KR20050052129A - Optical pick-up actuator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup actuator, comprising an objective lens holder, which prevents heat generated during optical pickup from being transferred to an objective lens by an electric signal applied thereto, thereby preventing damage of the objective lens due to heat and the like. To prevent collision between the disk and the objective lens.

The optical pickup actuator of the present invention comprises an objective lens; An objective lens holder formed with fixing projections for reducing the contact surface with the bobbin and fixed to the objective lens insertion portion, and an objective lens support portion projecting in the center direction to guide and mount the objective lens according to the shape of the objective lens; A bobbin having a holder insert formed thereon, into which an objective lens holder is mounted, and having a tracking coil and a focusing coil attached; It comprises a frame to form a magnetic field to mount a magnet for driving the bobbin in interaction with the coils and the bobbin is mounted between the magnets.

Description

Optical Pick-up Actuator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pick-up actuator of a disc drive used for writing information to a recording medium such as a CD or a DVD (Digital Versatile Disc), or reading recorded information. The optical pickup actuator is inserted into the objective lens holder and then mounted to the bobbin, thereby preventing damage caused by collision with the disk due to thermal damage and vibration of the objective lens.

In general, an optical pickup apparatus uses an laser beam to record a CD, a DVD, or the like to record information by reading an information or generating an optical difference by determining an optical difference on the surface of the record. Is a diagram illustrating such a general optical pickup device.

As shown in the drawing, a typical optical pickup device includes a laser diode 10 for generating a laser light source and a shaping process for moving in a predetermined direction when the laser light generated by the laser diode 10 is incident at an arbitrary angle. The prism 11, the beam splitter 12 which changes the refraction direction differently according to the incident direction of the laser beam which passed the said prismatic prism 11, and the laser beam converted by the said beam splitter 12 in parallel A collimator lens 13 for adjusting the light, an objective lens 14 for condensing the laser light adjusted in parallel, and a photodetector 15 for detecting light reflected from the data track of the optical disk by the focused laser light. It consists of.

The optical pickup apparatus as described above condenses the laser light, which has entered through the optical system, in the objective lens 14 so as to read or write information stored on the disk and irradiates it onto the disk. At this time, in order to accurately follow the track of the disk rotating at high speed, the position of the laser beam focused on the objective lens 14 must be continuously adjusted. For this purpose, an optical pickup actuator is used.

As shown in FIG. 2, the conventional optical pickup actuator includes an objective lens driver 24 including an objective lens 20 and a bobbin 21, and a frame 23 on which the objective lens driver 24 is seated and supported. ) And a magnet 22 forming a magnetic field.

As shown in FIG. 3, the objective lens driver 24 includes a bobbin 21 having an objective lens 20 for condensing laser light and a lens holder 34 for mounting the objective lens 20. In addition, the objective lens 20 includes a focusing coil 30 and a tracking coil 31 as a driving source that moves along a signal track in the disk while focusing the laser light incident on the disk surface.

In the conventional optical pickup actuator having such a configuration, the bobbin 21 is installed to be spaced apart from the magnet 22 and the frame 23 at a predetermined interval so that the bobbin 21 can move according to an applied electric signal, and the objective lens 20 ) Is attached to the upper surface of the objective lens mounting surface 33 along the objective lens guide surface 32 of the lens holder 34.

In the conventional optical pickup actuator having the above-described configuration, the focusing coil 30 is a spot of the laser beam focused by the objective lens 20 in accordance with an electrical signal applied to the coil during the reproduction / recording operation of the optical disc. The objective lens 20 is moved up and down to exactly match the recording surface of the disk, and the tracking coil 31 moves the objective lens 20 to the left and right so that the spot of the focused laser light can accurately track the track of the disk. It works to move.

Here, in the focusing coil 30 to which the focusing control electric signal is applied and the tracking coil 31 to which the tracking control electric signal is applied, electric resistance heat is generated by the electric resistance, and the electric field generated in the coil to which the electric signal is applied. Magnetic heat is generated by the interaction between the magnetic field generated in the magnet 22 and the heat generated in this way is transferred to the objective lens 20 through the bobbin 21. In the conventional optical pickup actuator, since the objective lens is directly mounted on the bobbin, the contact area between the objective lens and the bobbin is large, and thus heat generated is easily transferred to the objective lens.

