KR20010010207A - Optical disk - Google Patents

Abstract

PURPOSE: A non-circular optical disk is provided to easily secure a center by exactly installing in a loading portion of 80mm and to easily store by maintaining an existing thickness standard of an optical disk. CONSTITUTION: A tray(16) of an optical disk drive is ejected. An optical disk(10) is put on an inside of a 80mm loading portion(17) to be contacted with an outside of a flat portion(13) or a projected portion of the flat portion. In entering the tray(16), a mount(15) of a spindle motor is raised from the loading portion(17) by the flat portion(13). The mount(15) is combined with a center slot(11) of the optical disk(10). Thereby, the center of the optical disk(10) is secured.

Description

Non-Circular Optical Disc {OPTICAL DISK}

The present invention relates to an optical disk, and more particularly, has a means for securing a center by installing a flat plate such that a non-circular optical disk having a specific shape, not a circular shape, is mounted on a disk seat portion of a 80 mm diameter disk drive tray. In addition, the present invention also relates to a non-circular optical disk which keeps the thickness of the disk to a minimum to facilitate storage and handling.

The optical disc includes various recording media such as a compact disc, a mini disc, a CD_R, a DVD-ROM, a DVD-RW, which are commercially available or are in use.

In general, an optical disk such as a compact disk is composed of a disk-shaped disk having a diameter of 120 mm and a diameter of 80 mm, mainly containing music or video, and is compact and lightweight, easy to handle, and digitally stores information to store original or original images. Today, its use is rapidly increasing because of its ability to reproduce near picture quality.

On the other hand, in order to meet the ever-increasing preference of consumers, it is different from the existing uniform circular compact discs, that is, the shape of the non-circular shape, for example, heart shape, car type, credit card type, etc. A circular compact disc shows the line.

After such a compact disk is inserted into the drive by the tray of the disk drive, the mounter of the spindle motor is raised to coincide with the central hole of the optical disk so that the center of the disk is secured and rotated so as to be irradiated from the pick-up. The laser records the recorded data.

Therefore, since data cannot be reproduced from the optical disk without securing the center of the optical disk, matching of the position of the mounter with the position of the center hole is the most important thing in the optical disk product.

Therefore, as shown in FIG. 1, when the 120 mm optical disc is used by separately installing the 120 mm disc seating part 2 and the 80 mm disc seating part 3, the disc tray 1 has the outer periphery of the 120 mm optical disc and the 120 mm disc By contacting the inner surface of the seating portion 2, the center of the 120mm optical disk can be secured, and in the case of the 80mm optical disk, the center can be secured by the same principle using the seating portion 3 for the 80mm optical disk.

Therefore, the newly emerged non-circular optical disk had no choice but to produce a product limited to an outer surface in which at least three points were bonded to the inner surface of the mounting portion 3 for the 80 mm disk to secure the center.

Therefore, in order to solve this limitation, PCT International Application Publication No. WO99 / 00765 discloses a four-point protrusion 5 contacting the 80 mm disc seating portion 3 of the tray 1 as shown in FIG. 2A. Formed on the lower surface of the disk 4, a method for solving the above-mentioned limitations in appearance is proposed. In addition, Korean Patent Application No. 99-16604 proposes to install the arcuate projection 7 on the lower surface of the optical disk 6 in contact with the inner surface of the 80 mm seating portion corresponding to the four-point projection as shown in FIG. 2B. Doing.

However, the above patents provide a means for securing a center by providing a projection 5 or a projection 7 in contact with the inner surface of the 80 mm seating portion 3, but the optical disk 4 is shown in FIG. As described above, in the state in which the tray 1 is mounted, there is a problem of being easily separated from the 80 mm seating portion 3 due to the vibration generated when the tray 1 is retracted.

