KR20060070932A - Actuator for compensating pitching mode - Google Patents

Abstract

The present invention relates to a slim optical pickup actuator for attaching a fixture for compensating the pitching occurring in the slim optical pickup actuator to a holder portion of the optical pickup to compensate for the imbalance of the force between the magnetic circuit and the coil.

Magnet, Yoke, Base Plate, Groove, Holder

Description

Pitching mode compensating actuator {ACTUATOR FOR COMPENSATING PITCHING MODE}

1 is a perspective view of a general slim optical pickup actuator,

2 shows the force generated in a coil in a typical optical pickup actuator,

3 is a perspective view of a slim type optical pickup actuator of the present invention,

4 illustrates the force generated in the coil in the optical pickup actuator of the present invention.

* Description of the major symbols in the drawings *

11: objective 12: bobbin

13: Base plate 17: Second magnet

23: holder portion 24: groove portion

25: third magnet

The present invention relates to a slim optical pickup actuator for attaching a fixture for compensating the pitching occurring in the slim optical pickup actuator to a holder portion of the optical pickup to compensate for the imbalance of the force between the magnetic circuit and the coil.

In general, an optical pickup refers to a device which is assembled to a main shaft and a minor shaft provided on a deck of an optical recording and reproducing apparatus and records signals on various optical disks or reproduces the signals contained on the optical disk while reciprocating along the axial direction. And actuator.

The pickup base is directly coupled to the main axis and the minor axis provided on the deck of the optical recording and reproducing apparatus to reciprocate along the axial direction. A beam splitter for reflecting in the direction, and a photo detector for receiving and converting the light beam reflected from the optical disk into an electrical signal.

The actuator is installed to be movable on the upper surface of the pickup base and moves together with the base to condense the light beam to one point of the optical disk through the objective lens.

The optical disc industry using the optical pickup configured with the above-mentioned components is gradually progressing in slimming, high speed, and high density, and therefore, stable driving of the optical pickup lens is indispensable. Currently, slim drives are equipped with asymmetrical actuators, which are designed to solve the problem of securing the driving distance of the lens attached to the actuator and the problems with the size of other optical components. Actuator is used.

1 illustrates a general slim optical pickup actuator. Referring to the drawings, the actuator is specifically described. The bobbin 12 having the objective lens 11 is focused on the support plate 13, that is, the vertical direction and the tracking, It is installed to be finely adjustable in the left and right direction, and a pair of yokes 14 and 15 facing each other at predetermined intervals are formed in the front of the upper surface of the backing plate 13 so as to extend upwardly. The pair of yokes 14 and 15 are symmetrically attached to the magnets 16 and 17, which are permanent magnets, respectively, on surfaces facing each other. In addition, the wire holder 18 is fixedly installed at the rear of the upper surface of the support plate 13, and the printed circuit board 19 is tightly fixed to the rear of the wire holder 18. In addition, a holder 23 is attached to the inside of both wire holders 18.

The bobbin 12 has a shape of a substantially rectangular frame formed through the inside, the front of the tracking coil 20 is wound, and the focusing coil 21 is wound along the side of the outer circumference. The bobbin 12 is installed to be finely driven through the wire 22 at the upper portion of the support plate 13.

Briefly describing the operation of the conventional optical pickup actuator configured as described above, when the current supplied to the printed circuit board 19 is applied to the focusing coil 21 or the tracking coil 20 through the wire 22, the current flows. As a result, the bobbin 12 is driven by the electromagnetic force between the coil and the magnets 16 and 17, and the objective lens 11 is adjusted in the focusing or tracking direction.

The specific movement of the focusing direction of the bobbin 12 thus constructed is shown in FIG. Referring to the drawings, when the current flows clockwise in the coil, and the direction of the magnetic field is formed as shown in the figure, the upward force F1 occurs on the front surface of the second magnet 17, and the second magnet 17 At the back of the), downward force F2 is generated. Therefore, the bobbin 12 to which the focusing coil 21 is attached has a problem in which a pitching mode occurs due to a rotation moment caused by a difference between the forces of F1 and F2 when an upward force is required. have.

Conventionally, in order to overcome this problem, a method of controlling the thickness of the magnet, or increasing the thickness of the yoke attached to the rear of the magnet or by attaching a spacer to prevent leakage of magnetic flux, but also in such a method There has been a problem that there is a limit to removing the influence of the pitching mode due to the magnetic flux. Therefore, to overcome this problem, a method of reducing the force of F2 disclosed in FIG. 2 has been required.

SUMMARY OF THE INVENTION The present invention has been proposed for the purpose of solving the above-mentioned problems, and an object of the present invention is to attach a fixture for compensating the pitching occurring in a slim optical pickup actuator to a holder part of an optical pickup, thereby providing a force between a magnetic circuit and a coil. To provide a slim optical pickup actuator to compensate for the imbalance of.

In order to achieve the above object, a slim optical pickup actuator of the present invention comprises: a bobbin having an objective lens installed to be adjustable in a focusing direction and a tracking direction; A wire connected to the side surface of the bobbin to produce fine movements in the focusing direction and the tracking direction of the bobbin; A support plate having a pair of yokes facing each other facing each other at a predetermined interval in front of the upper surface and extending in an upward direction, and having a wire holder for connecting the wires between the holder and the holder; A printed circuit board connected to the wire and fixed to the back of the wire holder and the holder; And first and second magnets symmetrically attached to opposite surfaces of the yoke, the optical pickup actuator having a predetermined shape on one surface of the holder to reduce pitching occurring in the optical pickup actuator. The third magnet is characterized in that it is provided.

