JPH0743717U - Information recording substrate - Google Patents

Abstract

(57) [Abstract] [Purpose] Reinforcing the bonded part on the inner peripheral part of the disk substrate and blocking it from the outside air, so that deterioration due to humidity can be prevented, installation work is easy, and adhesion strength is great. Obtain an information recording substrate. [Structure] A magnetic metal plate 11 is attached to a plastic hub body 10 having an insertion portion 8 and a flange portion 9 to form a hub 4, and a plurality of disk substrates 2a bonded together,
The insertion portion 8 of the hub body 10 from both sides of the center hole 3 of 2b
Is inserted, and the flange portion 9 of the hub body 10 and the disk substrates 2a and 2b, and the insertion portions 8 of the hub body 10 are adhered to each other with adhesive layers 13 and 14 to form an integrated information recording substrate.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an information recording substrate used as an optical disc, for example.

[0002]

[Prior art]

 As a plastic information recording substrate that focuses light such as laser light on the recording medium layer to write and read information, adhesive or ultrasonic waves with the recording medium layer inside or directly or through a spacer. Some are laminated by welding. Such an information recording substrate is easily peeled off due to long-term temperature and humidity cycles, and driving force is applied to the inner peripheral side. Therefore, especially those bonded via a spacer are easily peeled off from the inner peripheral side.

In order to improve such a point, a cured resin (adhesive) layer is formed on the end surface of the center hole of the laminated disk substrate to reinforce it (Japanese Patent Laid-Open No. 59-175046), and a center. There has been proposed a method in which a cage-shaped connecting rod is formed by making an annular hole around the hole and metal suction plates are attached above and below the connecting rod (Japanese Patent Laid-Open No. 62-119747).

[0004]

[Problems to be solved by the device]

 However, the former is effective against the temperature and humidity cycle, but is weak against the driving force from the inner circumference, and the latter has a complicated structure, and it is necessary to make a hole in the disk substrate at the time of mounting. There were problems such as difficulty in working.

The present invention is intended to solve the above-mentioned problems, and has a simple structure that reinforces the bonding portion of the inner peripheral portion of the disk substrate, shields it from the outside air, and facilitates the mounting work and secures the fixing strength. The purpose is to obtain a large information recording substrate.

[0006]

[Means for Solving the Problems]

 The present invention covers a plurality of disc substrates that have at least one recording medium layer and are laminated to each other, an insertion portion that is inserted into a center hole of the disc substrate, and a disc substrate near the center hole. A magnetic metal plate is attached to a plastic hub body having a flange portion, and two hubs in which the insertion portions are attached to the center holes from both sides of the disc substrate and between the flange portion of the hub and the disc substrate are provided. It is an information recording substrate having a first adhesive layer that adheres and a second adhesive layer that adheres between the insertion portions of the two hubs.

In the present invention, the plurality of disc substrates are laminated with the recording medium layer inside, but they may be laminated directly, or may be laminated via the outer peripheral spacer and the inner peripheral spacer. Good. Examples of laminating means include adhesives and ultrasonic welding.

As a material for forming the disk substrate, the outer peripheral spacer and the inner peripheral spacer, a thermoplastic resin such as polycarbonate, polymethylmethacrylate or polyolefin can be used. The preferred resin is a copolymer of ethylene and a cyclic olefin represented by the following general formula [I] or [II], and has an ethylene content of 40 to 85 mol% (preferably 50 to 80 mol%). Is preferred.

A resin particularly preferable for a disk substrate comprises (A) an ethylene component and a cyclic olefin component represented by the following general formula [I] or [II], and has an intrinsic viscosity [measured in decalin at 135 ° C. η] is 0. A cyclic olefin random copolymer having a softening temperature (TMA) of 70 ° C. or higher in the range of 05 to 10 dl / g, and (B) an ethylene component and a cyclic represented by the following general formula [I] or [II] It consists of an olefin component and has an intrinsic viscosity [η] of 0.3 as measured in decalin at 135 ° C. It is formed from a cyclic olefin-based random copolymer having a softening temperature (TMA) of less than 70 ° C. in the range of 01 to 5 dl / g, and the weight ratio of component (A) / component (B) is 100/0. There are cyclic olefin-based random copolymer compositions in the range of 1 to 100/10. The ethylene content of the component (A) is 40 to 85 mol% (preferably 50 to 75 mol%), and the ethylene content of the component (B) is 60 to 98 mol% (preferably 60 to 95 mol%). preferable.

