KR100496727B1 - Optical disc having function for protection from electrostatic charge - Google Patents

Abstract

According to the present invention, a protective film layer is formed on a protective layer of an optical disc on a layer to which a laser layer is irradiated, and in the case of an optical disc, a narrower spot diameter is made smaller by using a high numerical aperture value. The present invention relates to an optical disc having an antistatic and protective function, by which the optical disc can be read so as to protect the optical disc and extend the life of the player which reproduces the optical disc.

Description

Optical disc having function for protection from electrostatic charge

The present invention relates to an optical disk having an antistatic and protective function. More particularly, the protective film layer of the optical disk is formed on the layer to which the laser layer is irradiated, and in the case of the optical disk, the spot diameter is reduced by using a high numerical aperture value. An optical disc with antistatic and protection function which protects the optical disc and extends the life of the player which reproduces the optical disc by allowing accurate data to be read in response to a smaller pit size and track path by smaller narrowing. will be.

In general, polycarbonate, a polymer material used for optical disks, is easily damaged by light external factors.

An optical disk refers to a disk-shaped disk that irradiates a laser beam to a substrate on which data is stored to receive a laser beam reflected by a reflective film coated on a surface thereof, and then reproduces the data by using the laser beam.

The manufacturing process of the DVD optical disc includes an injection process for injection molding the disc, and an infield / cooling for cooling the disc to remove the foreign matter and maintain a constant temperature using a filter by transferring the disc to the rotating table. / cooling process, a rotary table process for transferring the disk from the process to a metallizing robot, a metallization process for applying a reflective film to the disk from the process, and It can be manufactured through a bonding process for bonding disks and a spin, curling, and scanner inspection process after the bonding process.

In the optical disc, as shown in FIGS. 1A and 1B showing the cross-sectional structure of a general optical disc, when light is to be read, laser light is irradiated onto the transparent base layer 4, and the laser light passes through the data and the reflective film layer 3 ), The laser light can be reproduced by using the signal of the light that reaches and returns.

A typical CD optical disc is composed of a transparent base layer 4 constituting a data layer and a reflective film layer 3 reflecting a laser light, as shown in Fig. 1A, on which a lacquer layer 2 and printing are printed. There is a layer (1) that serves as a protection. But if you're reading data, there's no layer of protection. In addition, a general DVD optical disc includes a transparent base layer 4 constituting a data layer and a reflective film layer 3 for reflecting laser light, as shown in FIG. 1B, on which a printing layer 1 is placed. There is a protection role.

Therefore, the conventional optical disk 5 is easily damaged by scratches, fingerprints, organic materials, etc., because it does not have a protective layer. In addition, since the transparent base layer 4 is exposed to the outside, small particles, dust, scratches, organic matters, etc. stick to the most important data of the optical disc 5 due to static electricity, which prevents reading and recognizing accurate data. A phenomenon sometimes occurs, resulting in a shortening of the life of the player for reproducing the optical disc 5.

The signal of the optical disc 5 is affected by the change in thickness, the degree of deformation of the surface, the data structure, and the like. As a factor influencing this, the DPD tracking error signal of the size DPD should be large enough to provide tracking feedback for positioning the laser head.

The magnitude of the tracking error signal is that the value must change as it moves in the center of the track. The tracking cross signal represents the worst possible detrack. The feedback loop that positions the laser head above the track center is inspected in the inoperative state.

The laser head is moved to the circumferential inner core. The station check method is a method of checking by moving to selected parts. This part of the test is called a station. To measure high frequency signals, the laser head is moved inward and measured. Reflectance is a measure of how much light is returned compared to the light emitted from the laser head. If less light returns compared to the original light, it may cause trouble reading the correct signal.

SUMMARY OF THE INVENTION The present invention has been made to solve such problems in the related art, and an object thereof is to form a protective film layer on a layer on which a laser layer is irradiated. By narrowing the pit size and trackpath, the correct data can be read to protect the optical disc and extend the life of the player that plays the optical disc.

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the purpose, working effects, and the like of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred examples to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment, Various changes and modifications are possible within the scope without departing from the technical spirit of the present invention, as well as other equivalent embodiments will be found.

The present invention is to protect the substrate of the optical disk that is stored data, as shown in Figure 2a, the CD optical disk 50, so that the image or text can be printed on the upper surface of the optical disk 50 External light passes through the printed layer 10, the lacquer layer 20 formed by treating or leaving the lacquer on a transparent plane formed on the bottom of the printed layer 10, and the bottom of the lacquer layer 20. A reflection layer 30 to reflect the light, a transparent base layer 40 to allow light to pass through the bottom of the reflective layer 30, and external impurities flow into the bottom of the transparent base layer 40. It comprises a protective film layer 60 is formed with a coating film to prevent damage due to or scratches, etc., as shown in Figure 2b DVD optical disk 50, the image on the upper surface of the optical disk 50 Or character A print layer 10 capable of forming a transparent layer, a transparent base layer 40 formed by treating or leaving a lacquer on a transparent plane formed on the bottom surface of the printed layer 10, and an outer surface of the bottom of the transparent base layer 40. Adhesive material so that the reflective film layer 30 to allow light to be reflected without passing through, and the reflective film layer 30 formed on top of the transparent base layer 40 of another optical disk on the bottom surface of the reflective film layer 30 The adhesive layer 70 filling the gap, the reflective layer 30 formed on the bottom surface of the adhesive layer 70, the transparent base layer 40 allowing light to pass through the bottom surface of the reflective layer 30, and A protective film layer 60 is formed on the bottom of the transparent base layer 40 to form a coating film so as to prevent damage due to inflow of external impurities or scratches.

