KR200144849Y1 - Tracking Coil Assembly Structure of Axial Perturbation Actuator - Google Patents

Abstract

The present invention relates to a tracking coil assembly structure of an axial perturbation actuator for quickly assembling the tracking coil in the correct position of the lens holder without using a separate adhesive jig.

The present invention forms a plurality of polygonal grooves 66 on the side of the lens holder 60, and the polygonal projection 82 on one side of the magnetic body 80 formed so that the winding groove 72 of the tracking coil 70 is fitted. Is formed and inserted into the polygonal groove 66 of the lens holder 60.

In the present invention, the winding groove 72 of the tracking coil 70 is fixed to the magnetic body 80 so that the position thereof is fixed. Therefore, the tracking coil 70 can be accurately adhered to the lens holder 60 in the correct position by a single main bonding process. As a result, the entire work of adhering the tracking coils 70 is quickened, thereby improving the assembly workability.

Description

Tracking Coil Assembly Structure of Axial Perturbation Actuator

The present invention relates to a structure for assembling the tracking coil to the lens holder of the axial perturbation actuator, in particular, the lens is inserted into the winding groove of the tracking coil in a magnetic body fixed to the side of the lens holder to lift and damp the lens holder by the magnetic force of the magnet By fixing to a holder, it relates to a tracking coil assembly of an axial perturbation actuator for quickly and accurately assembling the tracking coil to the correct position of the lens holder.

In general, an optical pickup device is installed in a disc player to irradiate a disc with laser light and to receive light reflected from the disc to reproduce the recording contents of the disc. And an objective lens for focusing the laser light emitted from the hologram element on the disk surface. The objective lens must continuously move in the optical axis direction and the tracking direction while correcting the error value in order to form the focus of the laser on the disc. The actuator is used to move the objective lens in the optical axis and tracking direction.

An axis perturbation actuator is one in which the lens holder holding the objective lens is moved in the optical axis and the tracking direction around the rotation axis, and such an axis perturbation actuator includes an actuator and a digital video disk fixed to an objective lens for a compact disk. Actuators with fixed objective lens, CD objective lens and actuator with fixed both.

Meanwhile, as shown in FIG. 1, the axial perturbation actuator including both the CD objective lens 12 and the DVD objective lens 14 has a lens holder 10 by a rotating shaft 22 provided on the yoke plate 20. ) Is installed so as to be rotatable and vertically movable, and the objective lens 12 for the CD is fixed to one side of the lens holder 10, and the rotary shaft 22 is spaced apart from the CD objective lens 12 at a predetermined interval. The objective lens 14 for the DVD is fixed at the same distance as the.

And a plurality of tracking coils 18 are wound and bonded to the side of the lens holder 10 to generate an electromagnetic force by the magnetic flux of the magnet 22 fixed to the yoke plate 30 to rotate the lens holder 10, The CD and DVD objective lenses 12 and 14 are moved in the tracking direction. In addition, the focusing coil 20 is wound around the inner center of the lens holder 10 to generate an electromagnetic force by the magnetic flux of the magnet 24 installed on the yoke plate 30 to move the lens holder 10 along the rotating shaft 32. By moving up and down, the objective lenses 12 and 14 for CD and DVD are moved in the focusing direction.

Meanwhile, the tracking coil 18 is wound in advance and adhered to the side of the lens holder 10. The tracking coil 18 needs to be bonded to the correct position to generate an electromagnetic force by the magnetic flux of the magnet 22 fixed to the yoke plate 30. 10 can be moved to a desired position. Therefore, in order to adhere the tracking coil 18 to the lens holder 10 accurately, the tracking coil 18 is adhered to the lens holder 10 using the adhesive jig 50 as shown in FIG.

The adhesive jig 50 has a fixed shaft 54 is fitted to the shaft hole 16 formed in the lens holder 10 on the upper surface of the mounting portion 52 for mounting the lens holder 10, the fixing The fixing cap 56 is screwed to the upper end of the shaft 54 to press and fix the upper side of the lens holder 10. In addition, both sides of the seating portion 52 is hinged to the rotating plate 58 formed on the upper surface of the fixing projection 59 for fixing the tracking coil 18 is fixed.

The operation of adhering the tracking coil 18 to the lens holder 10 using the above-described adhesive jig 50 is, first, inserting the tracking coil 18 into the fixing protrusion 59 of the pivoting plate 58 and then attaching the tracking coil 18 to the upper surface. After applying the adhesive, the rotating plate 58 is rotated to bring the tracking coil 18 into contact with the side of the lens holder 10, and then temporarily cured so that the tracking coil 18 is not detached, and then fixed. (58) was repositioned and the position of the tracking coil 18 was examined, and then the adhesive was again applied and cured. When the adhesive is an ultraviolet curing bond, the ultraviolet ray is irradiated with an ultraviolet irradiator to cure the adhesive.

