KR100207270B1 - An objective lens combination structure of the axis perturbation actuator - Google Patents

Abstract

The present invention relates to an axial perturbation actuator objective lens coupling structure for matching the optical axis of a CD objective lens and a DVD objective lens assembled in a lens holder of an axial perturbation actuator with an axial hole, and improving the assemblability.

According to the present invention, an accommodating part 52 is formed on an upper side of the laser holes 54 and 56 formed in the lens holder 50, and the objective lens 80 and 90 for CD and DVD is fixed to the accommodating part 52. Join the case 60.

According to the present invention, the CD objective lens 80 and the DVD objective lens 90 coincide with each other and the optical axis coincides with the shaft hole 51, thereby improving the quality of the actuator, and the CD objective lens 80 and the DVD By assembling the objective lens 90 to the lens holder 50 by pressing, there is an effect of improving the assembly.

Description

Objective coupling structure of axial perturbation actuator

The present invention relates to a structure in which an objective lens is coupled to a lens holder of an axial perturbation actuator, and in particular, by fixing a CD objective lens and a DVD objective lens to a case and assembling the case to a housing formed in the lens holder. The present invention relates to an axial perturbation actuator objective structure for matching an optical axis of an objective lens and an objective lens for a DVD and improving assembling.

In general, an optical pickup device is a device installed in a CD player for irradiating laser light to the disc and receiving the 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 to form the focus of the laser on the disk. The actuator is to continuously move the objective lens in the optical axis and tracking direction. .

Among these actuators, the lens holder holding the objective lens moves in the optical axis and the tracking direction about the rotation axis. As the axis perturbation actuator, the objective lens for the compact disk is fixed and the digital video disk is used for the axis perturbation actuator. There are fixed object lenses, actuators for both CD objectives and DVD objectives.

FIG. 1 is an axial perturbation actuator including both a CD objective lens 12 and a DVD objective lens 14, wherein the shaft hole 11 of the lens holder 10 is provided on a rotating shaft 22 provided on the yoke plate 20. The lens holder 10 is rotatably installed in such a manner that the lens holder 10 is rotatable and vertically movable. The objective lens 12 for the CD is fixed to one side of the lens holder 10, and is spaced a predetermined distance from the objective lens 12 for the CD. The DVD objective lens 14 is fixed to the same distance as the rotation shaft 22.

On the other hand, the structure in which the CD objective lens 12 and the DVD objective lens 14 are fixed to the lens holder 10 is shown in FIG. 2, the objective lens for the CD on the upper surface of the lens holder 10 ( A mounting groove 16 for seating 12 is formed, and a plurality of locking protrusions 17 protrude from the inner side of the mounting groove 16 to support the bottom surface of the objective lens 12 for the CD. A plurality of locking projections 19 supporting the bottom surface of the DVD objective lens 14 also protrude from the inner surface of the seating groove 18 formed to seat the DVD objective lens 14.

Therefore, when the CD objective lens 12 and the DVD objective lens 14 are fixed to the lens holder 10, the CD objective lens 12 and the DVD objective lens 14 are respectively mounted in the recesses 16 and 18. CD and DVD objectives while the bottom surfaces of the CD and DVD objective lenses 12 and 14 are supported by the engaging protrusions 17 and 19 formed in the respective seating grooves 16 and 18, respectively. It fixes by apply | coating and hardening an adhesive agent around (12,14).

However, if the CD and DVD objective lenses 12 and 14 are seated in the lens holder 10, the bottom surfaces of the CD and DVD objective lenses 12 and 14 are formed in the respective recesses 16 and 18. If the projections 16 and 18 are not correctly seated, the optical axes do not coincide between the CD objective lens 12 and the DVD objective lens 14, and the optical axes coincide with the shaft holes 11 formed in the lens holder 10. Since the CD objective lens 12 and the DVD objective lens 14 do not focus the laser light of the hologram element exactly vertically upward on the disk, a tracking error occurs at the focus of the laser light. When such a tracking error occurs, the lens holder 10 must be continuously driven to correct the tracking error, thereby increasing power consumption and degrading the ability to play the disc.

