JPH0757303A - Production of optical information recording carrier and information recording carrier - Google Patents
Production of optical information recording carrier and information recording carrierInfo
- Publication number
- JPH0757303A JPH0757303A JP5200501A JP20050193A JPH0757303A JP H0757303 A JPH0757303 A JP H0757303A JP 5200501 A JP5200501 A JP 5200501A JP 20050193 A JP20050193 A JP 20050193A JP H0757303 A JPH0757303 A JP H0757303A
- Authority
- JP
- Japan
- Prior art keywords
- recording film
- recording
- initialization
- information recording
- optical information
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Optical Record Carriers And Manufacture Thereof (AREA)
- Manufacturing Optical Record Carriers (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は相変化型記録膜を有する
消去可能な円盤状などの光学的記録情報担体の初期化を
効率的に行う方法を示しており、光学的記録情報担体の
製造工程で利用する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention shows a method for efficiently initializing an erasable disc-shaped optical record information carrier having a phase change recording film, and manufacturing the optical record information carrier. Used in the process.
【0002】[0002]
【従来の技術】従来から相変化型記録膜を有する消去可
能な円盤状光学的記録情報担体(以下光ディスクと呼
ぶ)は既に記録されている情報を消去する過程を必要と
しない直接追加記録ができるダイレクトオーバライト可
能な光ディスクとして既に商品化されている。この光デ
ィスクは可逆性の相転移を生じる記録膜を有し、アモル
ファス状態と結晶状態の相変化で情報を蓄積(ストア)
し、また前記相状態を光学的な反射率の差として情報を
読み出し(リード)している。2. Description of the Related Art An erasable disk-shaped optical record information carrier (hereinafter referred to as an optical disk) having a phase-change recording film has heretofore been capable of direct additional recording without requiring a process of erasing already recorded information. It has already been commercialized as a direct overwritable optical disc. This optical disc has a recording film that undergoes a reversible phase transition, and stores information by a phase change between an amorphous state and a crystalline state.
Further, information is read (read) by using the phase state as a difference in optical reflectance.
【0003】この光ディスクは図2に示す様な製造工程
で作られる。成形工程で、スタンパー1の凹凸パターン
をインジェクション成形によって転写されたレプリカ基
板2は使用環境など必要に応じてハードコート工程でレ
プリカ基板2の表面にハードコート層3を付加される。
このハードコート層3によってレプリカ基板の表面硬度
は鉛筆硬度でH程度となり、更に表面抵抗値も1015Ω
程度に下がり導電性が改善される。その後、ハードコー
トされたレプリカ基板は成膜工程で記録膜4をスパッタ
リング工法で基板上に成膜される。記録膜4の構造は図
3に示す様に4層で、GeTeSbから成る記録層4a
と、その両側にZnS−SiO2 から成る誘電体層4b
及び4cと、Al合金から成る反射層4dから構成され
ている。This optical disk is manufactured by the manufacturing process as shown in FIG. In the molding process, the replica substrate 2 onto which the concave-convex pattern of the stamper 1 is transferred by injection molding is added with the hard coat layer 3 on the surface of the replica substrate 2 in the hard coat process as needed, such as in a use environment.
Due to this hard coat layer 3, the surface hardness of the replica substrate becomes about H in terms of pencil hardness, and the surface resistance value is 10 15 Ω.
The conductivity is improved to a certain extent. Thereafter, the hard-coated replica substrate is formed with the recording film 4 on the substrate by a sputtering method in a film forming process. The structure of the recording film 4 is four layers as shown in FIG. 3, and the recording layer 4a is made of GeTeSb.
And a dielectric layer 4b made of ZnS-SiO 2 on both sides thereof.
And 4c and a reflection layer 4d made of Al alloy.
【0004】この記録膜4の構造は記録層の両側に誘電
体層と反射層を配置して、記録膜を保護すると共に適度
な熱拡散を持つ様にしてダイレクトオーバライトを実現
している。The structure of the recording film 4 is such that a dielectric layer and a reflective layer are arranged on both sides of the recording layer to protect the recording film and to have an appropriate heat diffusion to realize direct overwrite.
