JPS6310346A - Optical disk - Google Patents

Abstract

PURPOSE:To obtain the desired adhesive intensity by providing a hot-melt adhesive layer having viscosity at a normal temperature up to the outer circumferential edge of a disk but not to the inner circumferential edge and at the same time covering the entire surface of the outer circumferential edge of the adhesive layer with a hot-melt adhesive layer which is not viscous at a normal temperature. CONSTITUTION:A hot-melt adhesive layer 4 having viscosity at a normal temperature reaches the outer circumferential edge E0 of both optical disks X and Y but not the inner circumferential edge Ei of both disks. Thus the flow-out margin l is secured at the inner circumferential edge part between the inner circumferential edge of the layer 4 and the edge Ei of the disks so that the overflowed hot-melt adhesive never goes over the edge Ei. While the adhesive goes over the edge E0 and therefore a covering hot-melt adhesive layer 5 which is not viscous at a normal temperature is provided over the entire circumference of the disk and also over the entire thickness of the disk. Thus it is possible to an optical disk of high quality that keeps the desired adhesive intensity and if free from overflow of the adhesive.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a bonded optical disc.

[Background of the invention]

The optical disc has a recording layer (or recording section) on the transparent substrate, a protective substrate on one side of the recording layer, and a protective substrate on the other side.
Alternatively, there is a bonded type in which the other disk having a recording layer is bonded to the side of the recording layer.

In this case, as is known from Japanese Patent Laid-Open No. 58-6536, etc., bonding is carried out using a hot-melt adhesive that is sticky at room temperature. When this hot melt adhesive that is sticky at room temperature is used, it is solvent-free and the time required for adhesion is short, which has the advantage of being excellent in productivity and economy.

However, hot melt adhesives do not have high adhesive strength, so if you do not apply the adhesive all the way to the outer edges of the discs, the discs will easily peel off from each other when handling the product. Evening) [It is essential to apply to the very edge of S1. However, if the botmelt adhesive, which is sticky at room temperature, is applied to the 1st periphery of the adhesive, the 44th adhesive will come out from the 44th edge of the product when the product is removed or as the temperature rises. Lose value.

Furthermore, in the past, a hot-melt adhesive that was sticky at room temperature was applied to the inner periphery, resulting in protrusion from the inner periphery as well.

SUMMARY OF THE INVENTION Therefore, the main object of the present invention is to provide an optical disc that can not only prevent the hot melt adhesive, which is sticky at room temperature, from extruding from the inner periphery 1 (and the outer periphery), but also achieve desired adhesive strength. There is a particular thing.

[Means for solving problems]

The above object is to provide a first recording layer comprising a recording layer on a transparent substrate that can be recorded and/or reproduced by at least a laser beam.
In an optical disk formed by bonding the recording layer of a second disk and the recording layer of a second disk having the same structure as the first disk; This is achieved by interposing an adhesive layer that reaches the outer periphery of the disk but not reaching the inner periphery, and by coating the entire outer periphery end surface of the adhesive layer with Fosotomel 1~, which is non-adhesive at room temperature. .

[Specific structure of the invention]

The present invention will be explained in more detail below.

7. In an optical disc in which the recording layer of the first tinook and the recording layer of a second disk having a similar structure are attached,
, 4” Always 17 on page 1! At the same time, a hot-melt adhesive layer having adhesiveness is interposed so as to reach the outer circumference Sl& of the Tinuku, but not to reach the inner four edges (lj), and the entire outer peripheral end face of the adhesive layer is coated with a non-adhesive hot-melt adhesive at room temperature. Obtain light dinuks by coating.

In the present invention, since a pot-melt adhesive is used for lamination 11, unlike conventional solvent-type adhesives,
It does not wrap around the substrate surface, and efficiency is increased.

However, Botmelt adhesive, which is sticky at room temperature,
If pressure is applied in a direction perpendicular to the surface during handling or if the disks are placed under high temperatures, they may come out of the interface between the disks. Therefore, in order to prevent this sticking out, the adhesive is applied to the inner peripheral edge of the disk in such a way that it does not protrude from the inner peripheral edge, even if it does not protrude from the initial application state. Allow enough margin to prevent the disk from protruding, so that it does not reach the inner edge of the disk.

On the other hand, if the adhesive does not reach the outer periphery of the disk, the disks will easily peel off from each other when handling the product. Try to reach it. However, as it is, it is not possible to prevent the extrusion, so as a preventive measure, the outer periphery (end surface) of the adhesive, which is sticky at room temperature, is
The entire body is coated with a non-stick hot melt at room temperature.

The presence of this non-adhesive Botmelt acts as a wall and prevents the hot melt, which is sticky at room temperature, from extruding.Also, since hot melt, which is non-stick at room temperature, is inherently sticky, the product There will be no problem when handling.

FIG. 1 shows an example of the structure of an optical disc according to the present invention, in which a recording section is formed on a transparent substrate 1, and signal pins (la) are formed by minute irregularities on the surface of the transparent substrate 1, and a reflective film 2 made of aluminum or the like is formed on the surface thereof. Disks X and Y of the same structure, on which protection@3 is formed, are placed so that the recording portions, that is, the signal pits la and la, are facing each other, and the disks are adhesive at room temperature. They are bonded together via a hot melt adhesive layer 4.

