KR20040021323A - Optical disc drive comprising top cover using plate spring - Google Patents

Abstract

PURPOSE: An optical disc drive having a top cover employing a plate spring is provided to reduce a noise and vibration generated when an optical disc is rotated. CONSTITUTION: An optical disc drive includes a disc tray(110), a disc drive controller(130), a housing(120), a top cover(140), and a plate spring(150). The disc tray has a disc driver(111) for rotating a disc at a predetermined rotating speed using a spindle motor connected to a turntable, and an optical pick-up(112) for recording/reproducing data in/from the disc, and a disc mount(113) on which the disc is mounted. The disc drive controller controls the disc driver to adjust the disc rotating speed. The housing houses the disc tray. The top cover is combined with the housing and covers the housing. The plate spring is formed at the top cover and presses the disc tray when the top cover is combined with the housing.

Description

Optical disc drive comprising top cover using plate spring}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk drive, and more particularly, to an optical disk drive having a leaf spring structure for reducing vibration and noise generated when the optical disk is rotated.

In order for the disc drive to correctly read the data recorded on the disc or to record the data on the disc correctly, a beam emitted from a data recording / reproducing unit, such as an optical pickup device, must enter the track of the disc's recording plane correctly. In addition, the recording surface of the disk and the optical axis of the beam emitted from the optical pickup apparatus should always be maintained at a constant angle. However, vibration caused by the rotating disk not only degrades the recording and playback characteristics of the disk drive, but also acts as a noise source.

A notebook computer is a structure in which various functional parts are concentrated inside. Thus, vibrations from one component affect the functionality and reliability of other surrounding components. In particular, vibration of the optical disc drive caused by unbalanced rotation of the optical disc causes physical defects as well as read / write errors of the hard disc drive (HDD).

Therefore, notebook computer manufacturers demand that the optical disk drive's rotational speed be reduced even if the vibration rate of the optical disk drive is higher than a predetermined level even if the data transmission rate is given up.

In general, vibration caused by component processing error and assembly deviation of the optical disk drive itself does not exceed a predetermined level. Rather, it is eccentric due to processing errors of the optical disc itself and labels attached to the surface thereof, thereby increasing vibrations during rotation. The amount of this center of gravity is not constant from disk to disk, and therefore the level of vibration generated during rotation is not constant. The level of vibration generated at this time is detected by the transmission error rate of the data reproduced by tracking. The optical disk drive employed in the notebook computer reflects the rotation speed when the generated vibration is higher than a predetermined level. For example, if the vibration level is 0.5 gcm (gram force centimeter) or more, the rotation speed is reduced. Here, gcm unit is a unit which displays the vibration level by the eccentricity. Currently, notebook computer manufacturers' specifications require more than 90% rotational speed reduction above 0.5 gcm. In other words, it accurately detects that the actual vibration is more than 0.5gcm and requires the probability of reducing the rotation speed to have a reliability of 90% or more.

1 is an exploded perspective view showing the structure of a conventional optical disk drive for a notebook computer, Figure 2 is an enlarged cross-sectional view of the projection of the top cover shown in FIG.

The tray of the optical disk drive for a notebook computer has a vertical flow, the top cover 40 of the conventional optical disk drive is assembled to the housing 20 as shown in Figure 1, the projection 50 of the disk tray 10 It is firmly pressed and fixed by) so that even if a vibration of a predetermined level or more, such as a vibration of 0.5 gcm or more, cannot be detected accurately. Therefore, there is a problem that can not accurately reflect the vibration level when the rotation speed control. In addition, the structure in which the top cover 40 presses and fixes the disk tray 10 is further adapted to the vibration level detection when another device presses and interferes with the top cover 40 when the optical disk drive is assembled to the notebook computer body. Will adversely affect.

Accordingly, an object of the present invention is to provide an optical disk drive which can more accurately detect the vibration level generated by the rotation of an optical disk and reflect the optical disk rotation speed control.

1 is an exploded perspective view showing the structure of a conventional optical disk drive for a notebook computer.

FIG. 2 is an enlarged cross-sectional view of the protrusion of the top cover shown in FIG. 1.

3 is an exploded perspective view showing the structure of an optical disk drive according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10, 110 ...... Disc tray 11, 111 ...... Disc drive

12, 112 ... optical pickup unit 13, 113 ... disc seat

20, 120 ...... Housing 30, 130 ...... Disk drive control unit

40, 140 ...... Top cover 50 ...... Protrusion

150 ...... Plate Spring

An optical disk drive according to the present invention for achieving the above technical problem, a disk drive unit for rotating a disk at a predetermined speed by a turntable and a spindle motor connected to the turntable, an optical pickup device for recording / reproducing data on the disk and the A disk tray including a disk seat on which a disk is seated and installed in an optical disk drive to be accessible; A disk drive controller for controlling the disk drive to adjust the disk rotational speed; A housing in which the disc tray is opened and received; An upper cover which is assembled to the housing by a bolt hole provided at a predetermined position and covers the housing in which the disc tray is accommodated; And a leaf spring provided on the top cover to provide an urging force to the disc tray when the top cover is assembled to the housing.