【0005】成膜された基板はオーバコート工程で記録
膜4を保護する為にUV樹脂等からなるオーバコート層
5を付加される。オーバコート層5を付加された基板は
貼合せ工程でホットメルト樹脂6を塗布された後、基板
2枚を一対として接着剤としてのホットメルト樹脂6を
塗布された面を内側にして重ね合わされた後、圧力を加
えられ一枚の両面ディスク8に仕上げられる。An overcoat layer 5 made of UV resin or the like is added to the formed substrate in order to protect the recording film 4 in the overcoat process. The substrates to which the overcoat layer 5 was added were coated with the hot melt resin 6 in the laminating step, and then the two substrates were paired and the surfaces coated with the hot melt resin 6 as an adhesive were laminated inside. After that, pressure is applied to finish the single-sided double-sided disk 8.
【0006】このディスク8の記録膜4、特に記録層4
aはアモルファス状態にあり、この為反射率が低く、光
学的情報記録再生装置では使用できない。この為に従来
から相変化記録膜を有する光ディスクではトラック毎ま
たは複数のトラックをまとめてレーザ光9を照射して初
期化を行ない、記録層の状態をアモルファス状態から結
晶状態に遷移させて反射率を上昇させている。初期化工
程では図4の様な初期化装置を使用して初期化を行って
いる。熱源としては1W以上の高出力レーザ10例えば
Arレーザや半導体レーザ等を使用し、レ−ザの出射ビ
ームAは対物レンズやミラー等を有した光学ピックアッ
プ11をへて光ディスク8の記録膜面上に約φ20〜3
0μm径のビームBとして集束照射される。またこの光
学ピックアップ11は移動装置12によって光ディスク
8の径方向に移動させることで、ビームBの光ディスク
上での照射位置を変えることができる。光ピックアップ
の位置はリニアスケール13で検出され、位置データは
マイクロコンピューター等で構成させた制御回路14に
入力される。制御回路14はターンテーブルモータ15
と移動装置12を制御して、タ−ンテーブルモータ15
上の光ディスク8の記録膜4が線速度によって消去条件
が変化するため一定線速度(CLV)で且つ一定の送り
ピッチで光ビームの照射を受ける様にしている。The recording film 4 of this disk 8, especially the recording layer 4
Since a is in an amorphous state and has a low reflectance, it cannot be used in an optical information recording / reproducing apparatus. For this reason, conventionally, in an optical disk having a phase change recording film, each track or a plurality of tracks are collectively irradiated with a laser beam 9 to perform initialization, and the state of the recording layer is changed from an amorphous state to a crystalline state to obtain a reflectance. Is rising. In the initialization process, initialization is performed using an initialization device as shown in FIG. A high power laser 10 having a power of 1 W or more, such as an Ar laser or a semiconductor laser, is used as a heat source, and the emitted beam A of the laser is passed through an optical pickup 11 having an objective lens, a mirror, etc., on the recording film surface of the optical disk 8. About φ20 ~ 3
Focused irradiation is performed as a beam B having a diameter of 0 μm. Further, by moving the optical pickup 11 in the radial direction of the optical disc 8 by the moving device 12, the irradiation position of the beam B on the optical disc can be changed. The position of the optical pickup is detected by the linear scale 13, and the position data is input to the control circuit 14 configured by a microcomputer or the like. The control circuit 14 is a turntable motor 15
And the moving device 12 to control the turntable motor 15
Since the erasing condition of the recording film 4 of the upper optical disk 8 changes depending on the linear velocity, the recording film 4 is irradiated with the light beam at a constant linear velocity (CLV) and at a constant feed pitch.
【0007】この初期化装置によって記録膜の結晶化温
度以上に加熱昇温してアモルファス状態から結晶状態に
遷移させている。With this initialization device, the temperature is raised above the crystallization temperature of the recording film to transition from the amorphous state to the crystalline state.
【0008】本従来例ではCLV状態での初期化で説明
したが一定回転数(CAV)の状態で照射ビームBの強
度を制御しても同様に初期化は行える。In this conventional example, the initialization was performed in the CLV state, but the initialization can be similarly performed even if the intensity of the irradiation beam B is controlled in the state of a constant rotation speed (CAV).