If the heat is prolonged or the high temperature heat is transmitted to the objective lens 20, the objective lens 20 may be damaged and the function of the optical pickup actuator may be degraded. More specifically, when the continuous or high temperature heat is transmitted to the objective lens 20, physical deformation such as distortion of the objective lens 20 occurs, and thus the refractive index is changed. Since problems such as not forming at all occur and tracks of the disc cannot be accurately followed, the performance of the optical pickup actuator is degraded.

In recent years, since the size of the bobbin tends to be small for miniaturization and low power consumption, heat generated in the coils 30 and 31 can be easily transferred to the objective lens 20, and due to the high speed of the drive The amount of heat generated is increasing. Therefore, it is important to prevent heat generated around the coils 30 and 31 from being transferred to the objective lens 20.

In addition, when the objective lens is managed and operated, the objective lens may be damaged by an impact from the outside, and may be contaminated from foreign matters. It may crash and cause damage to the objective lens.

The present invention has been invented to solve the above problems, and an object thereof is to provide an optical pickup actuator in which an objective lens operates smoothly without damage even when a continuous and large amount of heat is generated.

Another object of the present invention is to prevent the impact of the objective lens from the outside during the management and operation of the objective lens.

Another object of the present invention is to protect the objective lens by preventing the collision of the objective lens and the disk during the drive of the drive.

According to the present invention having such an object, by reducing the heat transfer path by mounting the objective lens holder for mounting the objective lens to the bobbin, it is intended to prevent the heat generated during the optical pickup to damage the objective lens.

To this end, the optical pickup actuator of the present invention is moved within the radial range of the optical disk, the frame is fixed to the magnet for generating a magnetic field;

A bobbin installed in the frame and moved up / down / left / right by a magnetic field in which a tracking coil and a focusing coil are generated and a magnetic field of the magnet;

An objective lens for condensing laser light and irradiating the optical disk while moving together as the bobbin moves; And

The objective lens holder is attached to the holder seating surface of the bobbin and the objective lens is inserted and fixed inside.

Hereinafter, the optical pickup actuator of the present invention will be described in detail with reference to FIGS. 4, 5 and 6.

4 is a perspective view showing the configuration of the objective lens driving unit of the optical pickup actuator of the present invention.

Here, reference numeral 40 denotes a bobbin, in which electromotive force is generated according to an applied electric signal to drive the bobbin 40 and the bobbin 40 in the left and right directions to drive the bobbin 40 in the up and down directions. The tracking coil 41 is attached.

Reference numeral 45 denotes a holder inserting portion, a plurality of holder guide surfaces 43 protruding in an upward direction for preventing the objective lens holder 47 from being separated and simultaneously guiding up to the holder seating surface 44, and the objective lens holder ( A holder seating surface 44 for adhering and fixing 47 is formed.

The objective lens holder 47 is made of a silicon material having a low thermal conductivity, and as shown in detail in FIGS. 5 and 6, the upper and lower portions of the objective holder 47 are opened in the form of a ring, which is generated during optical pickup. A plurality of protruding downwards to minimize the contact area with the bobbin 40 to prevent heat from being transferred to the objective lens 46 and to attach the objective lens holder 47 to the holder seating surface 44 Two fixing protrusions 49 are formed, and on the inner side thereof, an objective lens support portion 48 is formed which protrudes in the center direction to support the objective lens 46, and the height of the upper surface thereof is determined by an external vibration or impact. Even if it is collided with and is formed higher by a predetermined height than the upper surface of the objective lens 46 mounted to protect the objective lens 46.

In addition, although not shown, a magnetic field is formed to mount a magnet for driving the bobbin by interaction with an electric field generated by the coils, and includes a frame on which the bobbin is mounted.

The method for fixing the objective lens holder 47 when manufacturing the optical pick-up actuator of the present invention has such a configuration, after applying an adhesive to the lower surface of the fixing projection 49 of the objective lens holder 47, the holder guide surface ( 43 and the fixing protrusion 49 are fixed to the holder seating surface 44. Alternatively, after the adhesive is applied to a part of the holder seating surface 44, the fixing protrusion 49 is matched to the portion to which the adhesive is applied and fixed.

When the objective lens 46 is attached to the objective lens holder 47, an adhesive is applied to the objective lens support portion 48 of the objective lens holder 47, and then the objective lens 46 is fixed. Alternatively, the objective lens 46 is seated on the objective lens support 48, and then fixed by applying an adhesive to the contact surface with the objective lens 46.

