JPH0363005B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a balance adjustment method for suppressing the unbalanced amount of rotation of a disk used in a disk player within a standard.

BACKGROUND ART AND PROBLEMS Various types of information are recorded on a disk in the form of a concentric or spiral phase structure, or magnetically recorded, and a disk player rotates the disk at high speed to record information. Replay information.

That is, for example, in the case of an optical type,
By rotating the disk at high speed, a spot of laser light focused by an objective lens is irradiated along a circular track formed by recording information, and reflected light or reflected light modulated by the phase structure of this laser light is emitted. The transmitted light is converted into an electrical signal using a photodiode and demodulated to reproduce the original information.

In the case of the capacitive method, reproduction is performed by contact-tracking a magnetic head on a circular track on which information is recorded.

Therefore, in order to reproduce information in an appropriate state, it is necessary to always rotate the disk in a steady state. If uneven rotation or fluttering of the disk occurs, for example, the image that is the information may become distorted or blurred. If the disk rotates eccentrically, the magnetic head or laser beam spot will no longer be able to accurately track the track on which information is recorded.

In order to prevent uneven rotation, eccentricity, and fluttering of the disk and to rotate the disk in a steady state, it is necessary to eliminate weight imbalance and align the center of rotation of the disk with the center of gravity.

By the way, there are two singles on the above disc.
There are double disks in which disks are bonded together to form a single disk, but even in such a double disk, the center of rotation and the center of gravity must naturally be aligned for the reasons mentioned above.

Therefore, traditionally, each single
The position of the center of gravity of the disk (in the direction of unbalance) is checked, and when two single disks are pasted together, the amount of unbalance is canceled out by each other, and the center of rotation and center of gravity are aligned as a double disk. I was supposed to.

However, factors that cause unbalance of double disks also exist in the bonding process, such as misalignment during bonding and uneven application of adhesive.

Therefore, it is necessary to keep the unbalance amount of one single disk that constitutes a double disk even lower than the standard imposed on double disks.

Additionally, once a double disk is created, there is no way to correct it, so if the unbalance of the double disk exceeds the standard, it must be discarded as a defective product.

Purpose of the Invention The present invention has been made in view of the above-mentioned circumstances, and it is an object of the present invention to remove the unbalance amount of the disk in the process of cutting the outer periphery of the disk after bonding single disks together to form a double disk. The purpose is to more accurately match the center of rotation and center of gravity of the double disc, and to correct and make good quality products that were previously all discarded as defective products.

General Purpose of the Invention The present invention provides a method in which two single disks are bonded back to back to form a disk having recording surfaces on both the front and back sides, and then the disk is rotated to perform outer circumferential cutting. We propose a disk balance adjustment method that aligns the center of rotation and the center of gravity of the disk by eccentrically rotating the center of rotation and cutting the outer periphery of the disk in response to the unbalanced weight of the disk. It is something.

Example Examples of the present invention will be described below.

In general, methods such as embossing, compression molding, and injection molding are used to mold plastic materials such as vinyl chloride and acrylic into disc shapes. In addition, the disk body molded by each of the above methods inevitably has
Burrs are formed on the outer periphery of the disk body.

Therefore, in the disk manufacturing process, an outer circumferential cutting step is always required to remove the burrs generated on the outer circumferential edge of the disk.

The present invention adjusts the balance of the disk in the above-mentioned outer periphery cutting process.

In other words, the disk has a blank area where recording tracks at a predetermined interval are not formed from the outer circumference toward the inner circumference, and by eccentrically rotating the disk in the outer circumference cutting process, the overlapping of the disks becomes uneven. The above-mentioned margin on the centered side is cut, thereby aligning the center of rotation of the disk with the center of gravity without affecting the recording track.

A cutting machine as shown in FIG. 1 is used in the outer periphery cutting step in which the present invention is carried out.

1 is a rotating shaft, and this rotating shaft 1 has bearings 4, 4, 4,
4, and a driven pulley 5 is integrally attached and fixed to the lower end in the figure. A belt 6 that transmits the rotational driving force of a motor (not shown) is wrapped around the passive pulley 5, thereby rotating the rotating shaft 1.

Further, a center spindle 8 is removably attached to a spindle attachment portion 7 provided at the upper end of the rotating shaft 1 in the figure with a tightening screw 9.

A table flange 10 is integrally formed in the middle of the center spindle 8 in the axial direction, and an upper surface 10A of the table flange 10 is formed.
a turntable 12 on which a disk 11 is placed;
is fixed by a fixing screw 13.

The upper part of the center spindle 8 in the figure is a center fitting hole 1 provided in the center of the disk 11.
It is a spindle part 14 that fits into 1A,
A fitting hole 16 for positioning a chucking device 15, which will be described later, is provided on the upper end surface of the spindle portion 14 concentrically with the center of rotation of the center spindle 8.