In addition, in order to secure the CD and DVD objective lenses 12 and 14 to the lens holder 10 by bonding, a process such as adhesive injection and curing is required, thereby degrading the assembly workability of the actuator.

The present invention has been made to solve the conventional problems, an object of the present invention is to accurately match the optical axis to the axis hole formed in the lens holder and the objective lens for CD and the objective for CD and objective for DVD The optical axes are also matched to each other, and the objective for CD and DVD is easily coupled to the lens holder without bonding.

The above object is achieved by forming an accommodating portion on an upper side of a laser ball formed in the lens holder, and providing an objective lens coupling structure of an axial perturbation actuator for engaging a case in which CD and DVD objective lenses are fixed to the accommodating portion.

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

Figure 2 is a perspective view showing the separation of the objective lens of a typical axial perturbation actuator.

Figure 3 is a perspective view showing an objective lens coupling structure according to the present invention.

Figure 4 is a perspective view showing a state in which the objective lens is fixed to the case according to the invention.

5 is a cross-sectional view showing a state in which an objective lens is coupled to a lens holder according to the present invention.

〈Description of the symbols for the main parts of the drawings〉

50: lens holder 52: storage

54,56,72,74: Laser ball 58: Jamming projection

60: case 62: storage groove

64: large diameter guide 66: jam jaw

68: small diameter guide 70: rounding

80: objective lens for CD 82,92: upper part

84,94: Lower part 90: Objective lens for DVD

Hereinafter, a preferred embodiment of the objective lens coupling structure of the axial perturbation actuator according to the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in FIG. 3, the housing 52 is formed above the laser holes 54 and 56 formed in the lens holder 50, and the upper and both sides of the housing 52 are formed. The locking protrusion 58 protruding inward is formed.

The case 60 coupled to the housing 52 formed in the lens holder 50 forms laser holes 72 and 74 corresponding to the laser holes 54 and 56 of the lens holder 50 on the bottom surface thereof. The inside of the receiving groove 62, which is opened upwardly and upwardly, is formed therein, and the small diameter guide 68 in which the upper end 82 of the objective lens 80 for the CD is press-fitted is formed on both upper sides of the receiving groove 62. As a result, the upper end portion 82 of the CD objective lens 80 is rounded to form a rounding 70. Further, a large diameter guide 64 through which the upper end 92 of the wide objective lens 90 for the wide area is passed through the locking projection 66 to the outside of the small diameter guide 68 is formed.

The operation of the objective lens coupling structure of the above configuration is described.

First, to secure the CD objective lens 80 and the DVD objective lens 90 to the case 60, as shown in Figure 4, the upper end 82 of the CD objective lens 80 is the case 60 It is sandwiched between the two large diameter guides 64 formed on the upper side of the receiving groove 62, and presses the lower end 84 into the receiving groove 62 by applying pressure. Then, the objective lens 80 for the CD slides in the receiving groove 62 of the case 60, and the upper end 82 passes the locking jaw 66 formed inside the large diameter guide 64, and then the small diameter guide 68. Under pressure, it enters the innermost side of the receiving groove 62. Then, the rounding 70 formed at the inner end of the small diameter guide 68 surrounds the upper end 82 of the objective lens 80 for the CD, and the small diameter guide 68 covers the upper end 82 of the objective lens 80 for the CD. Since both sides are compressed, the objective lens 80 for the CD is fixed by pressure at the innermost side of the receiving groove 62.

Then, to fix the objective lens 90 for the DVD 60 to the case 60, the large diameter guide 64 on the upper side of the receiving groove 62 formed in the case 60 to the upper end 92 of the objective lens 90 for DVD ) And the lower end 94 enters the receiving groove 62 and is pushed under pressure. Then, the objective lens 90 for the DVD has a locking jaw formed at the inner end of the large diameter guide 64 while the upper end 92 slides in the receiving groove 62 under pressure by the large diameter guides 64 on both sides. 66 is stopped when the upper end 92 is touched, the objective lens 90 for the DVD is the upper end 92 is pressed by the locking jaw 66 and the large diameter guide 64 in the receiving groove 62 It is fixed.

