JPH05225742A - Disk cartridge - Google Patents

Abstract

PURPOSE:To improve the strength and the sizing precision, to narrow a disk housing section and to make the device thinner by changing the half of a cartridge constitution. CONSTITUTION:Let the thickness of two sheet halves 2 and 3 be d1 and d2 where d1>=1.5d2 or d2>=1.5d1. Moreover, a disk housing section 7 is provided in the half 3 whose thickness is d2 so that the occurrence of deflection and camber is prevented during the temperature reduction after an injection molding process or while removing from a mold. The width of a circulararcuate rib 9 of the section 7 is made to be more than 1.5mm, the strength is increased to prevent the occurrence of a deformation and the sizing precision of the section 7 is increased. Thus, even though the depth of the section 7 is made small, the disk does not touch the inner surfaces of the top and the bottom of the section 7 and freely rotates. Moreover, a screw hole 14 is provided on the rib 9 of the section 7 and the halves 2 and 3 are held by a screw. By positioning the screw close to the section 7, the precision in sizing of the section 7 is improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disc cartridge in which disc-shaped discs such as optical discs, magneto-optical discs and magnetic discs are rotatably accommodated and the cartridge is made thin.

[0002]

2. Description of the Related Art Optical discs, magneto-optical discs, and magnetic discs are touched by fingers when the recording / reproducing device is loaded / unloaded, and fingerprints, dust, or the like adhere to the signal recording surface to cause a reproduction error. It is stored in a cartridge because it becomes easier.

A cartridge is formed by injection-molding a synthetic resin, and two substantially flat halves are butted against each other and bonded or screwed together. A large number of well-known examples of such cartridges are omitted, but in each case, the cartridges are configured such that the halves have substantially the same thickness, and the disc storage portion is
It is installed across the half of the sheet. Further, the width of the arc-shaped rib corresponding to the side wall of the disk housing portion that regulates the position of the disk is about 1 mm, which is almost the same as the width of the rising wall that constitutes the side wall of the cartridge.

[0004]

In recent years, there has been a demand for miniaturization and thinning of optical disc devices. The thickness of a conventional cartridge for accommodating a 60 mm disc (thickness: 1.2 mm) is about 5.6 mm. In order to reduce the thickness of the optical disk device, it is necessary to reduce the thickness of the spindle motor, the optical head, the course actuator, etc., which compose the optical disk device, and the thickness of the cartridge. The cartridge is formed by injection-molding a synthetic resin. Two substantially plate-shaped halves are butted against each other and bonded or screwed together. In the conventional cartridge, the two halves have substantially the same thickness, and the disk storage portion is provided over the two halves. The width of the arc-shaped rib that regulates the position of the disk is almost the same as the width (about 1 mm) of the rising wall that constitutes the side wall of the cartridge.
The depth of the disc storage part is about 3.2 mm, and a 1.2 mm thick disc is rotatably stored in this. If the state where the disc is placed on the turntable corresponds to approximately the center of the disc storage part of the cartridge, one side 1
There is a space of mm. To reduce the thickness of the cartridge,
It is necessary to make this space as narrow as possible. However, in the conventional cartridge configuration, if the thickness is less than 1 mm, the thickness of the two halves becomes thinner, the strength becomes lower and the dimensional accuracy deteriorates, and the disc contacts the upper and lower inner surfaces of the disc storage part and cannot rotate. become. The two halves of the cartridge are made by injection molding synthetic resin. For this reason, if the strength is low at the time of temperature drop after injection molding or at the time of mold release, deformation such as bending and warpage occurs, and the dimensional accuracy is poor. Therefore, in the conventional cartridge, the half is thickened in order to increase the strength. In addition, the space of the disc storage portion is made large so as to be 1 mm or more on one side to prevent the disc from coming into contact with the upper and lower inner surfaces of the disc storage portion and becoming unrotatable.

From the above, in order to reduce the thickness of the cartridge, there is a problem that a half having high strength and good dimensional accuracy must be manufactured.

