CN2434765Y - Super-grade digital general disc - Google Patents

Abstract

The utility model relates to a digital general disc, which comprises a central hole (1), a press disc area (2) which is concentric with the central hole (1), and a data recording area (3). The digital general disc is characterized in that press disc area (2) and the data recording area (3) are formed on the same single base sheet; the thickness of the base sheet at the press disc area (2) is larger than the thickness of base sheet at the data recording area (3).

Description

Super digital universal disc

The utility model relates to a kind of optical disc recording medium and mfg. moulding die thereof, relates in particular to a kind of and super digital universal disc and mfg. moulding die thereof the digital universal disc compatibility.

CD is mainly used in the usefulness of stored sound, image and data, generally has only circular size, and external diameter is 120 millimeters or 80 millimeters.CD mainly contains two classes, i.e. CD dish (compact disk) and DVD dish (digital universal disc).

CD can be divided into CD-DA, CD-I, CD-Photo, CD-G, CD-ROM, CD-ROM XA, VCD, multiple forms such as CD-R, CD-RW according to various functions and record format.

DVD can be divided into DVD-Video (video DVD), DVD-Audio (audio frequency DVD), DVD-ROM, DVD-R, multiple forms such as DVD-RW, DVD-RAM.

DVD and common CD outward appearance are closely similar, and its diameter is 120 millimeters, and thickness is 1.2 millimeters.The information storage capacity of DVD can reach seven to 13 times of CD.With single-surface single-layer DVD is example, and its memory data output reaches 4.7GB, surpasses seven times of a CD memory space.When being applied to home theater, an individual layer DVD can store at least and reach two hours 15 minutes video image, and has the performance of high-resolution image quality (horizontal resolution is up to 500 lines) and hi-fi music and interactive multimedia.DVD has DOLBY DIGITAL (AC-3) surround sound and eight separate channels simultaneously.When being applied to audio product, single-surface single-layer DVD can store the music content of six to seven CD disc records, and the sampling frequency up to 96 kilo hertzs and the analog to digital conversion ability of 24 bits are provided simultaneously.Because DVD has higher memory capacity, when being used to store games, games can have how beyond thought design, have the stronger sense of reality and a more nature border, and it is recreational that games are had more.The read-only memory module of DVD can replace existing C D fully.Because the capacity of single-surface single-layer DVD is seven times of CD-ROM, so content that DVD-ROM just can store a reference book only comprises image, sound and video clipping etc.

The data message of any kind of can be stored on the DVD, this means that DVD has wide development prospect aspect multimedia application.For example, wired and radiotelevision can be used for DVD more effective program.Video request program (VOD) is that a desirable DVD uses, because the DVD image does not need rewinding, and can search for automatically.Clamping OK DVD is another kind of the application, and has the huge market.In addition, DVD also can be applicable to publishing business.Other possible applications comprise video and audio recording, in order to substitute the tape of various systems.

For making DVD under the prerequisite of the maintenance outward appearance close, have bigger capacity with CD, half that the hole of DVD (or claiming hole line, pit) only is designed to cheat for CD, promptly 0.4 micron, the orbital spacing distance of DVD also is half of CD orbital spacing distance, promptly 0.74 micron.For optical head can correctly be focused on the so little hole, DVD has adopted the polycarbonate thinner than CD (PC) substrate.But if only make DVD with individual so thin substrate, then DVD can be because too thin and can't be certain to win by Horizon separately and put, and can not play in conventional DVD player.The DVD sheet that conventional DVD player requires to be play must have and is about 1.2 millimeters minimum thickness.Therefore, when making conventional DVD, adopt a kind of adhering technique, the substrate of two 0.6 millimeters thick is bonded together, form the DVD of 1.2 millimeters thick.In single-surface single-layer DVD, there is not data recording on a slice substrate wherein.Obviously, the production run of conventional DVD has not only been wasted the substrate raw material, and owing to need expensive bonder and a large amount of bonding agent, has unnecessarily increased production cost.In addition, adhesion technique has not only prolonged the production time, and has reduced the yields of DVD.

