KR200151037Y1 - A supporting device for objective lens driving part of optical pickup - Google Patents

Abstract

Disclosed is an optical pickup objective support unit supporting device having an improved structure of a leaf spring for supporting an objective lens drive unit. It forms a fillet portion 132b in the leaf spring and has an auxiliary leaf spring 150 to reduce the stiffness change of the spring, reduce stress concentration, and reduce the rotation and sub-resonance of the drive to enable precise control. Has an advantage.

Description

Supporting objective lens drive unit for optical pickup

1 is a perspective view showing a conventional support device.

2 is a perspective view showing an extract of the leaf spring of FIG.

Figure 3 is a perspective view showing a support device according to the present invention.

4 and 5 are another embodiment of the leaf spring employed in the support device according to the present invention.

* Explanation of symbols for main parts of the drawings

120: fixed block 130: drive unit body

131: objective lens 132 ~ 134: leaf spring

150: auxiliary leaf spring

The present invention relates to an optical pickup objective lens driving unit support device installed in an optical recording and / or reproducing mechanism, and more particularly, to an optical pickup movable unit support device having an improved structure of a leaf spring supporting the movable unit.

For example, each player using an optical recording medium such as a CDP or LDP is provided with an optical pickup for scanning a light beam such as a laser and detecting the light beam reflected from the medium. In such optical pickup, the servo which controls the horizontal and vertical positions of the objective lens by detecting the horizontal and vertical positions of the objective lens from the reflected light beam and applying a predetermined current signal to the objective lens driver at the same time as recording or reproduction. Control is being performed. Therefore, the objective lens driving unit should be provided with elastic support means for allowing the driving unit body to be micro-moved at least in the horizontal and vertical directions.

The objective lens driver provided with such elastic support means is schematically shown in FIG. An elastic support means is provided on the fixed block 20 fixed to the base 10 to support the driving unit body 30 on which the objective lens 31 is mounted so as to be movable, and on the outer circumferential surface of the driving unit body 30. The coil 36 for focusing and the coil 37 for focusing are wound. In addition, opposing opposing side surfaces of the driving unit body 30, permanent magnets 41 and 42 and yoke members 43 and 44 are formed together with the coils 36 and 37 to form a magnetic circuit.

On the other hand, the elastic support means has a structure in which the leaf springs (32-34) for supporting the drive unit body 30 in the optical axis direction and the vertical direction in the optical axis direction is installed. The leaf springs 32-34 are formed in a rectangular bar shape as shown in FIG. 2 so as to be elastically deformed up, down, left and right.

By the way, the leaf spring (32-34) is a sharp width change occurs at the point that is connected to the fixed block (20). The boundary conditions at the edges of the leaf springs can be very sensitive to the minute assembly errors that can occur during the assembly process, and stress concentrations occur during elastic deformation in the up, down, left and right directions. Therefore, the fatigue breakage is accelerated by repeated spring movements, and when a small assembly error occurs, it adversely affects a drive unit that requires precise tracking control.

In addition, the leaf spring (32-34) structure as described above is resonated with respect to the external vibration can not stably support the drive unit body (30).

The present invention has been made to solve the above problems, and provides an optical pickup objective lens drive support for the structure is improved so that the stiffness change of the spring due to the assembly error of the leaf spring is reduced and the stress concentration can be alleviated. The purpose is to.

Another object of the present invention is to provide an objective lens driving unit support device of an optical pickup capable of stably supporting the driving unit body against external vibration.

In the present invention to achieve the above object, in the optical pickup objective lens driving unit support device having a leaf spring member for supporting the drive unit body for mounting the objective lens on the fixed fixed block in a horizontal and vertical direction so as to be movable,

An auxiliary plate spring member is attached to the plate spring member.

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

Referring to FIG. 3 showing the objective lens driver supporting apparatus of the optical pickup according to the present invention, it is fine to drive the main body 130 is mounted on the fixed lens 120 fixed to the base 100, the objective body 131 Leaf springs (132-134) are supported to be able to swing, and a focusing coil (136) and a tracking coil (137) are wound on the outer circumferential surface of the drive unit body (130). In addition, the permanent magnets 141 and 142 and the yoke members 143 and 144 that form a magnetic circuit together with the driving unit bodies 130 and 137 are provided.