[0006]

In order to solve the above problems, the structure of the cartridge half is changed in the present invention.
The conventional cartridge is thick because it is not intended to make the optical disc device thinner. Therefore, a large space can be secured in the disc storage portion. The cartridge has a structure in which the thickness of the two halves is almost the same, the disc storage portion is provided over the two halves, and the width of the arc-shaped rib corresponding to the side wall of the disc storage portion that regulates the position of the disc is The width of the rising wall that constitutes the side wall of the cartridge is almost the same. In the cartridge of the present invention, the thickness of the cartridge is also reduced in order to make the optical disc device thinner. In order to reduce the thickness of the cartridge, there is a problem that a half having high strength and good dimensional accuracy must be manufactured in order to prevent deformation after injection molding. In order to solve this problem, the following means were used.

1) One of the two halves is made 1.5 times thicker than the other half, and the thicker one is provided with the disk storage portion.

2) The width of the arc-shaped rib of the disk storage portion is set to 1.5 mm or more.

3) A screw hole is provided on the arc-shaped rib of the disc storage portion, and the half is screwed.

[0010]

The operation of the above-mentioned means 1) to 3) will be described. One of the two halves is 1.
It is more than 5 times thicker, and the thicker side is provided with a disk storage part. This is to prevent deformation such as bending and warpage that occur when the temperature drops or is released after injection molding.
That is, in order to prevent deformation, the half may be thickened and the deformation resistance strength may be increased. In this case, 2
If both halves are made thicker, the cartridge becomes thicker as a result. Therefore, only the halves provided with the disk storage portion, which is required to have dimensional accuracy, are used. Further, by providing the disc storage portion only on the thick half side, the shape of the other half is simplified, and even if the thickness of the half becomes thinner, it is difficult to deform. The width of the arc-shaped rib of the half disk storage portion of 2) was set to 1.5 mm or more. This is also for increasing the deformation resistance strength of the half, as in 1). The dimensional accuracy of the disc is particularly required for the disc storage portion. That is, if the dimensional accuracy of this portion is good, even if the space in the depth direction of the disk storage portion is narrowed, the disk can rotate without contacting the upper and lower inner surfaces of the disk storage portion when the disk rotates. Therefore, the thickness of the cartridge can be reduced. The width (about 1 mm) of the arc-shaped rib of the conventional cartridge is almost the same as the width of the rising wall forming the side wall of the cartridge. In the present invention, the thickness is 1.5 mm or more, and the deformation resistance strength of the half is increased.
In 3), a screw hole was provided on the arc-shaped rib of the disk storage portion of the half, and the half was screwed. As described above, the dimensional accuracy of the cartridge is particularly required for the disc storage portion. For this reason, the position where the screw is fastened is preferably as close to the disc storage portion as possible, and the dimensional accuracy of the disc storage portion is better than that of the other portions. Since the conventional cartridge is not intended to be thin, it is screwed to a position apart from the arcuate rib.

[0011]

2 is a perspective view of a conventional cartridge.
Cartridge 1 is half 2, half 3 and shutter 4
It consists of The thicknesses of the half 2 and the half 3 are almost the same. FIG. 3 shows a plan view of the inner surface of the half of a conventional cartridge. The width (about 1 mm) of the arc-shaped rib 9 corresponding to the side wall of the disk storage portion 7 is almost the same as the width of the rising wall 11 which constitutes the side wall of the cartridge. Although not shown, the inner surface of the other half has a similar shape,
An arcuate rib 9 and a rising wall 11 which are opposite to each other and have substantially the same shape and dimension are provided. As described above, the characteristic of the conventional cartridge is that the two halves have substantially the same thickness, and the width of the arc-shaped rib 9 and the width of the rising wall 11 are substantially the same.

