through the focusing coil 2 in the movable part 10, and the magnetic force of the focusing coil 2 and the permanent magnet 4 is increased. The objective lens 8 performs the focusing operation in the vertical direction by using the Lorentz force generated in the circuit. In addition, the current flows through the tracking coil 3, and the objective lens 8 performs tracking in the horizontal direction by using the Lorentz force generated in the magnetic circuits of the tracking coil 3 and the permanent magnet 4.

The current of the focusing coil 2 and the tracking coil 3 is supplied by the spring wire 7. In addition, the spring wire 7 may be driven by the movable portion 10 by driving the one side of the spring 10 fixed in the vertical direction (focusing) and the horizontal direction (tracking) as one of its own sides fixed to the frame 6. Make sure

The focusing operation amount and the tracking operation amount are greatly influenced by the distance between the permanent magnet 4, the focusing coil 2, and the tracking coil 3 as shown in FIG. 3. This is a factor that directly affects the performance of the optical pickup actuator, which is called a sensitivity, expressed as a movable displacement with respect to an applied current. In addition, when the movable part 10 operates in the vertical direction (poker) and the horizontal direction (tracking), the objective lens 8 should be in a horizontal state. do.

In the movable part 10 of the conventional optical pickup actuator, the distance between the permanent magnet 4 and the tracking coil 3 is not constant for each movable part 10, or the tracking coil 3 composed of four in one movable part 10. The distance between the permanent magnets and the permanent magnets 5 is often the same, which is a direct cause of deterioration of the sensitivity and input / output characteristics of the optical pickup actuator. The problem of the optical pickup actuator according to the prior art is, in particular, due to the assembling procedure of the tracking coil 3 in the movable portion 10. This will be described with reference to FIGS. 4 and 5.

Figure 4 shows an exploded perspective view of the movable portion 10 of the optical pickup actuator according to the prior art.

Referring to FIG. 4, in the conventional optical pickup actuator, the assembling procedure of the movable unit 10 includes winding the focusing coil 2 on the bobbin 1, and the tracking coil (2) on the bobbin 1 on which the focusing coil 2 is wound. 3) adhering, and fastening the objective lens 8 to the bobbin (1).

The assembling procedure for bonding the tracking coil 3 to the bobbin 1 on which the focusing coil 2 is wound will be described with reference to FIG. 5. As shown in FIG. 5A, the tracking coil 3 is a tracking coil frame 11. The first step of fitting the square projection of the square into its inner diameter and the focusing coil (2) wound around the bobbin (1) as shown in FIG. A second step is taken out and a third step is assembled as shown in FIG. 5C and then re-adhered around the contact surface of the tracking coil 3 and the focusing coil 2.

The adhesion procedure of the tracking coil in such a conventional optical pickup actuator causes a problem that an assembling process of fitting the tracking coil 3 to the rectangular protrusion of the tracking coil frame 11 must be added. Since the tracking coil 3 closely adheres to the focusing coil 2, when the tracking coil frame 11 is pulled out, the tracking coil 3 rotates as shown in FIG. 6 to the bonding surface of the focusing coil 2. Can be stuck in a twisted state. The problem caused by the lowering of the assemblability (that is, lowering the productivity) in the assembling procedure of the bonding of the tracking coil can reduce the sensitivity and input / output characteristics, which are important characteristics that influence the performance of the optical pickup actuator.

In detail, the first coil deteriorating the sensitivity may be a tracking coil bonded to the focusing coil 2 surface since the thickness of the focusing coil 2 after being wound on the bobbin 1 may be different for each movable part 10. As the position of (3) is different, as shown in FIG. 3, the distance t between the permanent magnet 4 and the tracking coil 3 may be different for each movable part 10. As the second factor that lowers the sensitivity, the tracking coil 3 closely adheres to the focusing coil 2, so that when the tracking coil frame 11 is pulled back, the tracking coil 3 is attached to the focusing coil 2. It can be glued at some distance without being fully adhered. In addition, as a factor of lowering the input / output characteristics, when each of the four tracking coils 3 consisting of four moving parts 10 is not equal to the distance of the permanent magnet 4, the moving parts are flush with the vertical direction (Focusing). This is caused by the objective lens 8 failing to be in a horizontal state while driving in the tracking direction.

Accordingly, an object of the present invention is to provide an optical pickup actuator and a method of manufacturing the same, which allow the moving part to maintain a constant distance between the tracking coil and the permanent magnet, and to ensure the accuracy of the tracking coil's bonding position.

Another object of the present invention is to provide an optical pick-up actuator and a method for manufacturing the same, which improve productivity by improving the assembly procedure of the optical pick-up actuator in the movable part and further improve sensitivity and input / output characteristics.

1 is a view showing a conventional optical pickup actuator.

2 is a view showing a driving unit in a conventional optical pickup actuator.

3 is a view showing the distance between the tracking coil and the permanent magnet in the conventional optical pickup actuator.

4 is an exploded perspective view of a driving unit in a conventional optical pickup actuator.

5 is a view showing an assembling procedure for adhering a tracking coil to a drive unit in a conventional optical pickup actuator.

6 is a view showing a case where the bonding position of the tracking coil is twisted in the conventional optical pickup actuator.

7 is a view showing the assembly state of the drive unit in the optical pickup actuator according to an embodiment of the present invention.