【0009】[0009]
【発明が解決しようとする課題】従来例では相変化型記
録膜を有する光ディスクはその製造工程において貼合せ
後に初期化を行っていた。しかし記録膜4上にオーバコ
ート層5を有する為に、初期化の際に照射されるレーザ
ビームの熱がオーバコート層5に伝搬し吸収されること
で、加熱昇温が効率的に行われないし、また加熱されこ
とでオーバコート材料自身が熱的なダメージを受け記録
膜との密着性が劣化するだけでなく、熱分解によってガ
ス化するという課題を有していた。In the conventional example, the optical disk having the phase change recording film was initialized after the bonding in the manufacturing process. However, since the overcoat layer 5 is provided on the recording film 4, the heat of the laser beam irradiated at the time of initialization is propagated to and absorbed in the overcoat layer 5, so that the heating and heating can be efficiently performed. In addition, there is a problem that the overcoat material itself is thermally damaged by being heated and the adhesiveness with the recording film is deteriorated, and also the overcoat material is gasified by thermal decomposition.
【0010】[0010]
【課題を解決するための手段】本発明においては,成膜
工程でレプリカ基板上に記録膜を成膜した基板を加熱す
る事によって初期化し、初期化後の記録膜上にオーバコ
ート層を付加し、更にホットメルト樹脂を塗布し、上記
ホットメルト樹脂を塗布後の基板2枚を一対としてホッ
トメルト樹脂を塗布された面を内側にして重ね合わし、
重ね合わした基板に圧力を加え一枚の両面ディスクに仕
上げるようにしたものである。In the present invention, initialization is performed by heating a substrate on which a recording film is formed on a replica substrate in a film forming process, and an overcoat layer is added on the initialized recording film. Then, a hot-melt resin is further applied, and the two substrates after the hot-melt resin are applied are paired and the hot-melt resin-coated surface is placed inside and the two substrates are stacked.
By applying pressure to the superposed substrates, a single double-sided disk is finished.
【0011】[0011]
【作用】本発明は光ディスクの加熱による初期化をオー
バコート層を設ける前の成膜後の基板に行うことで、従
来と比べてオーバコート層による熱吸収が無くなり、初
期化時のレーザ光による加熱昇温が効率的に行え、且つ
初期化後の基板にオーバコート樹脂を付加することで、
オーバコート樹脂の記録膜への密着性の向上が可能とな
る。また記録膜の保護層であるオーバコート樹脂の塗布
を初期化後に行うことでオーバコート樹脂が熱的なダメ
ージを受けることが無いため記録膜に対しての強い密着
性が維持できるという作用効果を有するものである。According to the present invention, the initialization by heating the optical disk is performed on the substrate after film formation before providing the overcoat layer, so that heat absorption by the overcoat layer is eliminated as compared with the prior art, and the laser light at the time of initialization is used. By heating and heating efficiently, and by adding the overcoat resin to the substrate after initialization,
It is possible to improve the adhesion of the overcoat resin to the recording film. In addition, since the overcoat resin, which is the protective layer of the recording film, is applied after initialization, the overcoat resin is not thermally damaged, so that strong adhesion to the recording film can be maintained. I have.
【0012】[0012]
【実施例】以下、本発明の実施例について図面に基づい
て説明する。図1は実施例における光ディスクの製造工
程を示し、従来例と同一の工程については同一番号を付
し説明を省略する。Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a manufacturing process of an optical disc in the embodiment. The same processes as those in the conventional example are designated by the same reference numerals and the description thereof will be omitted.
【0013】成膜工程で記録膜4を成膜された基板は初
期化工程でレーザ光9の照射を受け初期化される。この
時、記録層4aの状態をアモルファス状態から結晶状態
に遷移させ、反射率が上昇させる。The substrate on which the recording film 4 has been formed in the film forming step is initialized by being irradiated with the laser beam 9 in the initializing step. At this time, the state of the recording layer 4a is changed from the amorphous state to the crystalline state, and the reflectance is increased.
【0014】この時、使用する初期化装置は図4に示し
たもので、従来例と同一のものである。しかしながら熱
の拡散が少ない為に、レーザ10の光出力を同一にする
とCLVの線速度を従来例の1.5倍以上に設定して初
期化を行うことができる。あるいはレーザスポット面積
を1.5倍にする事によっても実現可能である。At this time, the initialization device used is the one shown in FIG. 4, which is the same as the conventional example. However, since the heat diffusion is small, if the light output of the laser 10 is the same, the linear velocity of the CLV can be set to 1.5 times or more that of the conventional example to perform the initialization. Alternatively, it can be realized by increasing the laser spot area by 1.5 times.