FIG. 1 shows a perspective view of the cartridge of the present invention. The cartridge is composed of a half 2, a half 3 and a shutter 4. The cartridge is inserted in the optical disk device (not shown) in the direction of the arrow. The halves 2 and 3 are provided with shutter grooves 5 and 6 (not shown) that are larger than the thickness of the shutter 4. The half 3 on the recording / reproducing side is provided with openings such as a turntable hole 12 and an optical head insertion hole 13 for mounting the optical disk 8 on a turntable provided on a spindle motor. The arc-shaped rib 9 is provided with a screw hole 14 for screwing the half 2, and a hole 15 for screwing is also present in the half 2 in opposition thereto. The thickness relationship between the two halves has a relationship of d ₁ > d ₂ or d ₁ <d ₂ when the maximum thickness of each half is d ₁ and d ₂ as shown in claim 1. , D ₁ and d ₂ of the larger thickness of each
Is 1.5 times or more, and in this embodiment, the half 2 has a thickness of 1.3 mm and the half 3 has a thickness of 2.6 mm, and the half is doubled. Here, the maximum thickness means the thickest height including the arcuate rib 9 and the rising wall 11. Further, the width of the arcuate rib 9 which is a feature of the present invention is set to 2.6 mm, which is 1.5 mm or more in claim 3. In the case of this embodiment, an optical disk 8 having a thickness of 0.6 mm and an outer diameter of 64 mm is used, and the disk storage portion 7
The space has a diameter of 65 mm and a depth of 1.6 mm. Therefore, the space from the upper and lower surfaces of the optical disk 8 to the upper and lower inner surfaces of the disk housing portion 7 is reduced to half (0.5 mm) as compared with the conventional case, but the optical disk 8 contacts the upper and lower inner surfaces of the disk housing portion 7. It has become possible to rotate freely without having to. This is because the structure of the cartridge of the present invention is excellent in strength, and as a result, good dimensional accuracy can be obtained. The size of the cartridge was 77 mm in the direction of the arrow inserted into the optical disk device and 73 mm in the other direction. Further, the thickness could be set to 3.6 mm or less by the half structure of the present invention. This thickness can of course be made thinner by making the disk thinner, but it can be made even thinner by 0.6 mm in this embodiment. However, there is a limit, and considering the strength of the cartridge and the space of the disk storage part, it is considered that the minimum is about 2.6 mm. Furthermore, if the disc diameter is 64 mm or less, for example, 45 to 50 mm, the size of the cartridge can be reduced accordingly, which is advantageous in terms of strength and facilitates obtaining good dimensional accuracy. Because the space can be narrowed,
It is expected that the thickness of the cartridge will be improved. In addition,
Illustration of positioning holes, recording prohibition, and identifier holes is omitted.

FIG. 4 shows a perspective view of the cartridge of the present invention. Regarding the shape of the half 2, the phase change recording medium is used as the recording medium in this embodiment, but in this case, it is not necessary to provide an opening in the half 2, and the shutter groove 5 for sliding the shutter 4 is simply provided. I wish I had it. However, when the magneto-optical recording medium is used, the opening is not limited to this, and the half 2 may be provided with an opening. A shutter retainer 16 for retaining the shutter 4 is provided in the shutter groove 5. The shutter 4 is made of stainless steel having a thickness of 0.2 mm. The shutter 4 on the half 2 side has a width of 24 m.
m and length was 20 mm. The depth of the shutter groove 5 is 0.3 mm, and the width in which the shutter slides is 48 mm. FIG. 5 is a perspective view of the recording / reproducing side of the cartridge of the present invention. As for the shape of the half 3, a shutter 4 having a shape as shown in the drawing, which covers openings such as the turntable hole 12 and the optical head insertion hole 13, is provided in the shutter groove 6, and is supported by the shutter retainer 16. The length of the shutter 4 is 55 mm. FIG. 6 shows a plan view of the cartridge of the present invention. FIG. 7 shows a plan view of the recording / reproducing side of the cartridge of the present invention. 6 and 7, the disk storage portion 7 is shown by a solid line, but since it is not actually visible from the half side, it is shown by a dotted line. FIG. 8 shows a plan view of the inner surface of the half of the cartridge of the present invention and a sectional view taken along the line AA '. The height of the rising wall 10 was set to 0.3 mm. FIG. 9 shows a plan view of the inner surface of the recording / reproducing side half of the cartridge of the present invention and a sectional view taken along the line BB '. The depth of the rising wall 11 is 0.4 mm, which is larger than the height of the half rising wall 10 of 0.3 mm. FIG. 10 is a sectional view showing the positional relationship between the optical disk using the cartridge of the present invention and the optical head. A part of the optical head 17 is inserted into the opening of the half 3.