The above object of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings, by those skilled in the art.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

For reference, Figure 3 is a perspective view of a slim optical pickup actuator of the present invention, Figure 4 shows the direction of the force of the slim optical pickup actuator of the present invention. Parts having the same function as the prior art will be described using the same reference numerals.

Referring to Figure 3, the present invention, the slim optical pickup actuator of the present invention is a bobbin 12 having an objective lens 11 is installed to be adjustable in the focusing direction and the tracking direction, and the bobbin of 12 The wire 22 connected to the side surface of the bobbin 12 and a pair of yokes 14 and 15 facing each other at a predetermined distance in front of the upper surface to obtain a fine movement in the focusing direction and the tracking direction are upward. Extending in a direction, and a wire holder 18 for connecting the wires is fixed to the support plate 13 fixedly formed with a holder portion 23 interposed therebetween, and connected to the wire 22 at the upper surface rear. 18 and the first and second magnets 16 and 17 symmetrically attached to opposite surfaces of the yokes 14 and 15, and the printed circuit board 19 fixed to the rear surface of the holder portion 23. Optical pickup formed including In Choo initiator, in order to reduce the pitching (pitching) of the imbalance of force generated by the optical pickup actuator, and providing a third magnet (25) having a predetermined shape on one surface of the holder 23.

That is, the present invention provides a predetermined groove portion 24 on the front surface of the holder portion 23 opposite to the rear surface of the second magnet 17 in order to reduce the pitching occurring in the general slim optical pickup actuator. Attach the magnet (25). In one embodiment of the present invention, the groove portion 24 of a predetermined shape is provided in the holder portion 23, but without forming the groove portion 24, the third magnet 25 of the present invention is provided with a holder portion ( It is also possible to attach to the front surface of 23).

The operation of the above-described embodiment of the present invention will be described in detail with reference to FIG. 4, so that the polarity of the third magnet 25 used in the present invention has the same direction as that of the opposing second magnet 17. . That is, it can be seen that the second magnet 17 has a polarity in the direction as shown in Fig. 4, and the opposing third magnets 25 have the same polarity. Due to the arrangement of the magnets to have such polarity, the direction of the magnetic force generated at the rear surface of the second magnet 17 is as shown in the drawing, from the N pole of the second magnet 17 to the S pole of the third magnet 25. It is formed in the direction flowing. Therefore, when looking at the direction of the force formed in the focusing coil 21 using the Fleming's left-hand rule, the direction of the force generated in front of the second magnet 17 is upward by the influence of the first magnet 16 The force of F1 is generated toward the direction of the force generated in the rear of the second magnet 17, the force of F2 toward the upper direction is generated by the influence of the third magnet (25).

Therefore, referring to Figure 4, as shown in Figure 2 showing the action of the force of the conventional actuator, the rotation moment due to the difference in the force generated in both directions of the focusing coil 21 is not generated Able to know. Therefore, there is an advantage that it is possible to reduce the occurrence of the pitching mode generated by the rotation moment due to the difference in force.

In addition, as in the embodiment of the present invention, by providing another magnet, as shown in Figure 4, there is an advantage that can maximize the force generated in the coil. That is, in the present invention, as the force of F1 + F2 is generated in the upward direction, there is an advantage that the movement in the focusing direction can be more effectively adjusted.

The present invention can be compensated for the unbalance of the force generated between the magnetic circuit and the coil generated in the conventional slim optical pickup actuator by having the configuration as described above. In addition, as described above, there is an advantage that the generation of the rotation moment due to the imbalance of the force can be suppressed and the force generated in the coil as a whole can be maximized.

As such, the present invention is not limited to the embodiments of the present invention described above, and can be freely changed and modified. The free changes of the present invention are not limited to the embodiments of the detailed description described above, and free changes are possible without departing from the claims described below by those skilled in the art.

Claims (3)

A bobbin 12 having an objective lens 11 installed to be adjustable in a focusing direction and a tracking direction; A wire 22 connected to the side surface of the bobbin to produce minute movements of the focusing direction and the tracking direction of the bobbin 12; A pair of yokes facing each other facing each other at a predetermined interval in front of the upper surface is extended in the upward direction, and a wire holder 18 for connecting the wires is fixedly formed with the holder portion 23 interposed at the rear of the upper surface. Plate 13; A printed circuit board 19 connected to the wire 22 and tightly fixed to the rear surface of the wire holder 18 and the holder part 23; And In the optical pickup actuator formed by including the first and second magnets (16, 17) symmetrically attached to the opposite surfaces of the yoke (14, 15), And a third magnet having a predetermined shape is provided on one surface of the holder to reduce the pitching occurring in the optical pickup actuator. The method of claim 1, A slim optical pickup actuator, characterized in that a groove portion is provided on one surface of the holder portion for attaching the third magnet. The method of claim 1, And the polarity of the third magnet is provided with the same pole as the opposite second magnet.

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