First purpose of the utility model is to provide a kind of digital universal disc of new structure, is referred to as super digital universal disc (SDVD) herein.Super DVD has the data layout with conventional DVD compatibility, therefore, can in the DVD player of routine, play, but its manufacturing process is simple relatively, and conservation.

Second purpose of the utility model is to provide the above-mentioned super digital universal disc of manufacturing employed mould.

For realizing above-mentioned first purpose, the utility model provides a kind of digital universal disc, comprises center pit, platen district and the data recorded area concentric with center pit, it is characterized in that:

Platen district and data recorded area are formed on the same single substrate, and the substrate thickness at place, platen district is greater than the substrate thickness at data recorded area place.

For realizing above-mentioned second purpose, the utility model provides a kind of mould that is used to make digital universal disc, comprising:

But first die holder of move toward one another and second die holder, the first die holder end face and the second die holder end face are faced mutually, constitute the substrate molding space between the first die holder end face and the second die holder end face;

A fluid injecting hole that is arranged on the first die holder end face can inject fluid to the substrate molding space through this hole; And

Second die holder comprises:

A center hub, its end face are exposed to the second die holder end face, and then are exposed to the substrate molding space, face mutually with fluid injecting hole, and

A stamping parts that is socketed in the center hub can move so that enter or leave the substrate molding space with respect to the second die holder end face;

Described mould is characterised in that:

The end face of center hub from the second die holder end face to the second die holder internal recess, first preset distance.

According to super DVD of the present utility model and conventional DVD compatibility, can be in conventional DVD player normal play, but saved only about half of raw material than conventional DVD.

In conjunction with the drawings to the detailed description of the utility model preferred forms, above-mentioned and other feature and advantage of the present utility model will be more obvious.

Fig. 1 is the top view of first embodiment of super DVD of the present utility model;

Fig. 2 is the sectional view of super DVD shown in Figure 1;

Fig. 3 is the top view of second embodiment of super DVD of the present utility model;

Fig. 4 is the sectional view of super DVD shown in Figure 3;

Fig. 5 is the synoptic diagram of super DVD mfg. moulding die of the present utility model.

Describe preferred forms of the present utility model below in detail.

Fig. 1 is the top view of first embodiment of super DVD of the present utility model, and this figure is identical with the top view of conventional DVD.Label 1 is a center pit.Label 2 is the platen district, when in the conventional DVD player that super DVD is packed into, corresponding platen sheet (not shown) will be fixed super DVD at 2 places, platen district in the player, thereby super DVD serves as rapidly rotation of axle with center pit 1 under the drive of motor (not shown).Label 3 is a data recorded area, is used for according to different purposes, and according to corresponding record format, stored sound, image and data.The record format of data recorded area 3 can meet the standard of any relevant DVD record format in the prior art, thereby makes super DVD and conventional DVD compatibility, so as can be in conventional DVD player normal play.

Certainly, among the super DVD record format of data recorded area 3 also can meet may occur in the future let alone his in the standard of closing optical disk record format.The different recording formats that data recorded area 3 is taked does not constitute restriction of the present utility model.

The diameter of center pit 1 is generally 15 millimeters, and the overall diameter in platen district 2 is generally 33.5 millimeters, and the overall diameter of data recorded area 3 is generally 48 millimeters to 120 millimeters.Typically, the overall diameter of data recorded area 3 can be 80 millimeters or 120 millimeters, so that can play in conventional DVD player.Various sizes given here are just in order to make super DVD have the similar profile with conventional DVD, so that play in conventional DVD player.These sizes do not constitute the restriction to center pit 1, platen district 2 and data recorded area 3 physical sizes.

Fig. 2 is the sectional view of super DVD shown in Figure 1.As shown in Figure 2, the platen district 2 of super DVD and data recorded area 3 are formed on the same single substrate, shown in figure bend part.The material that constitutes substrate can be any suitable material in the prior art, for example, can be the polycarbonate (PC) that is used to make conventional CD or DVD.