The leaf spring is characterized in that formed integrally with the top cover.

According to such a configuration, the vibration generated in the optical disk drive can be reduced by detecting the vibration level generated by the rotation of the optical disk more accurately and reflecting it in the optical disk rotation speed control. As a result, it is possible to improve the reproduction / recording reliability of the optical disk and to improve the performance and durability of peripheral driving components such as a hard disk drive.

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

Figure 3 is an exploded perspective view showing the structure of an optical disk drive with a top cover employing a leaf spring according to the present invention.

Referring to FIG. 3, an optical disc drive according to an exemplary embodiment of the present invention includes a disc tray 110, a housing 120, a disc drive controller 130, a top cover 140, and a leaf spring 150.

The disc tray 110 including the disc drive unit 111, the optical pickup device 112, and the disc seating unit 113 is installed to be accessible to the front side of the housing 120, and loads the disc by mounting the disc. Enable unloading. The disc tray 110 has a vertical flow at the time of disk rotation. This up and down flow should be prevented at the time of disc rotation, but if the disc tray 110 is firmly fixed and the up and down flow is completely eliminated, the vibration generated by the unbalace of the rotating disc can be accurately reflected in the disc rotation speed control. none.

The disk driving unit 111 includes a turntable on which the disk is seated and a spindle motor for rotationally driving the turntable to rotate the disk seated on the turntable at a predetermined speed.

The optical pickup device 112 irradiates a laser beam to record data on or read data from the disk recording surface.

The disc tray 120 enters and receives the housing 120.

The disc drive controller 130 detects the data transmission error rate by tracking and controls the disc rotation speed to be variable.

The upper cover 140 is assembled to the housing 120 by a bolt hole 141 provided at a predetermined position to cover the housing 120 in which the disc tray 110 is accommodated.

The leaf spring 150 provides a pressing force to the disc tray 110 when the top cover 140 is assembled to the housing 120. By this pressing force, the up and down flow of the disc tray 110 is constantly suppressed at the time of disc rotation.

Here, the leaf spring 150 may be formed integrally with the top cover 140 by processing a portion of the top cover 140 as shown in a partial enlarged view of FIG. 3, or may be formed as a separate part. The lower surface of the 140 may be coupled to be installed.

The structure in which the top cover 140 fixes the disc tray 110 by the leaf spring 150 is such that another device (not shown) presses the top cover 140 when the optical disc drive is assembled to the computer body. Even if it interferes with the disk tray 110 by maintaining a constant pressing force so as not to affect the vibration level detection.

That is, the leaf spring 150 structure of the optical disk drive according to the present invention prevents the up and down flow of the disk tray 110, but by applying only a certain degree of pressing force to the disk tray 110, rotational vibration due to the disk eccentricity Can be detected satisfactorily and the disk rotation speed control reflecting the detected vibration level can be realized.

As described above, according to the optical disk drive according to the present invention, the vibration generated in the optical disk drive can be reduced by detecting the vibration level generated by the rotation of the optical disk more accurately and reflecting it in the optical disk rotation speed control. have. As a result, it is possible to improve the reproduction / recording reliability of the optical disk and to improve the performance and durability of peripheral driving components such as a hard disk drive.

The present invention is not limited to the above described and illustrated in the drawings, and more variations and modifications are possible within the scope of the following claims, and in particular, the above-described embodiment provides an optical disc drive for a notebook computer. Although illustrated by way of example, the optical disk drive according to the present invention can be used in devices other than a notebook computer for recording / reproducing a disk.

Claims (2)

A disk drive unit for rotating the disk at a predetermined speed by a turntable and a spindle motor connected to the turntable, an optical pickup device for recording / reproducing data on the disk, and a disk seat on which the disk is seated, the disk drive unit being accessible to and accessible from the optical disk drive. A disk tray installed; A disk drive controller for controlling the disk drive to adjust the disk rotational speed; A housing in which the disc tray is opened and received; An upper cover which is assembled to the housing by a bolt hole provided at a predetermined position and covers the housing in which the disc tray is accommodated; And And a leaf spring provided on the top cover to provide a pressing force to the disc tray when the top cover is assembled to the housing. The method of claim 1, wherein the leaf spring, The optical disk drive, characterized in that formed integrally with the top cover.