FIG. 11 shows the results of comparing the strengths of the present invention and the conventional cartridge. As the cartridge of the present invention, the same cartridge as that shown in FIG. 1 was used. That is, the half 3 has a thickness of 2.6 mm, the half 2 has a thickness of 1.3 mm, the arcuate rib 9 has a width of 2.6 mm, and the half is screwed to a total thickness of 3.6 mm. Conventional cartridges are
The two halves each had a thickness of 1.8 mm, and the halves were screwed together to give a total thickness of 3.6 mm, which is the same as the present invention. The position of screwing was set close to the arc-shaped rib 9 so that it would be as similar as possible to the present invention. The widths of the arcuate rib 9 and the rising wall 11 were both 1 mm. The shapes and positions of the opening portions such as the turntable hole 12 and the optical head insertion hole 13 are the same as those of the present invention, and comparison is made with the shutter 4 attached. The measuring method is to fix the cartridge up to 38.5 mm, which is half of 77 mm in the length direction of the cartridge, with a jig by sandwiching the cartridge, apply a load near the tip of the cartridge, and measure the amount of deflection with respect to the maximum bending moment at that time with a dial gauge. did. As is clear from FIG. 11, it was found that the present invention has a smaller amount of deflection than the conventional cartridge. It was found that the amount of flexure was about half that of the conventional one, especially in the case where the maximum bending moment was small, which was superior to the resistance to deformation. The reason for this is that the two halves are screwed together 4
This is because the strength of the cartridge (the amount of bending with respect to the maximum bending moment) due to the point support (fixed at four points) depends on the thickness of the half. That is, the thicker the half, the higher the strength proportionally. The thickness of both half of the conventional cartridge is 1.8 mm, and in the present invention, the half 3 is 2.6 mm and the half 2 is 1.3 mm. Comparing the thicknesses of the respective cartridge halves with the thicker one (because the strength is dominated by the thicker half), the conventional half is 1.8 mm, the present invention is 2.6 mm, and the present invention is About 1.5 times thicker. Therefore, it can be seen that the strength of the present invention is superior. For joining the two halves, there is an ultrasonic bonding method in addition to the screw fixing method. The ultrasonic bonding method is a method of partially bonding the arc-shaped ribs and the ups and downs of the rising wall. Therefore, the strength of the cartridge depends on the thickness of the half, and the structure of the cartridge of the present invention can be applied. However, the present invention cannot be applied when the entire surfaces of the arc-shaped rib and the rising wall are bonded. This is because the strength in the case of whole surface adhesion is determined not by the thickness of the half but by the thickness of the cartridge in which the two halves are combined. However, full surface bonding has problems in dimensional accuracy and mass productivity, and at present, most of screw bonding and partial bonding are present. In addition,
The advantage of screwing is that the disk can be replaced by simply removing the screw.

[0015]

According to the present invention, since a cartridge having high strength and good dimensional accuracy can be manufactured, the space of the disc storage portion can be narrowed, the thickness of the cartridge can be reduced, and the optical disc device can be thinned. Become.

[Brief description of drawings]

FIG. 1 is a perspective view of a cartridge of the present invention.

FIG. 2 is a perspective view of a conventional cartridge.

FIG. 3 is a plan view of a half inner surface of a conventional cartridge.

FIG. 4 is a perspective view of the cartridge of the present invention.

FIG. 5 is a perspective view of the recording / reproducing side of the cartridge of the present invention.

FIG. 6 is a plan view of the cartridge of the present invention.

FIG. 7 is a plan view of the recording / reproducing side of the cartridge of the present invention.

FIG. 8 is a plan view and a sectional view of the inner surface of the half of the cartridge of the present invention.

9A and 9B are a plan view and a cross-sectional view of the inner surface of the recording / reproducing side half of the cartridge of the present invention.