Therefore, the tracking coil 18 could be bonded to the correct position on the side of the lens holder 10, and thus the magnet 22 in which the tracking coil 18 adhered to the lens holder 10 was fixed to the yoke plate 30. The lens holder 10 could be driven accurately by the magnetic flux of.

However, bonding the tracking coil 18 to the lens holder 10 using the adhesive jig 50 as described above increases the cost because the adhesive jig 50 must be manufactured separately, and uses the adhesive jig 50. Since the tracking coil 18 is bonded to the side of the lens holder 10 and then the position is inspected and the main bonding is performed again, the assembly work is complicated and the workability is deteriorated.

The present invention is devised to improve the conventional problems, the object of the present invention is to quickly assemble the tracking coil in the correct position of the lens holder without using a separate adhesive jig.

The purpose of the above is to form a plurality of polygonal grooves on the side of the lens holder, and to form a polygonal projection on one side of the magnetic body formed so that the winding groove of the tracking coil is inserted into the tracking of the axial perturbation actuator inserted into the polygonal groove of the lens holder. It can be achieved by providing a coil assembly structure.

1 is a perspective view showing a general axial perturbation actuator.

2 is a cross-sectional view showing a tracking coil bonding jig of an axial perturbation actuator.

Figure 3 is a perspective view showing a tracking coil assembly structure according to the present invention.

Figure 4 is a perspective view showing a state in which the tracking coil is assembled to the lens holder according to the present invention.

<Explanation of symbols for main parts of drawing>

60 lens holder 62 objective lens for CD

64: objective lens for DVD 66: polygon groove

70: tracking coil 72: winding groove

80: magnetic material 82: polygonal projection

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

First, as shown in FIG. 3, two polygonal grooves 66 are formed on both sides of the lens holder 60 of the axial perturbation actuator, and the winding groove 72 of the tracking coil 70 is formed. A polygonal protrusion 82 inserted into the polygonal groove 66 of the lens holder 60 is formed at one side of the magnetic material 80 formed to be fitted.

The magnetic body 80 serves to lift the lens holder 60 while being attracted by the magnetic force of the magnet fixed to the yoke plate, and the lens holder 60 has a position and a DVD of the objective lens 62 for the CD. In order to damp the lens holder 60 with a force attracted by the magnetic force of the magnet when the lens holder 60 is momentarily rotated by applying a momentary large current to the tracking coil 70 to change the position of the objective lens 64. will be.

Before assembling the tracking coil 70 to the lens holder 60, first, the polygon projections 82 of the magnetic body 80 are inserted into four polygon grooves 66 formed on both sides of the lens holder 60, and then fixed. An adhesive is applied around the magnetic body 80 to fix the magnetic body 80 to the lens holder 60.

Subsequently, the winding groove 72 of the tracking coil 70 is fixed to the magnetic body 80 fixed to the lens holder 60. The winding groove 72 of the tracking coil 70 is formed in a polygonal shape. ), The position of the tracking coil 70 is fixed without flowing. In this state, the tracking coil 70 is fixed to the lens holder 60 by applying and curing an adhesive around each tracking coil 70. In this case, if the adhesive is an ultraviolet curing bond, ultraviolet light is irradiated around the tracking coil 70 with an ultraviolet irradiator to cure the ultraviolet curing bond to fix the tracking coil 70 to the lens holder 60.

Therefore, the operation of adhering the tracking coil 70 is fixed by positioning the tracking coil 70 by the magnetic body 80 fixed to the lens holder 60, so that the tracking coil 70 may be attached to the lens holder ( 60 can be accurately bonded in place, and thus the entire operation of adhering the tracking coil 70 can be speeded up.

As described in the above embodiments, the present invention forms a polygonal groove 66 in the lens holder 60 of the axial perturbation actuator, and the magnetic body 80 fits into the winding groove 72 of the tracking coil 70. The formed polygon protrusion 82 is fixed to the polygon groove 66 of the lens holder 60. The winding groove 72 of the tracking coil 70 is fitted into the magnetic body 80 to fix the position thereof. In this process, the tracking coil 70 may be accurately adhered to the correct position of the lens holder 60, and thus the overall work of adhering the tracking coil 70 may be quickly performed, thereby improving the assembly workability.

Claims (1)

In the structure of assembling the tracking coil 70 to the lens holder 60 of the axial perturbation actuator provided in the disc player, A plurality of polygonal grooves 66 are formed on the side of the lens holder 60, and a polygonal protrusion 82 is formed on one side of the magnetic body 80 formed to fit the winding groove 72 of the tracking coil 70. Tracking coil assembly structure of the axial perturbation actuator, characterized in that inserted into the polygonal groove (66) of the lens holder (60).