JPH05205377A - Optical disk device - Google Patents

Abstract

PURPOSE:To provide an optical disk device capable of attaching the optical disk highly reliably even when the device used being vertically placed and of attaching drying lubricant agent without complicating a manufacturing process. CONSTITUTION:A center shaft 10 is arranged on a position where a play on the upper part of an optical disk recording section 2 in the vertical direction is larger than that on the lower part of the optical disk recording section 2 in the vertical direction when the center shaft 10 is fitted with a round hole 4. A dry lubricant agent M is adhered at room temperature.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disk device having a center shaft which is fitted in a round hole of an optical disk recording section and serves as a rotation center of the optical disk recording section.

[0002]

2. Description of the Related Art FIG. 3A is a perspective view of an optical disk mounted in a general optical disk device. Cartridge 1
A disk-shaped optical disc recording unit 2 is housed in the optical disc, and a steel hub 3 is attached to the center of the optical disc recording unit 2. A round hole 4 is formed in the center of the hub 3. 3 (b) is a plan sectional view of FIG. 3 (a). The cartridge 1 is provided with a storage portion 11 which is a circular void, and is provided between the outer peripheral portion of the optical disc recording portion 2 and the storage portion 11. There is play. This play is necessary for the optical disk recording unit 2 to freely rotate in the cartridge 1,
Further, the optical disk recording unit 2 can move within the cartridge 1 by an amount corresponding to the play. The size of this play is shown in Figure 3.
When the optical disk recording unit 2 and the storage unit 11 are in the concentric state as shown in (b), it becomes p ₀ .

FIG. 4 shows a main part of a conventional optical disk device disclosed in, for example, Japanese Patent Laid-Open No. 1-235060 and FIG.
It is a block diagram which shows the optical disc shown to (a), and the longitudinal section is shown. Although the optical disk recording unit 2 can move within the cartridge 1 by the amount of play,
In the state of FIG. 4, the cartridge 1 and the optical disk recording unit 2
Between the outer periphery of the optical disc recording unit 2 and the outer peripheral portion thereof, there is a play p _{1 on} the left side of the optical disc recording unit 2 and a play p ₂ on the right side of the optical disc recording unit 2. By fitting the center shaft 5 into the round hole 4, the center shaft 5 becomes the center of rotation of the optical disc recording unit 2. A permanent magnet 7 is attached to a support portion 6 integrated with the center shaft 5. The center shaft 5 serves as an output shaft of a spindle motor 8 attached to the fixed member 9.

Next, the operation of the conventional optical disk device shown in FIG. 4 will be described. When the optical disc is inserted into the optical disc device, a loading mechanism (not shown) in the optical disc device operates to open a shutter (not shown) of the cartridge 1 and to a position where the hub 3 and the permanent magnet 7 approach each other. The optical disc is moved to position the cartridge 1. Then, the permanent magnet 7 attracts the hub 3, so that the round hole 4 and the center shaft 5 are fitted to each other, and the optical disc recording portion 2 is fixed to the support portion 6. After that, the center shaft 5, the support portion 6 and the permanent magnet 7 are moved to the spindle motor 8
The hub 3 and the optical disk recording unit 2 rotate.

By the way, as described above, since the optical disk recording section 2 can move within the cartridge 1 by the amount of play, the play p ₁ and p ₂ of each part is not normally constant as shown in FIG. Therefore, the center line of the round hole 4 and the center axis of the center shaft 5 are displaced within the play range. In particular,
When the optical disk device is used vertically, that is, when the center axis of the center shaft 5 is used horizontally (for example, when the left side in FIG. 4 is downward and the right side is upward), the optical disk recording unit 2 is unavoidable due to gravity. As it moves vertically downward, the play p ₁ in the vertical downward direction of the optical disk recording unit 2 becomes small, and the play p ₂ in the vertical upward direction becomes large.

Therefore, at the tip of the center shaft 5, 90
Even if the center line of the round hole 4 and the center axis of the center shaft 5 are deviated from each other as shown in FIG. 4, the edge portion e of the round hole 4 is centered. By sliding the inclined portion s of the shaft 5, the optical disc recording unit 2 is arranged so that the center line of the round hole 4 and the center axis of the center shaft 5 coincide with each other.
Moves to perform centering.

By the way, in order to suppress the friction between the edge portion e of the round hole 4 and the inclined portion s ₁ of the center shaft 10, it is more effective to attach a lubricant to the inclined portion s. Conventionally, as described in, for example, Japanese Patent Application Laid-Open No. 2-83852, a dry lubricant is attached by a baking process. In addition, making the lubricant dry rather than wet
This is to prevent the lubricant from scattering and adhering to the optical disc.