In the optical pickup actuator of the present invention, an electric field is formed at the focusing coil 42 and the tracking coil 41 as a focusing and tracking control electric signal is applied, and the bobbin is formed by interaction with a magnetic field in which a magnet is generated. By generating an electromotive force for driving the 40 up, down, left and right, the track of the rotating disk can be accurately followed.

Focusing and tracking control The focusing coil 42 and the tracking coil 41 to which the electric signal is applied generate electric resistance heat due to electric resistance, and the electric field generated in the coils to which the electric signal is applied and the magnet 22. Magnetic heat is generated by the interaction of the magnetic field generated by. The generated heat is transferred to the objective lens 46 via the objective lens holder 47 through the bobbin 40. At this time, since only the plurality of fixing protrusions 49 of the objective lens holder 47 are in contact with the bobbin 40, the heat transfer area is reduced, thereby reducing the transferred heat, and moreover, the objective lens holder 47. Since heat is made of a silicon material having a low thermal conductivity, the heat reaching the objective lens 46 is further reduced. Accordingly, even when heat of continuous high temperature is generated, the heat reaching the objective lens 46 is reduced, so that no physical damage such as distortion occurs, so that the optical pickup actuator can be smoothly operated.

In addition, since the height of the upper surface of the objective lens holder 47 is higher than the upper surface of the objective lens 46 when the objective lens 46 is mounted, the disk may be damaged by an external shock or vibration when driving the drive. Even if vibration occurs, the collision between the disk and the objective lens 46 is prevented, thereby protecting the objective lens 46. Furthermore, since the objective lens holder 47 is made of silicon, damage to the disk is also prevented in the event of a disk crash.

In addition, even when the objective lens 46 is dropped on the floor during the management and operation of the objective lens 46, only the objective lens holder 47 is directly impacted and brought into contact with the objective lens 46 from the outside. To prevent damage due to impact or contamination from foreign objects.

On the other hand, while shown and described limited to the specific preferred embodiments of the present invention, the present invention will be variously modified and changed without departing from the spirit or field of the invention provided by the claims below It will be readily apparent to one of ordinary skill in the art.

As described in detail above, the optical pickup actuator according to the present invention reduces the heat transfer area and is provided with an objective lens holder having a low thermal conductivity, so that the objective lens is not damaged even when heat of continuous high temperature does not occur and operates smoothly. There is an effect that can be done.

1 is a view showing a general optical pickup device.

Figure 2 is a perspective view showing the structure of a conventional optical pickup actuator.

3 is an enlarged perspective view illustrating only an objective lens driving unit of the optical pickup actuator in FIG. 2;

Figure 4 is an enlarged perspective view showing the objective lens driving unit of the optical pickup actuator of the present invention.

5 is an enlarged perspective view illustrating the coupling relationship between the objective lens holder and the objective lens of FIG. 4 in more detail.

6 is a bottom enlarged perspective view illustrating in more detail a coupling relationship between the objective lens auxiliary holder and the objective lens of FIG. 4;

<Explanation of symbols for the main parts of the drawings>

40: bobbin 41: tracking coil

42: focusing coil 43: holder guide surface

44: holder seating surface 45: holder insert

46: objective lens 47: objective lens holder

48: objective lens support 49: fixing protrusion

Claims (5)

A frame moving within the radial range of the optical disc and having a magnet fixed therein for generating a magnetic field; A bobbin installed in the frame and moved up / down / left / right by a magnetic field in which a tracking coil and a focusing coil are generated and a magnetic field of the magnet; An objective lens for condensing laser light and irradiating the optical disk while moving together as the bobbin moves; And And an objective lens holder attached to a holder seating surface of the bobbin and having an objective lens inserted therein and fixed thereto. The method of claim 1, wherein the objective lens holder; The optical pickup actuator, characterized in that a plurality of fixing protrusions for bonding to the upper surface of the insertion portion in the lower portion. The method of claim 1, wherein the objective lens holder; The optical pickup actuator, characterized in that the support portion for protruding inward to support the objective lens on the inner side. The method of claim 1, wherein the objective lens holder; An optical pickup actuator, characterized in that the height of the image is formed higher than the image of the objective lens mounted. The method of claim 1, wherein the objective lens holder; Optical pick-up actuator, characterized in that made of a silicon material.