KR20000046895A - Method and apparatus for adjusting skew of optical disk drive - Google Patents

Abstract

PURPOSE: A method for adjusting a skew of an optical disk drive is provided to fit the perpendicularity between a disk surface and an optical axis of pickup and to prevent a mechanical vibration generated in moving the pickup by regulating the skew of a guiding shaft with only four screws. CONSTITUTION: A screw supporting plate(12) is fixed on a sled base(2). A screw for fixing is combined in the sled base(2) and a screw for regulating(16) is combined in the screw supporting plate(16). An inclination of a turntable(7) is seized by measuring a trigonal height on the turntable. An inclination error is seized by measuring a height of a guiding shaft(4). The incline error is compensated with a screw(16) combined to a sled base(2) through the pressing force of guide shaft. The position of guide shaft is fixed by locking a screw(14) coupled to a support plate(12). The method adjusts the skew of a guide shaft only with four screws to decrease components and to reduce costs.

Description

Optical disk drive skew adjustment method and adjustment device

The present invention relates to a skew adjustment method for aligning the optical plane of the disk surface and the optical axis of the pickup so that the data of the high-density disk can be smoothly reproduced in the optical disk drive. The present invention relates to a skew adjusting method and an adjusting device for an optical disk drive, which can prevent mechanical shaking caused by pick-up movement due to a spring elasticity.

As the next generation of optical disc media, DVD (Digital Versatile Disc) is expected, and DVD players and DVD-ROM drives are being released one after another. DVD takes full advantage of the optical disc's high-density technology to reproduce a massive recording capacity of 4.7 Gbytes on one side and a high-definition digital moving picture corresponding to MPEG-2 at a diameter of 12 cm, like a CD. In addition to DVD-ROM, research on high-density recording systems such as DVD-R and DVD-RAM is being actively conducted. In order to reliably read data from a high density disk, the mechanical precision between the disk and the pickup is very important. In the case of DVD, since the fine pit of the high density optical disc corresponding to 4.6 times of CD is to be read out, the stability of the reproduction cannot be guaranteed unless the precision of the deck mechanism is satisfied.

It is difficult to guarantee the optical axis perpendicularity between the disk surface and the pickup because there are many factors that affect the accuracy of the deck mechanism, such as the axial angle of the spindle motor, the bending of the mechanism, the flatness error, and the optical axis error of the pickup. Therefore, there is a need for a skew adjusting device for artificially adjusting this accuracy.

Increasingly, optical disc drives such as optical disc drive ROM drives have become increasingly necessary to adjust skew to read and write data on discs. The larger skew adjustment method is to adjust the spindle motor and the shaft. The adjustment method is the mechanical adjustment and the reproduction signal during the rotation of the spindle motor's inclination with the turntable surface of the spindle motor. It is known to determine the optimal point by looking at the characteristic.

And, until now, the method of adjusting the shaft has been widely used, but in the case of driving the pickup using the lead screw, the reliability of skew adjustment and the number of parts used and the cost increase when adjusting the shaft. There was this.

In the conventional optical disk drive, the turntable is coupled to one side of the base plate, the drive gear is press-fitted to the shaft of the general DC motor fixed to the other side, and the screw gear is fixed to the end of the lead screw shaft to engage the drive gear. The guide feed coupled to the pickup is bitten by a lead screw formed on the outer circumferential surface of the lead screw shaft. The guide feed has a configuration in which teeth are formed at the end of the mold spring, and a compression spring for closely contacting the teeth to the lead screw shaft is coupled to the inner side of the mold spring. Then, a leaf spring is provided for keeping the guide shaft in close contact with the skew adjustment cam and stably maintaining the adjusted position.

In the conventional optical disk drive, the guide feed moves on the lead screw of the lead screw shaft as the drive gear and the screw gear rotate by the driving force of the DC motor, so that the pickup moves back and forth on the two guide shafts. It reads the data on the disk attached to the turntable.

In order to read and write a high speed optical disk drive disk, even if the mechanical tolerance is close to zero, the skew error component of the pickup itself cannot be satisfied. Therefore, the spindle motor skew adjusting device and the guide shaft skew adjusting device are adopted. The spindle motor skew adjusting device corrects the inclination of the spindle motor, and the guide shaft skew adjusting device corrects the inclination of the guide shaft so as to finally match the perpendicularity between the disk surface and the optical axis of the pickup.