In addition, the hot melt adhesive layer 4, which is sticky at room temperature,
Outer periphery E of disks X and Y. However, the inner peripheral edges E. It has not yet been reached. Therefore, at the inner peripheral edge, the inner peripheral edge of the adhesive layer 4 and the inner peripheral edge E of the disk. A flow margin 1 is formed between the disk and the disk so that even if the pot melt adhesive does not flow out, it does not exceed the inner peripheral edge E of the disk.

On the other hand, at the outer periphery, the adhesive will protrude as it is, so an optical disc that follows a structure in which the coating hot melt 5, which is non-adhesive at room temperature, is distributed over the entire circumference and the entire thickness of the optical disc. The effects on prevention of extrusion and adhesion are the same as those described above.

In the present invention, [tackiness at room temperature of 1] means at least 20
It refers to something that has tackiness in the temperature range of ~40°C. As an example of this, for example, rHM40 manufactured by Cemedine
8J can be mentioned.

The thickness of this adhesive layer can be appropriately selected depending on the strength of the adhesive. The above outflow allowance ρ is 51 min.
It is desirable that the

Further, in the above example, the coating botmelt 5 covers the entire thickness of the optical disc, but since it is sufficient to cover the entire thickness of the adhesive layer 4 at room temperature, for example, it can be applied only to the central part of the optical disc in the thickness direction. (However, it is necessary that the entire adhesive layer 4 is coated).

The coating hot melt can be coated, for example, by the method shown in FIG.

That is, the coating phase hot melt 5 is stored in a melting tank 6, the stiffness is removed via a dip roll 7, transferred to a transfer 11-roll 8, and one sheet, preferably a plurality of sheets, are placed on a rotating shaft 9. The discs D that have already been bonded are rotated at the same peripheral speed as the transfer roll 8, and the surface of the transfer roll 8 is coated by rotating each disc D while contacting the outer peripheral surface. After this coating, the disk still attached to the rotating shaft 9 is guided to a cooling means previously provided near the above-mentioned apparatus, such as a cooling roll or a cooling chamber through which cooling air flows, and there, the disc is brought into contact with the cooling roll. Cooling by contacting or exposing to cooling air can prevent the coating fosotomel I- from dripping and is also efficient.

The hot melt for coating only needs to be non-adhesive at room temperature, and its material is not limited, but for example, a polyester type material such as "Aron Meltopes 110Hj" manufactured by Toagosei Kagaku Kogyo Co., Ltd. can be suitably used.

In the above example, each disc has a recording section before being bonded together, but a protective plate with or without a recording section, such as a plastic plate, may be bonded to one of the disks having a recording section. .

The transparent substrate in the present invention may be made of polymer materials such as polymethyl methacrylate (PMM8), polycarbonate, polyvinyl chloride, polyimide, polyamide, cellulose triacetate, and polyethylene terephthalate, as well as glass and ceramics.

Further, the recording portion in the present invention may be formed not only by bits but also as a recording film, for example, made of Te.
or In, Sn, Pb.

sb, old, etc. added, Se-based material, Rh-3i alloy, AsTeGe+5nTeSe amorphous film, 5
b2Se1. BizTe3 etc. can also be used. It may also be a write-once type magneto-optical disk, in which case rare earth-
Although transition metal amorphous alloys are generally preferred, crystalline forms may also be used. Examples of this include GdFe,
TbFe.

GdCo, RoyFe, GdTbFe, Th
l1yFe, TbFeCo, GdTbCo.

GdFeB1. GdThPeGe ; or old +
Added with additive elements such as Sn and Ge; MnR
1, PtCo, MnCuR1, MnA n Ge and the like.

As a method for forming this recording section, a sputtering method, a vacuum evaporation method, etc. can be used.

Optical (for d-air disk, ^ρN, Si3N4.5i
Oz.

A dielectric film such as 5iO5LaFz+ CaFg+ TiO2, Zn, etc. may be provided.

In addition, a reflective film of Cu, An, etc. may be included in ^p and 8g. It may further include a protective film.

Furthermore, the disks may be reattached without a protective film.

〔Effect of the invention〕

As described above, according to the present invention, when bonding with a hot-melt adhesive that is sticky at room temperature, the inner periphery of the disk is prevented from reaching the inner periphery of the disk, so that protrusion from the inner periphery of the disk is prevented. In addition, by pasting the adhesive so that it reaches the outer periphery of the disk, peeling between the disks or between the disk and the protective plate can be prevented. Furthermore, protrusion from the outer periphery of the disk can be prevented by coating the outer periphery end face of the adhesive with a hot melt that is non-adhesive at room temperature. Therefore, Tokoro 3! While maintaining the bonding strength of J1, it is possible to obtain a product with no extrusion and high commercial value.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of an example of the structure of an optical disk according to the present invention, and FIG. 2 is a perspective view of an example of a coating method of phototomel 1 for coating. I...Transparent substrate, 1a...Signal bit (recording section)
, 2... Reflective film, 4... Hot melt adhesive that is sticky at room temperature, 5... Hot melt for coating that is non-viscous at room temperature, X, Y... Disk.

Claims (1)

[Claims] (1) A first disk having a recording layer that can be recorded and/or reproduced by laser light on a transparent substrate, and a second disk having a structure similar to that of the first disk. In an optical disk in which the recording layer of the disk is bonded together; a hot-melt adhesive layer that is sticky at room temperature is interposed on the bonded surface so as to reach the outer edge of the disk but not the inner edge; ,
An optical disc characterized in that the entire outer peripheral end surface of the adhesive layer is coated with a hot melt that is non-tacky at room temperature.