The reflective film layer 30 is characterized in that a plurality of recesses are formed on the surface.

At the bottom of the reflective film layer 30 has a protective film layer 60 is formed on the bottom of the transparent base layer 40 to allow light to pass through the coating film is formed so as to prevent damage due to inflow of external impurities or scratches It features.

In addition, the reflective film layer 30 is an adhesive layer 70 for filling the adhesive so that the transparent film layer 40 of another optical disk on the bottom in the case of a DVD (DVD) can adhere to the reflective film layer 10 formed on the top; The coating layer is formed on the bottom surface of the transparent base layer 40 so as to prevent damage due to external impurities or scratches in the same way as a general compact disk.

If described in detail the operational effects of the optical disk having an antistatic and protective function according to an embodiment of the present invention configured as described above.

According to the present invention, it is possible to protect the substrate of the optical disk on which data is stored. As shown in Figs. 2A and 2B, the optical disk 50 is 780 [nm] (CD) and 635 [nm] (DVD). A pit / land is formed using a laser having a wavelength of 650 nm (for DVD), so that the data can be reproduced.

The data of the optical disc 50 can be known by the signal of the reflected laser light. The physical characteristics of the pit / land of the optical disc are as follows.

There are 9 types (3T ~ 11T) of pit / land depending on the physical length. Record data with a total of 18 pit / land combinations.

The length of 1T is determined by linear velocity / clock frequency.

When the linear velocity is 1.2 [m / s], the length of 1T is 1.2 [m / s] /4.3218×10/s, and 0.278 [µm] and 1.4 [m / s]. s] /4.3218 x 10 / s, which is 0.324 [µm].

In other words, when the linear velocity is 1.2 [m / s], the length of 3T is 3 × 0.278 [μm] = 0.834 [μm], and the length of 11T is 11 × 0.278 [μm] = 3.058 [μm].

When the linear velocity is 1.4 [m / s], the length of 3T is 3 × 0.324 [µm] = 0.972 [µm] and the length of 11T is 11 × 0.324 [µm] = 3.564 [µm].

In case of DVD, 120mm and 80mm DVD-ROM discs have various types including single layer (SL) and dual layer (DL). The length of 1T is 0.147 [㎛] ~ 0.440 [㎛] and it is 2 minutes compared to CD. It is able to record large amount of data with the length of one small pit of. The linear velocity is 3.49 [m / s] ~ 3.84 [m / s], which also has a large processing capacity per unit time. In addition, the EFM + modulation method is adopted rather than the EFM modulation method of a compact disc (CD), which means that more data can be recorded in recording data.

Here, the optical disc 50 has a length of only 0.834 to 3.564 [μm] in the data recording area, so that the protective layer 60 is transparent to the protective layer 60 by an ultraviolet (UV) lamp so as to have a uniform deviation so as not to cause optical deviation. It will be applied underneath.

In addition, the optical disc 50 is a digital medium that can store more than 25GB from 4.7GB (gigabyte) in the case of DVR, and adopts image compression technology to record video and audio data corresponding to 135 to 650 minutes per side. .

That is, it is a digital medium capable of realizing high quality and supporting high resolution compared to LD.

According to the present invention, the protective film layer of the optical disc is formed on the layer to which the laser layer is irradiated, and in the case of the optical disc, the spot diameter is smaller by narrowing the spot diameter by using a high numerical aperture value. Correspondingly, the correct data can be read, thereby protecting the optical disc and extending the life of the player which reproduces the optical disc.

1A is a cross sectional view of a typical CD optical disc.

Fig. 1B is a cross sectional view of a typical DVD optical disc.

2A is a cross-sectional view of a CD optical disc in accordance with an embodiment of the present invention.

2B is a cross-sectional view of a DVD optical disc according to an embodiment of the present invention.

Code descriptions for the main parts of the drawings

1,10; print layer 2,20; lacquer layer

3,30; Reflective layer 4,40; Transparent layer

5,50; optical disk 6,60; protective film layer

70; adhesive layer

Claims (1)

(Twice correction) a print layer 10 for printing an image or text on the upper surface of the optical disc 50, A transparent base layer 40 formed by treating or leaving lacquer on a transparent plane formed on the bottom surface of the printing layer 10; A reflective film layer 30 to allow external light to be reflected on the bottom of the transparent base layer 40 without passing through it; An adhesive layer 70 filling an adhesive material on the bottom surface of the reflective film layer 30 so that the transparent film layer 40 of another optical disk can be adhered to the reflective film layer 30 formed on the top of the reflective film layer 30; A reflective film layer 30 formed on the bottom surface of the adhesive layer 70, Transparent base layer 40 to allow light to pass through the bottom of the reflective film layer 30, The protective film layer 60 is formed on the bottom surface of the transparent base layer 40 to form a coating film to prevent damage due to inflow of external impurities or scratches. The data recording portion of the optical disc 50 has a length of only 0.834 to 3.564 [μm], so that the protective layer 60 is formed by the ultraviolet (UV) lamp so as to have a uniform deviation so as not to cause optical deviation. An optical disc having an antistatic and protective function, which is applied below.