The thickness in platen district 2 is in 0.6 millimeter to 1.5 millimeters scope, and the thickness of data recorded area 3 is about 0.6 millimeter.On the upper surface as the substrate sections of data recorded area 3, be suppressed with the hole of representative data, face two substrate sections between the hole mutually and be called platform in the mode that meets previously described various standards.Then, in the plating of the upper surface of substrate with metallic film, so that reflect beams of laser light reads for optical head.The various standards relevant with record data and the working method of optical head are known by those skilled in the art, and the heart is not stated more.

Above-mentioned novel structure can be used for various DVD.For example, when making DVD-R, can apply one deck photosensitive material layer as on the substrate surface of data recorded area 3, dye coating for example is then in the position of record data UV-irradiation, so that dyestuff hardens.At last, plating is used for the reflecting ﹠ transmitting substrate and incides laser beam on the photosensitive material layer with metal level on photosensitive material layer.Method whereby can be produced the DVD-R of novel structure, promptly super DVD-R (SDVD-R).In addition, can pass through many target metals plasma sputtering, being used as composite layer that comprises multilayer different metal material thin layer of formation on the substrate surface of data recorded area 3, as photosensitive material layer.Method whereby can be produced the DVD-RW of novel structure, promptly super DVD-RW (SDVD-RW).

Super DVD illustrated in figures 1 and 2 has circular shape, and this is the most general situation.According to different application targets and needs, super DVD of the present utility model can adopt other different shapes, as rectangle, square, ellipse, heart, triangle etc., perhaps any other irregular shape.This super DVD can be used for various uses, for example as DVD business card, DVD security personnel card, DVD calendar, DVD propaganda material, DVD greeting card, DVD products catalogue or the like.

Fig. 3 is the top view of second embodiment of super DVD of the present utility model, and the super DVD with rectangular shape is shown.Label 1 is a center pit, and label 2 is the platen district, and label 3 is a data recorded area, and they are identical with corresponding component among Fig. 1 and Fig. 2, repeat no more.Only be that with the difference of Fig. 1 label 4 is outside area.

On data recorded area shown in each figure 3 and outside area 4, can make various patterns or literal (in the utility model, literal being handled as pattern).Pattern, the figure made on data recorded area 3 or outside area 4 can be as decorating or illustrative purposes.When super DVD shown in Figure 3 when the DVD business card, can on data recorded area 3 and/or outside area 4, produce business card possessor's multinomial contents such as name, post, work unit, phone, unit brief introduction.

Externally distinguish pattern-making on 4, can adopt any available method in the prior art, for example print, carve or the like.

Pattern-making on data recorded area 3, the novel method that needs the utility model to provide.State as preamble, in data recorded area 3, suppressed the hole of a large amount of representative datas, between the hole of facing mutually, form platform.Therefore, can select part hole and/or platform from a large amount of holes and platform according to the pattern of made, not influence under the representative data conditions, their shape of slight modification makes it have special shape.The pattern that on macroscopic view, is combined into made by the hole and/or the platform of these special shapes.

Can take several different methods, make part hole and/or platform possess special shape.For example, can in advance pattern be fabricated on the matrix together with data, in the process of injection mo(u)lding substrate, matrix be pressed on the substrate then.Also can utilize laser needs to be changed the hole and/or the platform imprinting once more one by one of shape utilizing after conventional method is pressed into data on the substrate.

For super DVD shown in Figure 3 can be play in conventional DVD player, the distance between any point on outside area 4 outward flanges and the center of circle of center pit 1 must be less than or equal to 60 millimeters.The outward flange of outside area 4 can composition rule shape (for example, circle, rectangle, square, ellipse, triangle etc.) or any irregular shape.In super DVD shown in Figure 3, because the existence of outside area 4, the overall diameter of data recorded area 3 is generally less than the overall diameter of data recorded area 3 among the super DVD shown in Figure 1, but minimum is 48 millimeters.

