JP3642375B2 - Digital video disc - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital video disc (hereinafter referred to as a DVD), and more particularly, to a double-sided DVD to which a hologram label is attached.
[0002]
[Prior art]
DVDs used exclusively for sound or image playback are called single-sided discs, in which a disk substrate with a signal transferred on one side and a flat disk substrate with no signal on the other side are bonded together And there is a so-called double-sided disc (double-sided reading type DVD) in which two disc substrates to which signals are transferred are bonded together. Also, both single-sided and double-sided discs have a two-layer structure in which a semi-transmissive recording layer is added to each recording layer to increase the recording capacity. In any case, a single-sided disc is a DVD that can read information from only one side, and a double-sided disc is a DVD that can read information from both sides.
[0003]
[Problems to be solved by the invention]
A single-sided DVD can be subjected to label printing by screen printing or the like on the side from which information cannot be read, but a double-sided DVD that can read information from both sides has little space for label printing. Therefore, the double-sided DVD has a problem that the display is very difficult to see because the label display is performed as a print or diffraction grating pattern in a small space around the center hole.
[0004]
The present invention has been made in view of such problems of the prior art, and an object of the present invention is to read as a label in a donut-shaped double-sided DVD in which two disk substrates to which information is transferred are bonded together. The laser beam is to paste a transparent hologram on the disk substrate so as to increase the sortability and decoration effect.
[0005]
[Means for Solving the Problems]
The digital video disc of the present invention that achieves the above object is a donut-shaped digital video disc produced by bonding two disc substrates on which information is transferred, and one of the two disc substrates. Or, on both surfaces, the diffraction efficiency of light near the wavelength of the readout laser light in the incident direction of the readout laser light of the digital video disk is low, but the light near the wavelength of the readout laser light in a direction other than that direction is low. It is characterized in that a label made of a volume hologram having a high diffraction efficiency is adhered.
[0006]
In this case, a volume hologram that reproduces a purple, blue, green, yellow, or orange recorded image can be used. Further, the recorded image may be reproducibly recorded at two or more different wavelengths on the volume hologram.
[0008]
In the present invention, the label information of the double-sided reading type DVD is applied by pasting it on both sides or one side of the DVD disc as a volume hologram (Lippmann hologram), so that even a double-sided reading type DVD can secure a wide display area. The information becomes easier to see. At this time, since the label information is recorded on the volume hologram at an angle that does not affect the reading of the DVD data, the DVD can be read normally, and the three-dimensional information is recorded on the volume hologram. Therefore, the design and decoration can be improved.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Examples of the DVD of the present invention will be described below. Prior to the description of the embodiment, the schematic structure of a double-sided DVD will be described with reference to the cross-sectional view of FIG. As shown in FIG. 1 (a), various lengths called information pits 3 representing digital data to be recorded on tracks on one side of two transparent substrates 1 and 2 made of transparent plastic such as polycarbonate resin. A hole with a certain depth is provided, and the entire surface of the data recording surface is covered with a reflective layer 4 such as aluminum, and a protective layer is provided thereon, and the two substrates 1 and 2 are back to back on the data recording surface side. Both sides are bonded to each other with the adhesive layer 5 to complete a double-sided DVD. In the figure, 6 is a center hall.
[0010]
Also, as shown in FIG. 1 (b), a double-layer double-sided DVD in which a transflective layer 7 constituting a recording surface having a similar structure is provided on the reading side of each reflective layer 4 with a slight gap therebetween. You can also.
Such a double-sided DVD can record large-capacity data on both sides of 9.4 GB (Fig. (A)) or 17 GB (Fig. (B)). As shown in FIG. 1, the reading is performed by condensing the reading light on each recording layer and detecting the reflected light from the information pit 3. Note that red semiconductor laser light having a wavelength of 635 to 650 nm is used as reading light.