General formula

[Chemical 1] [In the formula, n and m are both 0 or a positive integer, l is an integer of 3 or more, and R ¹ to R ¹⁰ each represent a hydrogen atom, a halogen atom or a hydrocarbon group. ]

As the plastic used for the hub body of the hub, in addition to the above-exemplified thermoplastic resins, any thermosetting resin can be used, but from the viewpoint of strength and cost, polycarbonate is preferable. The magnetic metal is preferably a ferromagnetic magnetic metal plate such as a magnetic steel plate. It is preferable that such magnetic metal is fixed to the surface of the hub body opposite to the insertion portion by mechanical engagement with a cut-and-raised piece or the like.

Any of the first adhesive for joining the hub and the disk substrate and the second adhesive for joining the insertion portions of the hub can be used, but an epoxy-based adhesive is preferable, and a UV-curable type is particularly preferable. The epoxy type is preferred.

In the present invention, the information recording substrate includes all media such as an optical disk and a flexible optical disk for recording information on a recording medium layer.

[0014]

[Action]

 The information recording substrate of the present invention is such that the disc substrate is bonded directly or with an outer peripheral spacer and an inner peripheral spacer so that the recording medium layer is on the inner side, and is adhered by an adhesive or ultrasonic welding, and the center hole is formed on both sides. Insert the hub body insertion part from above to mount it, fill the first adhesive layer between the flange part of the hub and the disk substrate and bond it, and at the same time attach the hub body and the second bonding part between the insertion parts. It is manufactured by filling and bonding an agent layer while mounting a magnetic metal on the hub body to form a hub.

In the information recording substrate thus manufactured, the hub body is in contact with the disc substrate by the insertion portion and the flange portion, and the hub body and the respective disc substrates are adhered by the adhesive layer to form the hub. Since the insertion parts of the main body are adhered by the adhesive layer, the whole body is integrated through the hub, which reinforces the inner peripheral part and at the same time blocks the outside air and prevents deterioration due to humidity. The laminating strength is increased.

In this case, since the hub body is made of plastic, the hub body and the disk substrate are bonded to each other, or the hub bodies are bonded to each other by a plastic-plastic bond, and when the entire hub is made of metal- The adhesive force is greater than in the case of metal-metal adhesion. For this reason, the fixing strength and the sealing property of the entire information recording substrate are improved. Such a plastic hub body alone is not suitable for a mechanical drive, but by incorporating magnetic metal into it, it is possible to increase the mechanical strength and enable a disk drive by a magnetic clamp.

When mounting the information recording substrate on the drive, the spindle of the drive may be inserted while colliding with the inner wall of the center hole of the hub. However, if the entire hub is made of metal, the spindle is also made of metal. Therefore, when the mounting is repeated, the inner wall of the hub center hole plastically deforms. When plastic deformation increases, burr-like protrusions appear, which may damage the spindle, which has no difference in hardness. Once the spindle is damaged, the subsequent removal / removal does not go smoothly and causes trouble. On the other hand, when plastic is combined with a magnetic metal plate, plastic deformation occurs, but since the resin is softer, the deformed magnetic metal plate escapes toward the resin and there is less risk of damaging the spindle.

[0018]

【Example】

 Hereinafter, the present invention will be described with reference to embodiments of the drawings. 1 and 2 are sectional views showing an information recording substrate according to different embodiments, and FIG. 3 is a sectional view of a hub body. In the figure, reference numeral 1 denotes an information recording substrate, which has a structure in which a hub 4 is mounted in the center hole 3 of two disc substrates 2a and 2b which are laminated so that the recording medium layers 1a and 1b are inside. . In FIG. 1, the disk substrates 2a and 2b are stacked via the outer peripheral spacer 5 and the inner peripheral spacer 6 and are laminated by ultrasonic welding to have an air sandwich structure. In FIG. 2, they are directly laminated by the adhesive layer 7. ing.