Fig. 4 is the sectional view of super DVD shown in Figure 3.As shown in Figure 4, the platen district 2 of super DVD, data recorded area 3 and outside area 4 are formed on the same single substrate, shown in figure bend part.Different with Fig. 2 is to have increased outside area 4.Outside area 4 can have identical thickness with data recorded area 3.

As Fig. 3 and super DVD shown in Figure 4 when being irregularly shaped, for can be in conventional DVD player the erose super DVD of normal play, need with dish lower surface that the player pallet contacts on, about 40 millimeters places in the center of circle in distance center hole 1, stationary installation is set, as shown in the reference numeral 5.This stationary installation can be to be formed at on-chip at least two projectioies, also can be to be adhered to on-chip at least two glue limits, or a ring concentric with center pit 1.

Conventional DVD player all has and reads the ability that overall diameter is 80 millimeters a compact disk, because be that 80 millimeters places all have a specific recessed track at diameter on the pallet of CD player.When on the pallet that the super DVD that is provided with stationary installation 5 shown in Figure 4 is installed to conventional DVD player, it is in 80 millimeters the recessed track that stationary installation 5 will be engaged to diameter in the pallet.Thereby, even super DVD has irregular shape, it also can be in DVD player rotation stably under the drive of motor.

Because the selection of data recorded area 3 and outside area 4 sizes, stationary installation 5 can be positioned at the substrate lower surface at data recorded area 3 places, perhaps is positioned at the substrate lower surface at outside area 4 places, perhaps is positioned at the substrate lower surface of data recorded area 3 and outside area 4 intersections.Stationary installation 5 does not constitute restriction of the present utility model with the relative position of data recorded area 3 and outside area 4.

Fig. 5 is the synoptic diagram of the mould that uses when making super DVD of the present utility model.This mould comprises: but first die holder 501 of move toward one another and second die holder 502.The first die holder end face and the second die holder end face are faced mutually, constitute substrate molding space 508 between the first die holder end face and the second die holder end face.

A fluid injecting hole 503 is arranged on the first die holder end face.When the substrate of the super DVD of injection mo(u)lding, can inject the fluid that is used to form substrate from first die holder, 501 inside to substrate molding space 508 through fluid injecting hole 503.This fluid for example can be the polycarbonate that dissolves.

Second die holder 502 comprises:

A center hub 504, its end face are exposed to the second die holder end face, and then are exposed to substrate molding space 508, face mutually with fluid injecting hole 503; And

A stamping parts 505 that is socketed in the center hub 504 can move so that enter or leave substrate molding space 508 with respect to the second die holder end face.The effect of stamping parts 505 is, after the injection mo(u)lding, impact fast to the second die holder end face in substrate molding space 508 at super DVD, thereby to hit diameter for example is 15 millimeters center pit being adsorbed in super DVD disc upper punch on the second die holder end face.

In practical operation, can first die holder 501 is fixing, and make second die holder on demand near or move away from first die holder.

As shown in the figure, the end face of center hub 504 from the second die holder end face to second die holder, 502 internal recess, first preset distance.

When the super DVD of injection mo(u)lding, the matrix 507 of vacuum suction band center pit (its diameter is generally 33.5 millimeter) on the second die holder end face, the center pit of matrix 507 makes the end face of center hub 504 be exposed to substrate molding space 508.

In addition, on first die holder 501, can have stop means 506, be used for when second die holder 502 moves near first die holder 501, second the mobile of die holder 502 being limited, so that between the first die holder end face and matrix 507, keep second preset distance.This second preset distance is about 0.6 millimeter.First preset distance and matrix 507 thickness sums are in 0 millimeter to 0.9 millimeter scope.