Note that the cutting machine used in the present invention is provided with several center spindles 8 having the above-described configuration, and the spindle portions 14 of these center spindles 8 are respectively connected to the center spindle 8.
These center spindles 8 are arranged so as to be offset by a predetermined amount with respect to the center of rotation of the disk 11, and these center spindles 8 are selectively used depending on the amount of imbalance of the disk 11 to be ground, as will be described later. That is, when cutting the disk 11 with a large amount of unbalance, the center spindle 8 with a large amount of deviation of the spindle portion 14 is used, and the outer peripheral portion of the disk 11 in the unbalance direction is cut to a large extent, thereby reducing the amount of unbalance. That's what I do.

Next, reference numeral 15 denotes a chucking device, and this chucking device 15 presses and fixes the disk 11 placed on the turntable 12.

The chucking device 15 is composed of a rotary chuck 17 and a drive section 19 that moves the rotary chuck 17 up and down in the figure by operating a cylinder 18. The rotary chuck 17 and the drive section 19 are connected to a bearing 2.
0 and 20, so that they can be rotated relative to each other. Further, on the outer periphery of the lower end of the rotary chuck 17 in the figure, a disk-shaped presser plate 21 that clamps the disk 11 together with the turntable 12 is attached to the fixing pin 2.
It is attached by 2.

Furthermore, a compression spring 23 is attached to the contact portion 17A of the rotary chuck 17 with the disk 11, so that the disk 1
A pressing member 24 for pressing the surface near the inner periphery of 1 is disposed.

Further, at the center of the lower surface of the rotary chuck 17 in the figure, a center shaft 25 is screwed by a fixing screw 26 to fit into a positioning fitting hole 16 provided on the upper surface of the center spindle 8 in the figure. The above-mentioned chucking device 15 causes the disk 11 to
Fitting hole 16 for positioning when pressed and fixed
The chucking device 15 and the center spindle 8 are fitted into each other, and the positioning of the chucking device 15 and the center spindle 8 is performed.

Further, 26 is a cutting tool, and this cutting tool 26 is attached and fixed to a support member 27, and is moved horizontally from the outer circumferential direction of the disk 11 at the height position when the disk 11 is fixed by the chucking device 15. It is arranged so that it can be accessed.

Further, the driving section 19 of the above-mentioned chucking device 15
A cover 28 is attached to the drive unit 19.
It moves up and down along with the up and down movement of.

This cover 28 covers the disk 11 during cutting.
etc., to prevent shavings from the cutting tool from scattering around the area.

In order to adjust the balance of the disc 11 using the cutting machine as described above, first, the disc 11 is
The direction of unbalance, that is, the direction of deviation of the center of gravity with respect to the center of the disk 11, and the amount of unbalance are checked, and a mark is placed on the disk 11 to indicate the unbalance direction.

In addition, in order to check the deviation direction of the center of gravity of the disk 11 and the amount of unbalance, rotate the disk 11, detect the amount of vibration of the rotational drive system due to the amount of unbalance at that time, and set the detected value to a predetermined value prepared in advance. The determination is made by comparing the amount of vibration with the value of the amount of vibration of a reference disk having an amount of unbalance.

Next, the spindle portion 14 of the cutting machine described above is replaced with one corresponding to the amount of unbalance of the disk 11.

Then, the marked disk 11 is
It is placed on the turntable 12 of the cutting machine so that the marking position is in the same direction as the direction of deviation with respect to the rotation center of the spindle part 14, and after being fixed by the chucking device 15, the cutting tool 26 is rotated at high speed and the cutting tool 26 is placed on the disc. 11 from the outer circumferential direction. At this time, since the spindle portion 14 that fits into the center fitting hole 11A of the disk 11 is not on the center of rotation of the center spindle 8, the disk 11 is biased and rotated, and the turntable 12
The unbalanced direction of the margin portion 11B of the disk 11 that protrudes excessively from above is cut in excess.

Therefore, even if the center of rotation C ₁ and the center of gravity G ₁ of the disc 11 before cutting do not coincide as shown in FIG. 2A, the disc 11' after cutting as shown in FIG. 2B The center of rotation C ₂ and the center of gravity G ₂ of the disk 11 substantially coincide with each other, and the amount of unbalance of the disk 11 is within the standard.

Effects of the Invention As is clear from the above description, according to the present invention, the balance amount of the double disc can be corrected in the outer periphery cutting process, regardless of the double disc molding process. Therefore, it is possible to make double discs, which have conventionally been discarded as defective products, into good quality products, and it is also possible to relax the standards for the amount of unbalance in single disc molding.

Further, while conventionally the balance direction was checked for each single disk, according to the present invention, the balance direction is checked after the single disk is attached, so that the balance direction check is different from the conventional one. You can improve productivity with only half the work.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view of the main part of the peripheral cutting machine used in the present invention, and FIG. 2 is a plan view of the disk.
Figure A shows the center of rotation and center of gravity before balance adjustment, and Figure 2B shows the center of gravity after balance adjustment. 8...Center spindle, 11...Disc, 26...Cutting tool.

Claims (1)

[Claims] 1. In a method in which two single disks are bonded back to back to form a disk having recording surfaces on both the front and back surfaces, and then the disk is rotated to cut the outer periphery, when cutting the outer periphery, the disk is A method for adjusting the balance of a disk in which the center of rotation of the disk is made to coincide with the center of gravity by eccentrically rotating the center of rotation in response to the weight imbalance of the disk and cutting the outer periphery of the disk.