The hub 4 has a magnetic metal plate 11 mounted on a plastic hub body 10 having an insertion portion 8 and a flange portion 9, and has a hole 12 in the center. The magnetic metal plate 11 is mechanically engaged and fixed to the surface of the hub body 10 opposite to the insertion portion 8 by a cut-and-raised piece, but detailed illustration thereof is omitted. The insertion portion 8 of the hub 4 is inserted into the center hole 3, and the flange portion 9 covers the disk substrates 2a and 2b near the center hole 3. An adhesive layer 13 is formed between the flange portion 9 of the hub 4 and the disk substrates 2a and 2b, and an adhesive layer 14 is formed between the insertion portion 8 of the hub 4 so that each of them is fixed and integrated. Has been converted.

In the information recording substrate 1 configured as described above, as shown in FIGS. 1 and 2, the disk substrates 2a and 2b are directly or on the outer peripheral spacers 5 so that the recording medium layers 1a and 1b are inside. And the adhesive layer 7 or ultrasonic welding or the like through the inner peripheral spacer 6, and the insertion portion 8 of the hub body 10 is inserted into the center hole 3 from both sides to be mounted, and the flange portion 9 of the hub body 10 is attached. And the disk substrates 2a and 2b and between the insertion portions 8 of the hub body 10 are filled with adhesive layers 13 and 14 for adhesion, while the cut-and-raised pieces of the magnetic metal plate 11 are attached to the engagement portions of the hub body 10. It is manufactured by mechanically engaging and fixing to. In the case of FIG. 1, the disk substrates 2a and 2b and the outer peripheral spacer 5 may be bonded with an adhesive.

In the information recording substrate 1 thus manufactured, the hub 4 is in contact with the disc substrates 2a and 2b by the insertion portion 8 and the flange portion 9 of the hub body 10, and the flange portion 9 of the hub body 10 and the respective In the state where the disk substrates 2a and 2b are adhered by the adhesive layer 13, the insertion portions 8 of the hubs 4 are adhered by the adhesive layer 14, so that the whole is integrated through the hub 4 and thus The periphery is reinforced and the bonding strength increases.

In this case, since the hub body 10 is made of plastic, the flange portion 9 of the hub body 10 and the disk substrates 2a and 2b are bonded to each other by the plastic-plastic bond, and the plastic-metal and other different types are bonded together. The adhesive strength is greater than the adhesion between materials. For this reason, the adhesion strength of the entire information recording substrate 1 is increased, and the sealing property is improved, so that destruction and moisture intrusion from the inner peripheral portion can be prevented. Since the hub body 10 and the magnetic metal plate 11 are joined by mechanical engagement by the cut and raised pieces, the fixing force is large.

The information recording substrate 1 is mounted on a magnetic clamp type disk drive (not shown) to write and read information. In this case, the information recording substrate 1 is set on the turntable of the disc drive so that the spindle of the disc drive is inserted into the hole 12 of the hub 4, and the magnetic metal plate 11 is attracted by the magnet provided on the turntable. And fix it. In this state, the information recording substrate 1 is rotated by the rotating force of the turntable, and the recording medium layers 1a and 1b are irradiated with laser light or the like from the spindle side or the opposite side through the disc substrates 2a and 2b to thereby record information. Write and read.

When the information recording substrate 1 is mounted on the disk drive, even if a burr-shaped protrusion is formed by the spindle colliding with the inner wall of the magnetic metal plate 11 of the hub 4 and being inserted, the burr is plastic. Since it escapes to the plastic hub body 10 side due to the deformation, it does not damage the spindle and prevents the information recording substrate 1 from being attached and detached.