[0008]

The conventional optical disc device is constructed as described above, and when the optical disc and the optical disc device are repeatedly attached and detached, the edge portion e and the inclined portion s come into contact with each other due to friction. The surface becomes rough. Further, the frictional force increases due to the roughening of the contact surface, which leads to a vicious cycle of roughening the contact surface. Especially when used vertically, gravity acts in a direction that prevents the hub 3 and the permanent magnet 7 from approaching each other (when the optical disk recording unit 2 moves vertically downward, the edge portion e slides on the inclined portion s). By doing so, the hub 3 tends to move away from the permanent magnet 7. Therefore, when the combined force of gravity and friction becomes equal to or greater than the attraction force of the permanent magnet 7, the edge portion e of the hub 3 becomes the inclined portion s of the center shaft 5. However, there is a problem in that the optical disc recording unit 2 is poorly centered.

Further, the conventional method for applying the lubricant to the optical disk device is as described above, and if the dry type lubricant is applied by the baking process, the adhesion can be made strong, but at high temperature ( Since the processing at 200 to 300 ° C.) is necessary, it is impossible to perform the baking processing on the center shaft 10 of the spindle motor 8 in the assembled state. Therefore, it is necessary to assemble the spindle motor 8 after the center shaft 10 has been burned. Therefore, there is a problem that the manufacturing process becomes complicated and the cost increases.

The present invention has been made to solve the above-mentioned problems, and an object thereof is to obtain an optical disk device capable of mounting an optical disk with high reliability even when used vertically. An object of the present invention is to obtain an optical disk device to which a dry lubricant can be attached without complicating the manufacturing process.

[0011]

According to a first aspect of the present invention, there is provided an optical disc recording device, wherein when the center shaft is fitted into the round hole, the play in the vertically upward direction of the optical disc recording unit is the optical disc recording. It is arranged at a position that is larger than the play in the lower part in the vertical direction.

In the optical disk device according to the second aspect of the present invention, the dry lubricant is attached at room temperature.

[0013]

In the optical disc device according to the first aspect of the present invention, when the optical disc is mounted on the optical disc device which is used vertically, the edge portion of the round hole is closer to the root of the inclined portion of the center shaft. Since they come into contact with each other, the sliding distance until the mounting is completed is shortened. Also, when wearing,
The first contact portion between the edge portion and the inclined portion is a portion having a small curvature (a large curvature radius) on the inclined portion side, and the contact pressure is reduced, so that wear and friction are suppressed.

Further, in the optical disk device according to the second aspect of the present invention, the work of attaching the lubricant to the center shaft is performed at room temperature, so that the work of attaching the lubricant to the spindle motor after assembly can be performed. ..

[0015]

【Example】

Example 1. FIG. 1 is a schematic diagram showing a main part of a first embodiment of the present invention. The same or corresponding parts as those in FIGS. 3 and 4 are designated by the same reference numerals, and the description thereof will be omitted. The horizontal center shaft 10 has an inclined portion s ₁ and is arranged vertically downward from the position of the conventional center shaft 5 shown by a broken line. That is, the center shaft 10 is arranged at a position where the play above the optical disc recording unit 2 in the vertical direction when the center shaft 10 and the round hole 4 are fitted is larger than the play below the optical disc recording unit 2 in the vertical direction. Has been done.

Similarly to the above, when the optical disc is mounted in the optical disc device, the edge portion e of the round hole 4 comes into contact with the inclined portion s ₁ of the center shaft 10 and slides on the inclined portion s ₁ . At this time, as compared with the conventional case, the edge portion e contacts at a portion closer to the root of the inclined portion s ₁ (that is, in FIG.
In, in the positional relationship between the center axis 10 and the edge portion e,
When the positional relationship between the center shaft 5 and the edge portion e is compared, the position of the edge portion e of the center shaft 10 becomes closer to the root of the inclined portion. The moving distance can be shortened.

Further, comparing the shaft diameter of the center shaft 10 and the shaft diameter of the center shaft 5 at the contact point when the edge portion e and the inclined portions s ₁ and s first contact (state of FIG. 1). , The former is bigger. Therefore, the curvature of the contact point is smaller in the center shaft 10 (the radius of curvature is larger), and the contact pressure is smaller than the Hertzian theory. Further, generally, as the contact pressure decreases, the amount of wear decreases, and the contact surface does not become rough.