1 is a view illustrating a configuration of a conventional spindle motor skew adjusting device. As shown in FIG. 1, a sled base 2 is coupled to a base plate 1 via a rubber damper 3, and a sled base ( 2) On the guide shaft 4 is coupled so that the pickup 5 moves on the guide shaft 4. The spindle motor 6 is fixed to one side of the sled base 2, the turntable 7 is coupled to the shaft of the spindle motor 6, and the spindle motor skew for adjusting the skew of the spindle motor 6. The adjusting device 9 is provided.

The disk 8 is mounted on the turntable 7, the disk 8 is rotated while the turntable 7 is rotated by the power of the spindle motor 6, and the pickup 5 is not driven. The device reads the data of the disk 8 as it moves along the guide shaft 4, and the spindle motor skew adjusting device 9 adjusts the inclination of the spindle motor 6.

2 shows a configuration diagram of a conventional pickup guide shaft skew adjusting device, and as shown in the drawing, a guide shaft skew adjusting device 10 for adjusting the skew of the guide shaft 4 is provided.

Figure 5 shows a cross-sectional view of such a conventional guide shaft skew adjusting device, as shown in the figure, one end of the guide shaft 4 is supported by the support portion 11 fixed to the sled base 2, The other end of the guide shaft 4 is coupled to the sled base 2 via a spring 13, and the support shaft 12 is fixed to the support plate 12 fixed to the upper part of the sled base 2. The screw 14 for adjusting the height is fastened.

3 is a conceptual diagram illustrating the adjustment of the spindle motor skew adjusting device. Referring to FIGS. 1 and 3, the spindle motor skew adjusting device 9 may be a turntable 7 based on a plane formed by the guide shaft 4. In order to adjust the inclination of () and to make a parallel, and to hold the reference plane (F) of the guide shaft (4), take the three points (P4, P5, P6) to form a plane, as shown in Figure 3, the spindle motor (6) To adjust the inclination, adjust the hinge points and two adjustment points in the X and Y directions.

The spindle motor skew adjustment method requires two springs 9a and two screws 9b, and mechanical vibration occurs due to the elasticity of the springs 9a for high speed products.

4 shows an adjustment conceptual diagram of the guide shaft skew adjusting device. Referring to FIGS. 2 and 4 and 5, the guide shaft skew adjusting device 10 is referred to the turntable 7 surface of the spindle motor 6. The guide shaft 4 adjusts the inclination to be parallel to each other, and as shown in FIG. 4, three points P1, P2, and P3 on the turntable 7 form a reference plane F, and the guide shaft 4 The adjustment points are configured at four points P4, P5, P6, and P7.

This guide shaft skew adjustment method can be precisely adjusted as compared to the spindle motor skew adjustment method, but has four disadvantages in terms of assembly time. Therefore, the method of placing the adjustment point in only two outer circumferences where the skew state may be worse is widely used. In this case, two springs 13, two screws 14, or two inclined cams are basically required.

Even when the spring 13 is installed by the guide shaft skew adjusting method, mechanical vibration may occur when the pickup 5 is moved due to the elastic influence of the spring 13, and also affects the rigidity of the guide shaft 4. Vibration characteristics may be degraded.

The present invention was devised to solve the above-mentioned conventional defects and problems, and simply adjusts the skew of the guide shaft with only four screws to smoothly reproduce the data of the high-density disk in the optical disk drive. And an optical disk drive skew adjustment method and an adjustment device, which are able to match the verticality of the optical axis of the pickup and the mechanical vibration generated during the pickup movement due to the elastic influence of the spring.

1 is a configuration diagram of a conventional spindle motor skew adjusting device.

2 is a block diagram of a conventional pickup guide shaft skew adjusting device.

3 is an adjustment conceptual diagram of a spindle motor skew adjusting device.

Figure 4 is an adjustment conceptual view of the guide shaft skew adjusting device.

5 is a cross-sectional view of a conventional skew adjusting device.