At this time, the objective lens 80 for the CD is located on the upper side of the laser hole 72 formed in the bottom surface of the receiving groove 62 of the case 60, the objective lens 90 for the DVD is a laser hole 74 of the receiving groove 62 ) It is located on the upper side.

In this state, the case 60 is inserted into the accommodating part 52 formed in the lens holder 50. In this case, the rear end of the case 60 is inserted into the front of the accommodating part 52 of the lens holder 50 and pressure is applied. When applied and pushed in, the upper end of the case 60 is prevented from escaping upward by the locking protrusion 58 formed in the accommodating portion 52 while being slid into the interior of the accommodating portion 52 while being pressurized.

When the case 60 is completely crushed into the inside of the housing 52 of the lens holder 50, the laser holes 72 and 74 of the case 60 are formed on the bottom surface of the housing 52. ), And the laser light irradiated from the hologram element passes through each of the laser holes 54, 56, 72, and 74 and irradiates the objective lens 80 for CD and the objective lens 90 for DVD on the disk. The focus can be formed.

Since the CD objective lens 80 and the DVD objective lens 90 are not allowed to flow in the receiving groove 62 of the case 60, the case 60 is a housing portion of the lens holder 50. Even when coupled to 52, the optical objective 80 for the CD and the objective objective 90 for the DVD coincide with each other. In addition, since the case 60 is press-fitted into the housing 52 of the lens holder 50, assembly is easy, and in particular, the CD objective lens 80 and the DVD objective lens 90 are bonded to the lens holder 50. The assembly process is simplified because it is fixed by indentation rather than by means of fixing. In addition, the case 60 in which the CD and DVD objective lenses 80 and 90 are fixed is press-fitted while matching the shape of the accommodating portion 52 of the lens holder 50, thereby providing the CD and DVD objective lenses 90. Since the combined state is not deformed by the assembly, the shaft hole 51 and the optical axis formed in the lens holder 50 and the objective lens 80 for the CD and the objective lens 90 for the DVD are mutually coincident with each other.

As described in the above embodiments, the present invention fixes the CD objective lens 80 and the DVD objective lens 90 of the axial perturbation actuator to the case 60, and the case 60 is fixed to the lens holder 50. ), The objective lens 80 for CD and the objective lens 90 for DVD coincide with each other, and the optical axes coincide with the axis hole 51 and irradiated from the hologram element. Since the laser light is precisely focused on the disk through the CD and DVD objective lenses 80 and 90, the quality of the actuator is improved, and the CD objective and the DVD objective lens 90 are press-fitted. By assembling the lens holder 50 there is an effect that the assembly is improved.

Claims (4)

In the structure of coupling the objective lens (80, 90) for CD and DVD to the lens holder 50 of the axial perturbation actuator, A case in which the accommodating part 52 is formed above the laser holes 54 and 56 formed in the lens holder 50, and the objective lenses 80 and 90 for the CD and the DVD are fixed to the accommodating part 52. 60) The objective lens coupling structure of the axis perturbation actuator, characterized in that coupled. According to claim 1, wherein both sides of the upper portion of the housing 52 formed in the lens holder 50, the locking projection 58 is formed to prevent the case 60 is separated from the upper side of the axial perturbation actuator Objective lens coupling structure. According to claim 1, wherein the case 60 has a laser hole (72, 74) corresponding to the laser hole (54, 56) of the lens holder 50 on the bottom surface receiving groove 62 which is open to one side and the upper side Is formed, the small diameter guide 68 is formed in the upper both sides of the receiving groove 62, the upper end portion 82 of the CD objective lens 80 is pressed, the objective for the DVD outside the small diameter guide 68 The objective lens coupling structure of the axial perturbation actuator, characterized in that a large diameter guide 64 is formed to be pressed in the upper end 92 of the lens 90. 4. The axial perturbation actuator according to claim 3, wherein a rounding 70 is formed at an inner end of the small diameter guide 68 formed in the case 60. Objective lens coupling structure.