In the process of making super DVD of the present utility model, mould shown in Figure 5 is to use like this.At first, to the second die holder end face, the center pit of matrix 507 and center hub end face are just coincide matrix 507 vacuum suction.Then, second die holder 502 moves to first die holder 501, until contacting with stop means 506.Afterwards, inject the polycarbonate that dissolves from fluid injecting hole 503 to substrate molding space 508.Utilize water cooling to make the substrate cooling of moulding.After this, second die holder 502 leaves first die holder 501.At this moment, be stained with the substrate of moulding on the matrix 507.Impulse member 505 impacts outside the second die holder end face fast, thereby hits center pit in the substrate upper punch.At last, mechanical arm takes off substrate from second die holder, for subsequent treatment.

Though below described preferred forms of the present utility model in conjunction with the accompanying drawings in detail, for those skilled in the art in this area, can make various modifications and changes, and not deviate from scope of the present utility model and essence.Therefore, scope of the present utility model only is defined by the claims.

Claims (19)

1. digital universal disc comprises center pit (1), platen district (2) and the data recorded area (3) concentric with center pit (1), it is characterized in that:

Platen district (2) and data recorded area (3) are formed on the same single substrate, the substrate thickness that the substrate thickness that platen district (2) are located is located greater than data recorded area (3).

2. according to the digital universal disc of claim 1, it is characterized in that the substrate thickness located in platen district (2) is greater than 0.6 millimeter and be less than or equal to 1.5 millimeters.

3. according to the digital universal disc of claim 2, it is characterized in that the substrate thickness that data recorded area (3) is located is about 0.6 millimeter.

4. according to the digital universal disc of claim 3, the overall diameter that it is characterized in that data recorded area (3) is in 48 millimeters to 120 millimeters scope.

5. according to the digital universal disc of claim 3, it is characterized in that data recorded area (3) comprising:

Be compressed on on-chip a large amount of hole and platform, in order to represent recorded data;

Be plated in the metal level on described a large amount of hole and the platform, be used for the reflecting ﹠ transmitting substrate and incide laser beam on described a large amount of hole and the platform.

6. according to the digital universal disc of claim 5, it is characterized in that a described a large amount of hole and the part in platform hole and/or platform have special shape not influencing under the representative data conditions, the hole with described special shape with become platform to be combined into pattern.

7. according to the digital universal disc of claim 3, it is characterized in that data recorded area (3) comprising:

Be coated in on-chip photosensitive material layer;

Be plated in the metal level on the described photosensitive material layer, be used for the reflecting ﹠ transmitting substrate and incide laser beam on the described photosensitive material layer.

8. according to the digital universal disc of claim 7, it is characterized in that photosensitive material layer is a dye coating, hardened through UV-irradiation in some positions of dye coating, to represent recorded data.

9. according to the digital universal disc of claim 7, it is characterized in that photosensitive material layer is a composite layer, comprise multilayer different metal material thin layer, the position that is subjected to laser beam irradiation undergoes phase transition, and changes light transmission features.

10. according to each digital universal disc in the claim 1 to 9, it is characterized in that described digital universal disc also comprises an outside area (4) that holds data recorded area (3) fully.

11., it is characterized in that outside area (4) is formed on the same single substrate that constitutes platen district (2) and data recorded area (3) according to the digital universal disc of claim 10.

12., it is characterized in that the distance between the center of circle of any point on outside area (4) outward flange and center pit (1) is less than or equal to 60 millimeters according to the digital universal disc of claim 11.

13., it is characterized in that the outward flange of outside area (4) constitutes a circle according to the digital universal disc of claim 12.

14., it is characterized in that the outward flange of outside area (4) constitutes a rectangle according to the digital universal disc of claim 12.

15., it is characterized in that the outward flange of outside area (4) constitutes an irregular figure according to the digital universal disc of claim 12.

16. according to each digital universal disc in the claim 12 to 15, it is characterized in that described digital universal disc with lower surface that the player pallet contacts on, about 40 millimeters places have stationary installation in the center of circle of distance center hole (1).

17., it is characterized in that stationary installation is at least two projectioies according to the digital universal disc of claim 16.

18., it is characterized in that stationary installation is at least two glue limits according to the digital universal disc of claim 16.

19. according to the digital universal disc of claim 16, it is characterized in that stationary installation be one with the concentric ring of center pit (1).

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