【0015】初期化された基板はオーバコート工程で記
録膜を保護する為にUV樹脂からなるオーバコート層5
を付加される。オーバコート層5を付加された基板は貼
合せ工程でホットメルト樹脂6を塗布された後、基板2
枚を一対としてホットメルト樹脂を塗布された面を内側
にして重ね合わされた後、圧力を加えられ一枚の両面デ
ィスク7に仕上げられる。The initialized substrate is an overcoat layer 5 made of UV resin for protecting the recording film in the overcoat process.
Is added. The substrate to which the overcoat layer 5 is added is coated with the hot melt resin 6 in the laminating step, and then the substrate 2 is formed.
After a pair of sheets are stacked with the surfaces coated with the hot melt resin facing inward, pressure is applied to finish one double-sided disk 7.
【0016】上記実施例では光ディスクを例にとって説
明したが、その形状に限定される事なく、カード状やド
ラム状、テープ状などの形状の記録媒体への応用が可能
な事は自明であり、また相変化記録材料で説明したが熱
を利用した記録原理を有する可逆記録膜の初期化や熱と
磁界の両方を必要とする光磁気記録材料に対しても磁界
手段を追加する事によって応用可能である。In the above embodiment, the optical disk is described as an example, but it is obvious that the invention is not limited to the shape and can be applied to a recording medium having a card shape, a drum shape, a tape shape, or the like. Also, although it has been explained about the phase change recording material, it can be applied by adding magnetic field means also to the initialization of the reversible recording film having the recording principle using heat and the magneto-optical recording material which requires both heat and magnetic field. Is.
【0017】[0017]
【発明の効果】以上に述べて来た様に、本発明を用いる
ことで初期化を効率的に行うことが可能となり、従来の
初期化に比べて同一のレーザパワーを照射しても、線速
度を上げて行うことができ、この結果一枚あたりの初期
化に要する時間を従来に比べて70%以下に出来、大幅
に短縮することが可能となる。As described above, by using the present invention, initialization can be efficiently performed, and even if the same laser power is applied as compared with the conventional initialization, the line can be irradiated with light. It is possible to increase the speed, and as a result, the time required for initialization per sheet can be reduced to 70% or less compared to the conventional case, and it is possible to greatly reduce the time.
【0018】また記録膜の保護層であるオーバコート樹
脂の塗布を初期化後に行うことでオーバコート樹脂が熱
的なダメージを受けること無く、本来の特性が保たれ記
録膜に対しての強い密着性が維持でき高品質、長寿命の
光ディスクを供給する事が可能になるものである。By applying the overcoat resin, which is a protective layer of the recording film, after the initialization, the overcoat resin is not thermally damaged, the original characteristics are maintained, and strong adhesion to the recording film is maintained. It is possible to supply high quality, long life optical discs that can maintain their performance.
【図1】本発明の実施例での光ディスク製造工程図FIG. 1 is a process diagram of an optical disc manufacturing process according to an embodiment of the present invention.
【図2】従来例での光ディスク製造工程図FIG. 2 is an optical disk manufacturing process diagram in a conventional example.
【図3】記録膜の構造を示す図FIG. 3 is a diagram showing a structure of a recording film.
【図4】初期化装置の構成図FIG. 4 is a block diagram of an initialization device.