6 is a cross-sectional view of the skew adjusting device according to the present invention.

<Description of the symbols for the main parts of the drawings>

2: sled base 4: guide shaft

7: turntable 12: screw support plate

14 fixing screw 16 adjusting screw

In order to achieve the above object, the skew adjustment method of the present invention measures the three-point height on the turntable to determine the inclination of the turntable, measures the height of the guide shaft to determine the inclination error compared to the turntable, and the guide shaft. Compensating the tilt error with the adjusting screw coupled to the sled base by using the force of pressing down, and when the adjustment is completed, lock the fixing screw coupled to the screw support plate to fix the adjusted position of the guide shaft do.

In the step of correcting the inclination error of the guide shaft, the guide shaft is pressed by the elasticity of the spring by the shaft adjusting mechanism, or the guide shaft is corrected by the adjusting screw using the force pressed by the pickup and its own weight.

In the skew adjusting device according to the present invention, a screw support plate is fixed to the upper side of the sled base at one end of the guide shaft for guiding the movement of the pickup from the disc deck, and the upper end portion is provided at the lower side of the guide shaft to the sled base. Combining the adjusting screw in contact, the screw support plate is configured by combining the adjusting screw in contact with the lower end of the upper portion of the guide shaft.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail as follows.

6 is a cross-sectional view of the skew adjusting device according to the present invention. In the skew adjusting method according to the present invention, a screw support plate 12 and a sled base 2 positioned on one side end and a lower part of the guide shaft 4 are provided. Coupling the fixing screw (14) and the adjusting screw (16) to (), measuring the three-point height on the turntable (7) to determine the inclination of the turntable (7), and the height of the guide shaft (4). Determining the inclination error compared to the turntable (7) by measuring the step, and correcting the inclination error with the adjusting screw (16) using the force pushed down the guide shaft (4), and when the adjustment is complete 14) to lock the fixed position of the guide shaft (4).

More specifically, in the skew adjusting method of the present invention, the screw support plate 12 is fixed to the upper side of the sled base 2 at one end of the guide shaft 4 for guiding the movement of the pickup 5 in the disc deck, and the sled The base 2 has a screw 16 for adjusting the upper end of the guide shaft 4 in contact, and the screw support plate 12 has a screw 16 for the lower end contacting the upper side of the guide shaft 4. ).

After doing this, by measuring the three-point height on the turntable (7) to determine the inclination of the turntable (7), by measuring the height of the guide shaft (4) to determine the inclination error compared to the turntable (7), where the guide shaft The spring 21 is attached to the shaft adjustment mechanism 20 which measures the height of (4), and it presses and presses the guide shaft 4, and continues to work. And the tilt error by adjusting with the adjustment screw 16 using the elasticity of the spring 21 which presses the shaft adjustment mechanism 20, and the force pressed down by the weight of the pick-up 5 and the guide shaft 4, After the adjustment is completed, the fixing screw 14 is locked to fix the adjusted position of the guide shaft 4.

As described above, the present invention removes the spring element and the inclined cam structure, and adjusts the skew of the guide shaft with only four screws, thereby reducing the number of parts used and reducing the cost. It is possible to prevent mechanical shaking generated during the pickup movement and to stably support the guide shaft, thereby improving mechanical vibration characteristics.

While the embodiments of the present invention have been described so far, the present invention is not limited thereto, and various embodiments which can be modified and changed within the true spirit and scope of the principles described and claimed are within the protection scope of the present invention. You will have to understand.

Claims (2)

Determining the inclination of the turntable by measuring the three-point height on the turntable; determining the inclination error relative to the turntable by measuring the height of the guide shaft; and using the force pressed down by the guide shaft to be coupled to the sled base. And adjusting the tilt error with the adjusting screw, and locking the fixing screw coupled to the screw support plate to fix the adjusted position of the guide shaft after the adjusting is completed. The screw support plate is fixed to the upper side of the sled base at one end of the guide shaft for guiding the movement of the pickup in the disk deck, and the screw support plate is coupled to the sled base at the upper end of the lower side of the guide shaft. Skew adjusting device of the optical disk drive, characterized in that coupled to the upper end of the guide shaft for adjusting the adjustment screw is in contact.