KR0176572B1 - Turn table of optical disk driver - Google Patents

Abstract

Disclosed is a turntable of an optical disc driver in which an air discharge groove is formed on an outer circumferential surface thereof so that a disc can be securely fixed even at a high speed rotation of the turntable. The turntable is formed with a turntable main body that is rotated by a predetermined driving means, an annular disk support portion attached to a part of the upper side of the turntable main body, and an air discharge groove in a radial direction. The turntable of such an optical disk driver is capable of bringing the disk and the turntable into close contact with each other even at high speeds, and thus the rotating disk does not float and maintains a stable operating state.

Description

Turntable of the optical disc driver

1 is a plan view of a typical optical disk driver.

2 is a plan view showing a turntable of a conventional optical disc driver.

3 is a cross-sectional view showing a state in which a disk is mounted on the turntable shown in FIG.

Fig. 4A is a plan view showing the turntable of the optical disk driver according to the present invention.

(B) of FIG. 4 is a partial sectional view of (a) of FIG.

5 is a cross-sectional view showing a state in which a disk is mounted on the turntable according to FIG.

6 is a perspective view showing another embodiment of the optical disk driver turntable according to the present invention.

* Explanation of symbols for main parts of the drawings

20 turntable 21 turntable main body

22: spindle motor shaft 22: magnet

26, 40 disc support 30 clamp

40a, 40b: air exhaust groove

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a turntable of an optical disc driver, and more particularly to a turntable of an optical disc driver whose structure is improved so that the disc can be reliably fixed to the turntable even when the turntable on which the disc is rotated at high speed.

In general, optical disk drivers include compact disk-read only memory or magneto-optical disk drivers, which are used as multimedia media such as audio and video.

Such an optical disk driver generally uses a transparent disk having a diameter of 120 mm and a thickness of 1.2 mm having a pit on which a plastic protective film is formed on the outer surface and a pit on which a laser light is reflected is formed.

In this way, an optical disk driver using a disk as a medium usually mounts a turntable on a spindle motor shaft, mounts and rotates the disk on the turntable, and irradiates light onto the rotating disk surface using optical pickup means to provide desired information. Record / play back. Therefore, a turntable for mounting an optical disk that requires high speed rotation is required.

1 shows a plan view of a conventional general optical disk driver. Referring to the drawings, when the disc tray 12 is ejected with respect to the driver body 10 to drive the driver, the disc is loaded in the disc seat 14 formed on the tray 12. The tray 12 loaded with the disc enters the casing 11 of the main body 10 again. When the tray 12 is completely accommodated, the turntable 20 is raised to lift the disk from the tray 12 to compress and support the disk together with a clamp (not shown). After the above process is finished, the turntable 20 and the disk supported by the turntable 20 are rotated at high speed by the spindle motor (not shown), and the information of the disk is read by the optical pickup means 15, or To write information to disk.

2 and 3 are plan views showing the structure of the turntable 20 in the conventional optical disk driver, and sectional views showing a state in which the disk 100 is seated on the turntable 20.

Referring to the drawings, the turntable 20 is fixedly coupled to the spindle motor shaft 22 at the center thereof, and a magnet 24 attached to the upper surface of the clamp 30 when the disk 100 is seated is installed around the turntable 20. In addition, an annular disk support member 26 is attached to an edge of the turntable 20 to increase friction with the disk 100 and to act as a buffer. Usually the turntable 20 is made of a plastic material, the disk support 26 is made of an elastic rubber member.

When the disk 100 is seated on the turntable 20, the turntable 20 is raised or the clamp 30 is lowered, and the disk 100 is caused by the magnetic force between the magnet 24 and the clamp 30 of the turntable 20. ) Is fixed to the turntable 20. In this case, since the disc 100 mounted and the disc support 26 of the turntable 20 come into close contact, a space 28 is formed between the top surface of the turntable 20 and the bottom surface of the disc 100. Therefore, when the turntable 20 rotates, the air in the sealed space 28 does not escape to the outside of the turntable 20, so that the air pressure in the sealed space 28 may fluctuate irregularly. . In particular, when the disk 100 rotates at a high speed, the pressure in the sealed space 28 may increase locally locally.

When the turntable 20 of the conventional optical disk driver as described above rotates at a high speed by mounting the disk 100, the air pressure of the sealed space 28 existing between the turntable 20 and the disk 100 increases, thereby increasing the disk pressure. Since the 100 is pushed up, the disk 100 floats. This floating phenomenon causes the rotation of the disk 100 to become unstable, causing a fatal defect in the performance of the disk driver, thereby impairing product reliability.

The present invention has been made to solve the above problems, by forming an air flow passage communicating with the inside and outside of the sealed space of the turntable to reduce the air pressure of the sealed space, the disk can rotate at high speed while maintaining a stable adhesive state Its purpose is to provide a turntable of an optical disk driver.

Turntable of the optical disk driver according to the present invention for achieving the above object,

In a turntable of an optical disk driver having a turntable main body rotated by a predetermined driving means and an annular disk supporting member attached to an upper side of the turntable main body, wherein the disk is press-fitted to the disk supporting member.