Since the magnetic metal plate 11 and the hub body 10 are mechanically joined by the cut-and-raised pieces, the rotational force between them is efficiently propagated, and the problem of damage due to peeling or the like does not occur. Since the hub body 10 and the disk substrates 2a and 2b are integrated by the first and second adhesive layers 13 and 14 with strong adhesive strength, the force transmission between them is uniform and efficient. The risk of breakage is small, as it does not apply excessive force.

In the embodiment, the joining of the plastic hub body 10 and the magnetic metal plate 11 is performed by mechanical engagement by the cut-and-raised pieces, but may be performed by joining with an adhesive or by embedding a metal by insert molding. . 1 and 2, the diameter of the hole 12 formed in the central portion of the plastic hub body 10 and the diameter of the central hole 12 of the magnetic metal plate 11 are shown to be the same. It does not have to be equal. That is, either of them does not necessarily exist around the hole 12.

FIGS. 4 and 5 are cross-sectional views showing a comparative example, which have substantially the same structures as those of FIGS. 1 and 2, respectively, but the insertion portion 8 of the hub 4 is short and is bonded between the insertion portions 8. Since the agent layer 14 is not formed, the strength of the inner peripheral portion is small in such a structure.

Hereinafter, test examples will be described. In the information recording substrate 1 shown in FIGS. 1, 2, 4 and 5, the polyolefin resin is used as the disk substrates 2a and 2b, the outer peripheral spacer 5 and the inner peripheral spacer 6, and the polycarbonate is used as the hub body 10. A hot melt adhesive was used as the adhesive layer 7, and a UV curable epoxy resin adhesive was used as the adhesive layers 13 and 14. A steel plate was used as the magnetic metal plate 11, and the cut and raised piece was engaged with the engaging portion of the hub body 10 to be integrated. Further, in FIG. 1, the disk substrates 2a and 2b and the outer peripheral spacer 5 and the inner peripheral spacer 6 were bonded by ultrasonic welding. The disk substrates 2a and 2b have an outer diameter of 130 mm, an inner diameter of 15 mm, and a thickness of about 1.2 mm, and the hub body 10 of FIG. 1 has A = 15 mm, B = 25 mm, C = 4 mm, and D = 1 in FIG. 0.45 mm, E = 2 mm, and D was changed in the cases of FIGS. 2, 4 and 5. These information recording substrates 1 were dropped from a height of 1 m 2 and a drop test was conducted.

As a result, in the case of FIG. 1, a part of the outer peripheral spacer 5 was observed to be peeled off after it was dropped 15 times. However, a drop test was continuously conducted, and even after it was dropped 50 times, the hub 4 and the inner peripheral spacer 6 were removed. Did not peel off. The device shown in FIG. 2 was subjected to a drop test in the same manner after holding the whole in an oven at 70 ° C. and 90% RH for 1000 hours, but the hub 4 did not detach even after it was dropped 50 times.

On the other hand, in the case of FIG. 4, the inner peripheral spacer 6 part was partially separated when it dropped 12 times. Further, the same environmental test as in FIG. 2 was carried out for the one shown in FIG. 5, and then the drop test was carried out. When the product dropped for 37 times, the hub body 10 was detached. Further, in the case where the adhesive layer 13 is omitted in FIG. 1, the hub body 10 is detached after dropping 35 times. Further, in the case where the adhesive layer 13 is omitted in FIG. 2, the hub body 10 is detached when dropped 46 times.

Next, one day after the bonding, using the Intesco universal material testing machine Model 210 (manufactured by Intesco) and a tension jig, the bonding strength of the entire hub body 10 was measured, and the hub body 10 was mounted on the drive device and measured. Checking the degree of peeling of the hub body 10 by repeating desorption. As a result of the desorption test, the overall adhesion strength of the hub body 10 of FIG. 1 is 10 kg / cm ² or more, and the desorption test is 100,000. Passed more than once.