It is assumed that the optical disk device of the present invention is used vertically, but here, when the optical disk device of the present invention is used horizontally, that is, when the center axis 10 is vertically upward. Let us consider the constraint conditions of (1) based on FIG. First, the optical disc recording unit 2
Is in the center of the cartridge 1 (state of FIG. 3 (b))
Further, the tip of the center shaft 10 is assumed to come to the position A ₀ of FIG. That is, the center shaft 10
Are displaced to the left by the distance z in FIG. 2 (e). However, O is the center of the round hole 4.

Next, from the state shown in FIG. 3 (b) in which the optical disc recording section 2 is located at the center of the cartridge 1, the optical disc recording section 2 is moved leftward by a distance p ₀ (see FIG. 3 (b)),
In the state of (a), the tip of the center shaft 10 comes to the position of A _{1 in} FIG. 2 (e). Further, when the optical disk recording unit 2 moves to the right by a distance twice the play p ₀ from the state of FIG. 2 (a) to the state of FIG. 2 (b), the tip of the center shaft 10 is moved to the position shown in FIG. It comes to the position of A _{2 in} (f). Therefore, the distance between A ₁ and A ₂ , that is, the diameter of the circle C shown by the broken line is 2p ₀ . Similarly, as shown in FIGS. 2 (c) and 2 (d), when the optical disk recording unit 2 is located near the bottom and the top, the tip of the center shaft 10 is located at A in FIGS. 2 (g) and 2 (h). ₃ , A ₄
Come to the position. Further, considering the case where the optical disk recording unit 2 is offset in all directions, the tip of the center shaft 10 comes within the dashed circle C shown in FIGS. 2 (e) to 2 (h).

In order to fit the round hole 4 and the center shaft 10 only when they are close to each other, the circle C, that is, the range of the position where the tip of the center shaft 10 takes with respect to the round hole 4 is within the round hole 4. Need to be Therefore, when the circle C and the round hole 4 come into contact with each other as shown in FIGS. 2E to 2H, the shift amount of the center shaft 10 is maximum. In FIG. 2 (e),

P ₀ + z = r where r is the radius of the round hole 4.

There is a relationship. From the above, when the optical disk device of the present invention is used not only vertically but also horizontally, the maximum value of the shift amount of the center axis 10 is r−p _0.
That is, the constraint condition that the shift amount of the center axis 10 needs to be within r-p ₀ is obtained.

Example 2. In order to suppress the friction between the edge portion e of the round hole 4 and the inclined portion s ₁ of the center shaft 10, a dry lubricant such as molybdenum disulfide (M in FIG. 1 is used for the inclined portion s ₁ ).
It is even more effective if it is attached). In this case, what is important is to adhere the dry lubricant at room temperature. This allows the assembled spindle motor 8 to be operated, which simplifies the manufacturing process.

[0024]

As described above, according to the optical disk device in accordance with the first aspect of the present invention, by disposing the center axis in the vertically downward direction, the sliding distance until completion of mounting can be shortened, and Since wear and friction are suppressed,
There is an effect that the optical disk can be mounted with high reliability even when used vertically.

Further, according to the optical disk device of the second aspect of the present invention, the work of attaching the lubricant to the center shaft is performed at room temperature, so that the work of attaching the lubricant to the spindle motor after assembly can be performed. Therefore, there is an effect that the dry lubricant can be attached without complicating the manufacturing process.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a main part of a first embodiment and a second embodiment of the present invention.

FIG. 2 is an explanatory diagram of constraint conditions when the optical disk device of the present invention is used in a horizontal position.

FIG. 3 is a configuration diagram of an optical disc mounted in a general optical disc device.

FIG. 4 is a configuration diagram showing a conventional optical disc device.

[Explanation of symbols]

1 Cartridge 2 Optical Disc Recording Section 4 Round Hole 10 Center Axis p ₀ Play M Molybdenum Disulfide (Dry Lubricant)

Claims (2)

[Claims] 1. A cartridge is provided with a center shaft which fits into a circular hole provided in the center of an optical disc recording unit and serves as a rotation center of the optical disc recording unit, and an outer peripheral portion of the optical disc recording unit and the cartridge. There is play between the center axis and the center axis, and the center axis is used in the vertical direction of the optical disk recording section when the center axis and the round hole are fitted to each other. An optical disk device, wherein the play above is arranged at a position larger than the play below in the vertical direction of the optical disk recording portion. 2. An optical disk apparatus comprising a center shaft fitted with a round hole provided in the center of an optical disk recording section to become a rotation center of the optical disk recording section and having a dry lubricant adhered thereto, An optical disk device, wherein the agent is attached at room temperature.