Fig. 8 is a view showing the assembling procedure of the tracking coil assay in the optical pickup actuator according to the embodiment of the present invention.

9 is a perspective view of a tracking coil assay in an optical pickup actuator in accordance with an embodiment of the present invention.

10 is an overall perspective view of a drive unit in the optical pickup actuator according to the embodiment of the present invention;

Explanation of symbols for main parts of the drawings

1, 21: bobbin 2, 22: focusing coil

3, 23: tracking coil 4: permanent magnet

5: yoke 6: frame

7: spring wire 8, 28: objective lens

9, 29: PB bobbin 10: movable part

11, 12, 13: tracking coil frame 14: tracking coil bobbin

15 tracking coil assay 20 fixed part

In order to achieve the above object, the optical pickup actuator of the present invention comprises a first bobbin in which the tracking coil is wound, a second bobbin in which the focusing coil is wound and coupled with the first bobbin to form a movable part, and driving means for driving the movable part. Equipped.

The manufacturing method of the optical pickup actuator of the present invention includes a first step of winding the tracking coil to the first bobbin, and a second step of fastening the first bobbin to the second bobbin on which the focusing coil is wound.

Other objects and features of the present invention other than the above object will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 7 to 10.

7 and 10, the optical pickup actuator of the present invention includes a bobbin 21 on which the focusing coil 22 is wound, and a tracking coil assay 15 on which the tracking coil 23 is wound.

The tracking coil assay 15 is composed of a tracking coil 23 and a tracking coil bobbin 14 in which the tracking coil 23 is wound on protrusions of both sides of the quadrangle. The tracking coil assay 15 has a structure that can be fastened to both left and right sides of the bobbin 21 and is fastened to the bobbin 21. After the fastening of the tracking coil assay 15 and the bobbin 21 is completed, the objective lens 28 is fitted to the cylindrical inner diameter of the bobbin 21. The PCB bobbin 21 is fastened to both left and right sides of the bobbin 21 so that the spring wire 7 supplies current to the tracking coil 23 and the focusing coil 22.

To this end, one side of the tracking coil assay 15 and the outer periphery of the bobbin 21 on which the focusing coil 22 is wound are fastened and matched. Square grooves are formed at both sides of the tracking coil assay 15, and a stepped portion is formed at a predetermined height at an outer circumference thereof so that the tracking coil 23 is wound.

Since the tracking coil 23 is integrated with the tracking coil bobbin 14 and fastened to the bobbin 21, the adhesive surface with the focusing coil 22 is always constant. In this case, the distance between the tracking coil 23 and the permanent magnet of the fixed part is also kept constant.

8 illustrates an assembly procedure for explaining a method of manufacturing a tracking coil assay in an optical pickup actuator according to an embodiment of the present invention.

Referring to Fig. 8A, in the method for manufacturing a tracking coil assay according to the present invention, a first tracking coil frame 12 and a second tracking coil frame 13 for forming the tracking coil 23 are provided. .

The first tracking coil frame 12 has a rod-shaped protrusion formed at a predetermined height at the center of the bottom surface of the cylindrical base and the bottom of the base. The second tracking coil frame 13 has a cylindrical shape and a rectangular groove penetrates in the center thereof to allow the rod-shaped protrusion of the first tracking coil frame 12 to be fitted into the groove.

The manufacturing method of the tracking coil assay 15 includes the step of fitting the square groove of the tracking coil assay 15 into the rod-shaped protrusion of the first tracking coil frame 12 as shown in FIG. As shown in C), the second tracking coil frame 13 fixes the tracking coil assay 15 by fitting its rectangular groove into the protrusion of the first tracking coil frame 12, and FIG. Rotating the second tracking coil frame 13 to form the tracking coil 23 directly on the tracking coil bobbin 14.

9 shows a perspective view of the tracking coil assay 15 in which the tracking coil 23 is wound.

At this time, since the tracking coil 23 is molded while a constant tension is applied to the tracking coil assay 15, the adhesion is improved. As a result, when the tracking coil assay 15 in which the tracking coil 23 is wound is fastened to the bobbin 21 as shown in FIG. 7, the bonding position of the tracking coil 23 is constant and is a constant distance from the permanent magnet of the fixing part. This improves the sensitivity and input / output characteristics of the optical pickup actuator.

As described above, the optical pickup actuator of the present invention and the method of manufacturing the same can ensure the distance between the tracking coil and the permanent magnet at the movable part and ensure accuracy in the bonding position of the tracking coil.

The optical pickup actuator of the present invention and the manufacturing method thereof can improve the assembly procedure to improve productivity, and further improve sensitivity and input / output characteristics.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (4)

An optical pickup actuator comprising a movable part having a tracking coil and a focusing coil, the optical pickup actuator comprising: a first bobbin on which the tracking coil is wound; a second bobbin on which the focusing coil is wound and engaged with the first bobbin; And a drive means for driving the movable portion. The optical pickup actuator of claim 1, wherein the tracking coil is positioned at a predetermined position in the second bobbin, and a distance between the tracking coil and the permanent magnet is constant. A method of manufacturing an optical pickup actuator comprising a moving coil having a tracking coil and a focusing coil, the method comprising: winding the tracking coil to a first bobbin; and fastening the first bobbin to a second bobbin wound around the focusing coil. And a second step of manufacturing the optical pickup actuator. The method of claim 3, wherein the first step includes fitting the second bobbin to an arbitrary fixing frame.