It characterized in that the air discharge groove consisting of a channel communicating the inside and the outside of the disk support member is molded.

The air discharge groove may be formed as a straight channel formed in the radial direction of the turntable.

In addition, the air discharge groove is more preferably formed in a curved shape inclined along the rotation direction of the turntable with respect to the rotation center of the turntable.

Preferably, a plurality of air discharge grooves are formed at predetermined intervals along the circumference of the disc support member.

The disk support member is preferably formed of an elastic rubber member.

The turntable of the optical disk driver having the above-described characteristic configuration has an air discharge groove formed in the annular disk support member in which air in an enclosed space between the turntable and the disk is formed when the disk is mounted and rotates at a high speed. Since it is discharged to the outside, the disk can be kept in close contact.

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

4 shows a turntable 20 of the optical disk driver according to the present invention, and FIG. 5 shows a state in which the disk 100 is mounted on the turntable 20 according to the present invention.

Referring to the drawings, the turntable 20 of the optical disk driver includes a turntable main body 21 which is rotated by a predetermined driving means, and an annular disk supporting member 40 attached to a part of an upper surface of the turntable main body 21. And an annular disk support member 40 is formed with a channel type air discharge groove 40a for communicating the inside and the outside of the support member.

And the air discharge groove 40a is composed of a set of a plurality of slit grooves formed at predetermined intervals along the circumference of the disk support member 40, each air discharge groove (40a) is the radius of the turntable 20 It consists of straight channels shaped in the direction.

The turntable main body 21 is coupled to the spindle motor shaft 22 at the center thereof to form the predetermined driving means, and the edge of the turntable main body 21 is bonded to the upper clamp 30 when the disc 100 is seated. The magnet 24 is provided.

The turntable body 21 is usually made of a plastic material, the disk support member 40 is made of an elastic rubber member to maintain a friction state with the disk, to mitigate rotational vibration.

FIG. 4B is a cross-sectional view of the cutting line AA when the disc 100 is seated. When the disc 100 is seated on the turntable 20, the turntable 20 is raised or the clamp 30 is cut. Then, the disk 100 is fixed to the turntable 20 by the magnetic force between the magnet 24 and the clamp 30 of the turntable 20. In this case, since the lower side of the disk 100 comes into close contact with a portion of the disk support member 40 of the turntable 20 where the air discharge groove is not formed, the air discharge groove 40a of the disk support member 40 is in close contact. ) Serves as a passage between the space 28 formed in the turntable 20 and the external space.

When the disk 100 is mounted on the turntable 20 of the optical disk driver having the above configuration and rotated at a high speed, centrifugal force that is strong in the air existing in the space 28 between the turntable 20 and the disk 100 is increased. As a result, this air flows toward the outer circumferential surface of the turntable 20. However, the flow air is discharged to the outside of the turntable 20 through the air discharge groove (40a) formed in the disk support member 40 of the turntable 20, the turntable 20 and the disk 100 The pressure in the space 28 between them is significantly reduced than atmospheric pressure. Therefore, the force compressing the disk 100 in the direction of the disk support portion 40 of the turntable 20 during the high speed rotation is rather increased, so that the rotating disk 100 does not flow and maintains a stable position.

The air discharge groove is molded in a straight shape as shown in FIG. 4, but the present invention is not limited thereto, but also includes a molded shape as shown in FIG.

Referring to FIG. 6, in the turntable 20 of the optical disk driver, the air discharge groove 40b of the disk support member 40 formed on the outer circumferential surface of the turntable 20 is based on the rotation center of the turntable 20. The turntable 40 is characterized by being formed in a curved shape inclined along the rotation direction.

Since the air discharge groove 40b formed as described above is molded in a direction coinciding with the rotation direction of the turntable 20, the direction of the air passage coincides with the movement direction of air flowing by the rotation of the turntable 20. do. Therefore, it is possible to smoothly discharge the flow air to the outside of the turntable 20, so that the rotational safety of the disk 100 can be more surely ensured. If the air discharge groove 40b is formed in a direction opposite to the direction described above (the direction opposite to the rotation direction of the turntable 20), the flow air hits the edge of the air discharge groove 40b and disturbs. As a result, the disk 100 may be adversely affected.

As described above, the turntable of the optical disk driver according to the present invention is capable of bringing the disk and the turntable into close contact with each other even at high speed, and thus has the advantage that the rotating disk does not float and maintains a stable operating state.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (5)

A turntable of an optical disk driver having a turntable main body rotated by a predetermined driving means and an annular disk supporting member attached to an upper side of the turntable main body, wherein the disk is press-fitted to the disk supporting member. The turntable of the optical disk driver, characterized in that the air discharge groove consisting of a channel communicating the inside and outside of the molded. The turntable of claim 1, wherein the air outlet groove is formed of a straight channel formed in a radial direction of the turntable. The turntable of claim 1, wherein the air discharge groove is formed in a curved shape inclined along the rotation direction of the turntable with respect to the rotation center of the turntable. The turntable of claim 1, wherein a plurality of air discharge grooves are formed at predetermined intervals along a circumference of the disk support member. The turntable of claim 1, wherein the disk support member is formed of an elastic rubber member.