In addition, when looking at the specifications of the optical disk, as shown in Figure 7, the protective film is sequentially laminated with an aluminum reflecting film and a UV curable resin on a 1.2 mm thick polycarbonate substrate on which a pit of 0.1 μm in height is formed. In the tray, a projection for securing a center is provided, which results in the total thickness of the disk being thickened by the thickness of the protruding portion.

The present invention is to solve the problems of the prior art as described above, by accurately mounting the 80mm seating portion without any modification to the existing optical disk drive tray can be easily secured the center while maintaining the thickness standard of the existing optical disk storage It is an object of the present invention to provide a non-circular optical disk which facilitates the operation.

In order to achieve the above object, the present invention is a non-circular optical disk which forms a circular information recording layer on the lower surface of the disk, centering on the central hole formed in the center of the disk, and provides a printing surface on the upper surface.

On the lower surface of the optical disk, the mounting position of the optical disk is guided while being mounted on the 80 mm seating portion formed in the optical disk drive tray, and at the same time, the optical disk is not separated from the mounting position of the optical disk by vibration generated due to the retracting of the tray. It provides a non-circular optical disk, characterized in that the outer portion is formed thinner than the inner portion based on the diameter of the 80mm seating portion of the tray to form a flat plate mounted to the 80mm seating portion of the tray.

1 is a plan view of a tray of a disk drive;

2A and 2B are bottom views of conventional non-circular optical disks.

3 is a perspective view showing a state where a conventional non-circular optical disk is seated in a tray;

4 is a perspective view of one embodiment of a non-circular optical disk according to the present invention;

5 is a cross-sectional view showing a state in which a non-circular optical disk is mounted on a tray according to an embodiment of the present invention.

6 to 8 are perspective views showing other embodiments of the non-circular optical disk according to the present invention.

9 is a sectional view showing the structure of a general circular optical disk.

10A is a cross sectional view of a conventional non-circular optical disk upon loading;

10B is a cross sectional view of the non-circular optical disk in accordance with one embodiment of the present invention;

<Description of the code | symbol about the principal part of drawing>

10 optical disc 11: center hole

12: recording layer 13: circular flat plate portion

13a: Hanging jaw 13 ': Star plate part

13a ': Convex 15: Mounter

16: tray 17: 80 mm seat

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

4 is a perspective view showing a lower surface of an embodiment of the present invention, in particular a non-circular optical disk that can replace a business card, Figure 5 is an optical disk according to an embodiment of the present invention is seated in the tray of the disk drive It is sectional drawing which shows the state.

As shown in FIGS. 4 and 5, the non-circular optical disk 10 according to the present invention has a central body 11, the central hole 11 of which is coincidentally coupled with the mounter 15 of the spindle motor. ) Is formed, and a circular information recording layer 12 is formed on the lower surface of the optical disc 10 with the center hole 11 as the center.

In addition, according to the characteristics of the present invention, the lower surface of the optical disk 10, the flat portion having a locking step (13a) coupled to the inner surface of the 80 mm seating portion 17 formed in the tray 16 in contact with the outer surface 13 is formed in the shape of an arc around the central hole 11 of the optical disk 10, and the edge portion of the optical disk 10 is formed from the outer surface of the flat plate portion 13 as compared with the flat plate portion 13; Its thickness is formed thin.

Therefore, in the optical disk 10 of the present invention, when guiding the seating position of the optical disk 10, the center securing rate of the disk is remarkably improved as compared with the conventional optical disk in which protrusions are formed and mounted on a tray. The reason for this is that in the present invention, the flat portion 13 is formed at the central portion of the optical disk 10 so that the center of gravity of the optical disk 10 is formed at the central portion, and the vibration is generated when the tray 16 is retracted. This is because it becomes difficult for the optical disc 10 to be detached from the seating position of the tray 16.