[0011]
As a method of providing the information pits 3 on the surfaces of the substrates 1 and 2 in this way, a molten resin is injected into a mold including a stamper having a convex portion corresponding to the information pits 3 to be hardened by molding. An injection molding method, a stamper is attached to one side of a molding die of a hydraulic press machine, a resin material heated to the limit of the melting point is placed, pressed and molded, a space between a light-transmitting base film and an original 2P (Photo Polymerization) method in which a substrate is filled with a resin solution that is cured with ultraviolet rays or an electron beam, and the substrate solution is cured by irradiating the substrate film with ultraviolet rays or an electron beam (JP-A-2-203444). Etc. are known.
[0012]
By the way, a hologram called a Lippmann hologram or volume hologram can reproduce a recorded image under white light, and has a large reproduction wavelength selectivity and reproduction angle selectivity. Since it is transparent at the incident angle, it is possible to create a hologram that is transparent to the reading laser beam and can reproduce the hologram recording image with white light even when pasted on the reading side surface of the DVD as described above. .
[0013]
That is, for example, in the case of a Lippmann hologram reproduced with light of a green wavelength, a green three-dimensional image or a two-dimensional image can be seen by human eyes under white illumination light, but FIGS. Is substantially transparent (transmittance is approximately 100%) with respect to a reading laser beam having a wavelength of 635 nm on a double-sided DVD. Therefore, even if a label made of such a Lippmann hologram is attached to the front or back surface or both surfaces of a double-sided DVD, the information on the double-sided DVD can be read out by an existing DVD player. In addition, since the reading laser beam enters and exits perpendicularly to the DVD surface, even a Lippmann hologram reproduced by red light near the wavelength of 635 nm of the reading laser beam is diffracted near its angle (perpendicular to the DVD surface). Even when recording is performed so that the recorded image is not reproduced with low efficiency, information can be read without any problem even if the recording image is pasted on the front surface, back surface, or both surfaces of a double-sided DVD.
[0014]
Examples of the hologram label according to the present invention will be described below.
FIG. 2 shows an optical path diagram of a Lippmann hologram recording optical system. In the figure, 11 is an argon laser having a wavelength of 515 nm in Example 1, 12 is a half mirror, 13 is a mirror, 14 is a convex lens provided with a spatial filter on the rear focal plane, 15 is a collimating lens, and 16 is transmitted and scattered. A plate (opal glass), 17 is a pattern mask composed of an ON-OFF mask on which label printing information is recorded, 18 is a hologram recording film, and in the case of Example 1, Omnidex 706 (manufactured by DuPont).
[0015]
In the arrangement of FIG. 2, the argon laser beam having a wavelength of 515 nm from the argon laser 11 is bisected by the half mirror 12, and the reflected beam is expanded by the beam excander that includes the convex lens 14 and the collimating lens 15 via the mirror 13. Then, the pattern mask 17 is illuminated through the transmission / scattering plate 16 and is incident as object light from one surface of the hologram recording film 18, while the transmitted light bisected by the half mirror 12 passes through the mirror 13 to form a convex lens. The beam diameter is expanded by a beam extender consisting of 14 and a collimating lens 15, is made incident as reference light from the other surface of the hologram recording film 18, and interferes with object light and reference light in the hologram recording film 8. The Lippmann hologram was exposed. The exposure amount is 30 mJ / cm ² , and after recording, after UV exposure and heat treatment, a transparent adhesive MC2000 (manufactured by Nitto Denko Corporation) on the opposite side of the hologram recording film 18 from the transparent protective film 21 The layer 22 was applied, a release film 23 was laminated thereon, and after mold release, a hologram label seal 24 having a cross section shown in FIG. 3 was obtained. In FIG. 3, reference numeral 19 denotes a hologram recording layer in the hologram recording film 18, and reference numeral 20 denotes an adhesive layer in which a transparent protective film 21 is pasted on the hologram recording layer 19.
[0016]
The peeling film 23 of the hologram label seal 24 in FIG. 3 is peeled off, and both sides or a part of one side of the double-sided readout type DVD 10 manufactured through the normal process as shown in FIG. 1 (a) or (b) or By laminating the entire surface, it is possible to obtain a DVD with a hologram label whose cross section is shown in FIG. 4 (FIG. 4 shows a hologram label 24 attached to both sides of the double-sided DVD 10 in FIG. 1A. .) Since this label 24 looks green under natural light, the label information of the DVD is visible to the human eye, but since it is transparent to the readout laser beam (wavelength 635 nm), the information on the DVD 10 can be read normally.