1 スタンパー 2 レプリカ基板 3 ハードコート層 4 記録膜 4a 記録層 4b 4c 誘電体層 4c 反射層 5 オーバコート層 6 ホットメルト樹脂 7 本発明の製造工程で作られた両面構造光ディスク 8 従来例の製造工程で作られた両面構造光ディスク 9 レーザ光 10 レーザ 11 光ピックアップ 12 移動装置 13 リニアスケール 14 制御回路 15 ターンテーブルモータ 1 Stamper 2 Replica Substrate 3 Hard Coat Layer 4 Recording Film 4a Recording Layer 4b 4c Dielectric Layer 4c Reflective Layer 5 Overcoat Layer 6 Hot Melt Resin 7 Double-sided Optical Disk Made by Manufacturing Process of the Present Invention 8 Manufacturing Process of Conventional Example Double-sided optical disc made with 9 Laser light 10 Laser 11 Optical pickup 12 Moving device 13 Linear scale 14 Control circuit 15 Turntable motor
Claims (4)
じる記録膜を配置し、前記記録膜上に樹脂層からなる光
学的情報記録担体の製造工程であって、前記樹脂層をコ
ートする前に前記記録膜を加熱し、前記記録膜のアモル
ファス状態から結晶状態へ転移させたことを特徴とする
光学的情報記録担体の製造方法。1. A process for producing an optical information recording carrier, comprising a substrate and a recording film which causes a reversible phase transition on the substrate, and a resin layer on the recording film. A method for producing an optical information recording carrier, characterized in that the recording film is heated before being coated with the composition to transform the recording film from an amorphous state to a crystalline state.
ポットに絞り込み、前記記録担体と前記レーザの間に相
対速度を発生させ記録膜上のスポット位置を走査させ加
熱することを特徴とする請求項1記載の光学的情報記録
担体の製造方法。2. When heating the recording film, the laser is narrowed down to a predetermined spot, a relative velocity is generated between the record carrier and the laser, and the spot position on the recording film is scanned to heat the recording film. Item 2. A method for manufacturing an optical information recording carrier according to item 1.
じる記録膜を配置し、前記記録膜上に樹脂層からなる光
学的情報記録担体の製造工程であって、前記樹脂層をコ
ートする前に前記記録膜を加熱し、前記記録膜のアモル
ファス状態から結晶状態へ転移させたことを特徴とする
光学的情報記録担体。3. A process for producing an optical information recording carrier, comprising a base material and a recording film which causes a reversible phase transition on the base material, and a resin layer on the recording film. An optical information recording carrier, characterized in that the recording film is heated before being coated with the material to transform the recording film from an amorphous state to a crystalline state.
を特徴とする請求項3記載の光学的情報記録担体。4. The optical information record carrier according to claim 3, wherein an ultraviolet curable resin is used as the resin.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20050193A JP3399033B2 (en) | 1993-08-12 | 1993-08-12 | Method for producing optical information recording carrier |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20050193A JP3399033B2 (en) | 1993-08-12 | 1993-08-12 | Method for producing optical information recording carrier |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0757303A true JPH0757303A (en) | 1995-03-03 |
JP3399033B2 JP3399033B2 (en) | 2003-04-21 |
Family
ID=16425371
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP20050193A Expired - Fee Related JP3399033B2 (en) | 1993-08-12 | 1993-08-12 | Method for producing optical information recording carrier |
Country Status (1)
Country | Link |
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JP (1) | JP3399033B2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2003034420A1 (en) * | 2001-10-12 | 2003-04-24 | Tdk Corporation | Optical recording medium manufacturing method and optical recording medium manufacturing apparatus |
US6959540B2 (en) | 1998-06-23 | 2005-11-01 | Toyota Jidosha Kabushiki Kaisha | Exhaust gas purification device of internal combustion engine |
-
1993
- 1993-08-12 JP JP20050193A patent/JP3399033B2/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6959540B2 (en) | 1998-06-23 | 2005-11-01 | Toyota Jidosha Kabushiki Kaisha | Exhaust gas purification device of internal combustion engine |
US7086222B2 (en) | 1998-06-23 | 2006-08-08 | Toyota Jidosha Kabushiki Kaisha | Exhaust gas purification device of internal combustion engine |
US7086223B2 (en) | 1998-06-23 | 2006-08-08 | Toyota Jidosha Kabushiki Kaisha | Exhaust gas purification device of internal combustion engine |
US7272924B2 (en) | 1998-06-23 | 2007-09-25 | Toyota Jidosha Kabushiki Kaisha | Exhaust gas purification device of internal combustion engine |
WO2003034420A1 (en) * | 2001-10-12 | 2003-04-24 | Tdk Corporation | Optical recording medium manufacturing method and optical recording medium manufacturing apparatus |
Also Published As
Publication number | Publication date |
---|---|
JP3399033B2 (en) | 2003-04-21 |
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