In addition, in the case of the conventional non-circular optical disks 4 and 6 in which the projections 5 and the projections 7 are formed, as shown in FIG. 10A, the thickness of the optical disk is increased by the height of the projections or projections. When several optical disks are transported or stored together, the volume increases, which makes it difficult to transport or store them. However, in the present invention, as shown in FIG. 10B, the thickness of the flat portion 13 which is the thickest part of the optical disk is shown. Since the thickness does not exceed 1.2 mm, which is the thickness of the polycarbonate resin, which is the standard of the optical disk, the thickness can be prevented from being thick as in the related art, and thus the user can easily handle and store it.

Meanwhile, FIGS. 6 to 8 show other embodiments of the non-circular optical disk according to the present invention, and FIG. 6 shows a body of the optical disk 20 having a heart or apple shape, and a central hole ( A circular flat plate portion 23 mounted to the 80 mm seating portion 17 of the tray 16 is formed around 21.

In FIG. 7, the body of the optical disc 30 is formed in the form of a superior rank, and the bottom surface of the body is formed with a flat plate 33 partitioned in an arc shape around the central hole 31. 8 is formed in a rectangular shape in which the body of the optical disk 40 has one side cut off, and a flat plate portion 43 is formed on the lower surface of the body in an arc shape around the central hole 41. Reference numerals 22, 32, and 42 denote information recording layers, respectively.

The non-circular optical disk 10 according to the present invention configured as described above has the optical disk 10 on the inner side of the 80 mm seating portion 17 of the tray 16 with the tray 16 drawn out. When the optical disk 10 is placed so that the outer surface of the flat plate portion 13 formed on the lower surface of the bottom face) or the convex portion 13a 'of the star-shaped flat plate portion 13' is brought into contact with each other, and the tray 16 is drawn in, Due to the role of the flat plate 13 formed on the lower surface of the optical disk 10, the mounter 15 of the spindle motor is reached at a predetermined position without the optical disk 10 being separated from the 80 mm seating portion 17 of the tray 16. ) Rises and is coupled to the central hole 11 of the optical disc 10 to secure the center of the optical disc 10.

That is, since the flat surface portion 13 is formed on the lower surface of the optical disk 10 in such a manner that the inner surface of the 80 mm seating portion 17 of the tray 16 and the outer surface thereof are in contact with each other, the tray 16 is formed. The optical disk 10 can be easily seated on the 80 mm seating portion 17 of the optical disk 10, and the center of gravity of the optical disk is formed at the center portion by the flat plate portion 13 so that the occurrence of the tray 16 when the tray 16 The optical disk 10 is prevented from being separated from the 80 mm seating portion 17 of the tray 16 by vibration or the like.

Therefore, by using an existing optical disk drive, not only can information easily recorded on various types of optical disks according to consumer's preferences, but also the storage and handling of non-circular optical disks becomes easy.

As described above, according to the non-circular optical disc of the present invention, the high center-secure rate can be achieved when the optical disc drive is mounted on the optical disc drive without any improvement or the adapter of the non-circular optical disc. It provides a non-circular optical disc that is easy to see and store and handle, so that information recorded from the optical disc can be reproduced.

In particular, in the case of a card type that can replace the use of a business card, people usually carry a business card with their body, and instead of the protrusion, a flat plate is formed to form a 1.2 mm thick polycarbonate resin, which is an optical disc standard. It does not exceed the thickness of the disk itself is prevented to be thickened so that the user can easily store the effect is doubled.

Claims (2)

In a non-circular optical disk which forms a circular information recording layer on the lower surface of the disk centering on a central hole formed in the center of the disk and provides a printing surface on the upper surface, On the lower surface of the optical disk, the mounting position of the optical disk is guided while being mounted on the 80 mm seating portion formed in the optical disk drive tray, and at the same time, the optical disk is not separated from the mounting position of the optical disk by vibration generated due to the retracting of the tray. Non-circular optical disk, characterized in that the outer portion is formed thinner than the inner portion based on the diameter of the 80mm seating portion of the tray to form a flat plate mounted to the 80mm seating portion of the tray. The method of claim 1, And the flat plate portion is circular.