FIG. 10 shows a positional relationship between a disc using the cartridge of the present invention and an optical head.

FIG. 11 is a strength comparison diagram of the present invention and a conventional cartridge.

[Explanation of symbols]

1 ... Cartridge, 2 ... Half, 3 ... Half, 4 ... Shutter, 5 ... Shutter groove, 6 ... Shutter groove, 7 ... Disk storage section, 8 ... Optical disk, 9 ... Arc rib, 10
... rise wall, 11 ... rise wall, 12 ... turntable hole, 13 ... optical head insertion hole, 14 ... screw hole, 15 ... hole,
16 ... Shutter presser, 17 ... Optical head.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Atsuko Naruse 4026 Kuji Town, Hitachi City, Hitachi, Ibaraki Prefecture Hitachi Research Institute, Ltd. (72) Shoichi Nagai 4026 Kuji Town, Hitachi City, Ibaraki Prefecture Hitachi, Ltd. Hitachi Research Laboratory (72) Inventor Yoshimi Kato 4026 Kuji-machi, Hitachi City, Ibaraki Prefecture Hitachi Research Laboratory, Hitachi, Ltd.

Claims (6)

[Claims] 1. A turntable in which a rotatable optical disc is installed in a disc storage portion of a cartridge composed of two halves, and a head insertion hole and an optical disc are provided in a spindle motor in one half on the recording / reproducing side. A disk cartridge having a turntable hole to be mounted thereon, and the opening of the head insertion hole and the turntable hole being opened and closed by a shutter machined with a metal plate, When the maximum thicknesses are d ₁ and d ₂ , respectively, d ₁ > d ₂ or d ₁ <d ₂
And the thicker d ₁ and d ₂ are 1.
A disk cartridge characterized by being more than 5 times. 2. A turntable in which a rotatable optical disc is installed in a disc storage portion of a cartridge having two halves, and a head insertion hole and an optical disc are provided in a spindle motor in one half on the recording / reproducing side. A disk cartridge having a turntable hole to be mounted thereon, and the opening of the head insertion hole and the turntable hole being opened and closed by a shutter machined with a metal plate, A disc cartridge characterized in that a disc storage portion is provided on the thicker side. 3. A turntable in which a rotatable optical disc is installed in a disc storage portion of a cartridge consisting of two halves, and a head insertion hole and an optical disc are provided in a spindle motor in one half on the recording / reproducing side. In a disk cartridge configured to have a turntable hole to be mounted thereon, and the opening of the head insertion hole and the turntable hole are opened and closed by a shutter made of a metal plate, a circle of the disk storage portion A disk cartridge characterized in that the width of the arc-shaped rib is 1.5 mm or more. 4. A turntable in which a rotatable optical disc is installed in a disc storage portion of a cartridge having two halves, and a head insertion hole and an optical disc are provided in a spindle motor in one half on the recording / reproducing side. In a disk cartridge configured to have a turntable hole to be mounted thereon, and the opening of the head insertion hole and the turntable hole are opened and closed by a shutter made of a metal plate, a circle of the disk storage portion A disk cartridge characterized in that a screw hole is provided on an arcuate rib and the half is screwed. 5. A turntable in which a rotatable optical disc is installed in a disc storage portion of a cartridge having two halves, and a head insertion hole and an optical disc are provided in a spindle motor in one half on the recording / reproducing side. In a disk cartridge configured to have a turntable hole to be placed thereon, and the opening of the head insertion hole and the turntable hole are opened and closed by a shutter machined with a metal plate, the half recording / reproducing side A disk cartridge characterized in that an opening is provided only on the disk cartridge. 6. A turntable in which a rotatable optical disk is installed in a disk storage portion of a cartridge composed of two halves, and a head insertion hole and an optical disk are provided in a spindle motor in one half on the recording / reproducing side. A disk cartridge having a turntable hole to be placed thereon, the opening of the head insertion hole and the turntable hole being opened and closed by a shutter machined with a metal plate, the maximum thickness of the cartridge A disc cartridge having a diameter of 3.6 mm or less.