[0017]
Next, in Example 2, with the arrangement of the optical system shown in FIG. 2, HRF750X071 (manufactured by DuPont) is used as the hologram recording film 18, and a krypton laser having a wavelength of 647 nm is used as the laser 11, and the exposure amount is 30 mJ / The label Lippmann hologram was exposed with an exposure amount of cm ² . After recording, UV exposure and heat treatment were performed, and then a layer 22 of transparent adhesive MC2000 (manufactured by Nitto Denko Corporation) was applied on the surface of the hologram recording film 18 opposite to the transparent protective film 21, and thereon. After the release film 23 was bonded and the mold was removed, a hologram label seal 24 having a configuration shown in FIG. 3 was obtained.
[0018]
In this embodiment, the release film 23 of the hologram label seal 24 in the cross section of FIG. 3 is peeled off, and both sides of the double-sided read type DVD 10 produced through the normal process as shown in FIG. 1 (a) or (b). Alternatively, a DVD with a hologram label whose cross-section is shown in FIG. 4 can be obtained by laminating a part or the entire surface of one side (FIG. 4 shows a hologram label on both sides of the double-sided DVD 10 in FIG. 1A). 24 is pasted.) Since this label 24 appears red under natural light, it seems to affect the readout laser light of the DVD 10. However, since the reference light for recording with the arrangement shown in FIG. The diffraction efficiency at a wavelength of 635 nm was low for light perpendicular to the disk surface, and the DVD 10 could be read normally.
[0019]
The digital video disk of the present invention has been described based on the embodiments. However, the present invention is not limited to these embodiments, and various modifications can be made. For example, a color image can be recorded by recording on a volume hologram at a wavelength of two or more wavelengths.
[0020]
【The invention's effect】
As is clear from the above description, according to the digital video disc of the present invention, the label information of the double-sided reading type DVD is applied by being attached as a volume hologram (Lippmann hologram) on both sides or one side of the DVD disc. Even with a type DVD, a wide display area can be secured and the label information can be easily viewed. At this time, since the label information is recorded on the volume hologram at an angle that does not affect the reading of the DVD data, the DVD can be read normally, and the three-dimensional information is recorded on the volume hologram. Therefore, the design and decoration can be improved.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a schematic configuration of a double-sided read type DVD.
FIG. 2 is an optical path diagram of a Lippmann hologram recording optical system used in an embodiment of the present invention.
FIG. 3 is a cross-sectional view of a hologram label seal according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view of a main part showing a state in which the hologram label seal double-sided readout type DVD according to the embodiment of the present invention is laminated on both sides.
[Explanation of symbols]
1, 2, ... Transparent substrate (disk substrate)
3 ... Information pit 4 ... Reflective layer 5 ... Adhesive layer 6 ... Center hole 7 ... Semi-transmissive reflective layer 10 ... Double-sided readout type DVD
DESCRIPTION OF SYMBOLS 11 ... Laser 12 ... Half mirror 13 ... Mirror 14 ... Convex lens 15 ... Collimating lens 16 ... Transmission scattering plate 17 ... Pattern mask 18 ... Hologram recording film 19 ... Hologram recording layer 20 ... Adhesive layer 21 ... Transparent protective film 22 ... Adhesive Layer 23 ... Release film 24 ... Hologram label seal

Claims (3)

  In a donut-shaped digital video disc produced by bonding two disc substrates on which information is transferred, a read laser beam of the digital video disc is provided on one or both surfaces of the two disc substrates. Although the diffraction efficiency of light near the wavelength of the readout laser light in the incident direction of the light is low, a label made of a volume hologram having a high diffraction efficiency of light near the wavelength of the readout laser light is adhered in a direction other than that direction. A digital video disc characterized by   2. The digital video disc according to claim 1, wherein a volume hologram for reproducing a purple, blue, green, yellow or orange recording image is used.   3. The digital video disc according to claim 1, wherein a recorded image is recorded on the volume hologram so as to be reproducible at two or more different wavelengths.

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