On the other hand, the adhesive strength between the hub body 10 and the disk substrates 2a and 2b shown in FIG. 4 was 5 kg / cm ² , and the desorption test was 100,000 times or less, and the test failed. In addition, the adhesive strength of the hub body 10 in which the adhesive layer 13 was omitted in FIG. 1 was 7 kg / cm ² , and the desorption test was 100,000 times or less and failed. From the above results, it can be seen that the strength of the inner peripheral portion of the present invention is larger than that of the comparative example and peeling is less likely to occur.

[0033]

[Effect of device]

 According to the present invention, the hub is made by mounting the magnetic metal on the plastic hub body having the insertion part and the flange part, and inserting the insertion part of the hub body into the center hole from both sides of the disk substrate. After mounting, an adhesive layer was formed between the flange of the hub body and the disk substrate, and between the hub's inserts.The simple structure reinforces the bonding part on the inner peripheral part of the disk substrate and protects it from the outside air. By shutting off, it is possible to prevent deterioration due to humidity, and it is possible to obtain an information recording substrate that is easy to mount and has a high bonding strength.

[Submission date] April 13, 1994

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0006

[Correction method] Change

[Correction content]

[0006]

[Means for Solving the Problems]

The present invention has at least one recording medium layer covers a plurality of disc substrates mutually bonded together, the insertion portion to be inserted into the center hole of the disk substrate, and a disk substrate of the center near the hole A magnetic metal plate is attached to a plastic hub body having a flange portion, and two hubs in which the insertion portion is attached to the center hole from both sides of the disk substrate and between the flange portion of the hub and the disk substrate are provided. It is an information recording substrate having a first adhesive layer that adheres and a second adhesive layer that adheres between the insertion portions of the two hubs.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0013

[Correction method] Change

[Correction content]

[0013] The information recording substrate in the present invention is, etc. optical discs, including any medium that records information on the recording medium layer.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0016

[Correction method] Change

[Correction content]

In this case, since the hub body is made of plastic, the hub body and the disk substrate are bonded to each other, or the hub bodies are bonded to each other by a plastic-plastic bond, and when the entire hub is made of metal- The adhesive force is greater than in the case of metal-metal adhesion. For this reason, the fixing strength and the sealing property of the entire information recording substrate are improved. Such only plastic hub body is not suitable for drive, by integrating magnetic metal thereto, the mechanical strength is high, it is possible to drive by Mag ne tic clamps.

[Brief description of drawings]

FIG. 1 is a sectional view of an information recording substrate according to an embodiment of the present invention.

FIG. 2 is a sectional view of an information recording substrate of another embodiment.

FIG. 3 is a sectional view of a hub body.

FIG. 4 is a cross-sectional view of an information recording substrate of a comparative example.

FIG. 5 is a sectional view of an information recording substrate of another comparative example.

[Explanation of symbols]

 1 Information Recording Substrate 2a, 2b Disk Substrate 3 Center Hole 4 Hub 5 Outer Perimeter Spacer 6 Inner Perimeter Spacer 7, 13, 14 Adhesive Layer 8 Insertion Section 9 Flange Section 10 Hub Book 11 Magnetic Metal Plate 12 Hole

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[Procedure amendment]

[Submission date] April 13, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Claim 1

[Correction method] Change

[Correction content]

Claims (3)

[Scope of utility model registration request] 1. A plurality of disc substrates having at least one recording medium layer and bonded to each other, an insertion portion to be inserted into a center hole of the disc substrates, and a disc substrate near the center hole. A magnetic metal plate is attached to a plastic hub body having a flange portion, and two hubs in which the insertion portions are attached to the center holes from both sides of the disk substrate and between the flange portion of the hub and the disk substrate are provided. An information recording substrate having a first adhesive layer that adheres and a second adhesive layer that adheres between the insertion portions of the two hubs. 2. The information recording substrate according to claim 1, wherein a plurality of disk substrates are bonded directly or via an outer peripheral spacer and an inner peripheral spacer. 3. The information recording substrate according to claim 1 or 2, wherein a plurality of disc substrates are bonded together by an adhesive or ultrasonic welding.