Here, the leaf springs (132-134) has a fixed portion (132a) fixed to the fixed block 120 (see FIG. As a structure, it has a structure in which the fillet part 132b which has predetermined curvature is formed between the fixed part 132a and the fine moving part 132c.

In addition, the auxiliary plate spring member 150 is attached to the fine moving part 132c, and may be formed integrally with the fine moving part 132c. The auxiliary leaf spring member 150 is formed in a c shape as shown in FIGS. 3 and 5 so that both ends thereof are connected to the edge of the fine moving part 132c, and as shown in FIG. It may be configured as or may be configured asymmetrically as shown in FIG.

On the other hand, the auxiliary leaf spring member 150 may be formed in a U-shape as shown in FIG.

The objective lens driving unit support device of the optical pickup according to the present invention configured as described above has the following effects.

First, when the driving unit body 130 moves finely in the horizontal and vertical directions by the electromagnetic circuits of the permanent magnets 141 and 142 and the coils 136 and 137, the leaf springs 132-135 are moved finely. Supporting the drive unit body 130 while being fine elastic deformation in accordance with the direction. Thus, when each leaf spring (132-135) is elastically deformed to support the drive unit body 130, a fillet of a predetermined curvature between the fixed portion (132a) and the fine motion (132c) of each leaf spring (132-135) By forming the portion 132b, the stress concentration is dispersed, thereby greatly reducing the rotation and the negative resonance of the driving unit 130. Further, the weak durability is improved and fixed due to the small width compared to the length of each leaf spring 132-135. It is possible to reduce the stiffness change at the sliding part of each leaf spring (132-135) according to the assembly error of the leaf spring (132-135) in the block (120).

In addition, by attaching the auxiliary leaf spring 150 to the sliding portion 132c of the leaf spring, the surface area of the leaf spring is increased, thereby suppressing the twist of the leaf springs 132-135 due to the rolling of the drive unit 130, thereby precisely controlling Make it possible.

Meanwhile, according to the applicant's experiment,

The weight of the driving unit 130 was 1.44 kg, the width of the sliding part 132c of the leaf spring was 120 µm, the thickness was 80 µm, and the length was 10.5 mm.

As the fillet radius increases, the natural frequency (stiffness) in the focus direction, the track direction, and the rotation direction increases.

In addition, looking at the change in the natural frequency (stiffness) according to the shape of the auxiliary leaf spring 150 by the applicant's experiment,

The weight of the driving unit 130 was 1.44 kg, the width of the sliding part of the leaf spring was 120 µm, the thickness was 90 µm, and the length was 10.4 mm.

Through this result, it can be seen that the rigidity is increased by the attachment of the auxiliary leaf spring 150.

As described above, the support device of the present invention has the following advantages.

First, by forming the fillet portion, it is possible to reduce the stiffness change in the focus and track directions caused by the assembly error of the leaf spring, to have a stable boundary condition of the spring, and to reduce stress concentration.

Secondly, by forming the auxiliary leaf spring, the rotation of the drive part and the resonant resonance are reduced while increasing the durability of the leaf spring.

These advantages provide the effect of enabling precise control of the drive.

Claims (7)

An optical pickup objective lens driving unit supporting device having a leaf spring member for supporting a drive unit for mounting an objective lens on a fixed fixed block so as to be movable in a horizontal and vertical direction, wherein the leaf spring member is provided with an auxiliary leaf spring. The objective lens driving unit support device of the optical pickup, characterized in that the member is attached. The objective lens driver of claim 1, wherein a fillet part having a predetermined curvature is formed at both ends of the leaf spring connected to the driving unit body and the fixed block. The objective lens driving unit of claim 1, wherein the auxiliary leaf spring member is integrally formed with the leaf spring member. The apparatus of claim 1 or 3, wherein the auxiliary leaf spring member is formed in a c shape. [5] The apparatus of claim 4, wherein the auxiliary leaf spring member is provided symmetrically with respect to the leaf spring member. 5. The apparatus of claim 4, wherein the auxiliary leaf spring member is asymmetrically provided at both edges of the leaf spring member. 4. The objective lens driving unit of claim 2 or 3, wherein the auxiliary leaf spring member is formed in a jaw shape, and both ends thereof are connected to an edge of the fine moving part.