JPH0610550Y2 - Moving device for optical pickup - Google Patents

Description

TECHNICAL FIELD The present invention relates to a moving device of an optical pickup used for a CD and a CDROM device or the like.

2. Description of the Related Art Conventionally, a moving device for a pickup of this type is a CDROM
The linear motor is used to move the pickup at high speed like the drive device of.

Problems to be Solved by the Invention However, when a linear motor is used like a conventional CDROM drive device, it becomes structurally large and cannot be used in a place where it is necessary to make it smaller due to space limitation such as in a vehicle. There was a flaw.

The present invention solves such a conventional problem, and enables the pickup to be moved at a high speed in the same space as a moving device of an optical pickup which has been conventionally used for a vehicle. An optical pickup moving device is provided.

Means for Solving Problems The technical means of the present invention for solving the above problems include a guide for movably supporting an optical pickup,
A rack connected to the optical pickup, an electric motor for moving the optical pickup, a worm attached to an output shaft of the electric motor, and a gear mechanism for transmitting the rotation of the worm to the rack are provided. At least one of the worm and the gear that meshes with the worm is formed of an oil-containing polymer material having a small friction coefficient.

Therefore, according to the present invention, the efficiency of the drive system can be increased, the load can be lightened, the optical pickup can be moved at high speed, and the efficiency of the drive system can be improved. It can be constructed in the same space as the moving device of the optical pickup.

Embodiment Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 shows the configuration of an embodiment of the present invention. In FIG. 1, reference numeral 1 denotes an optical pickup, which is movably supported along two shaft-shaped guides 2. A rack 3 is connected to the optical pickup 1 by a pin 4.
Reference numeral 5 is a drive motor (electric motor) for moving the optical pickup 1, and 7 is a worm, which is press-fitted to the output shaft 6 of the drive motor 5. Reference numeral 8 denotes a worm gear that meshes with the worm 7, and the final stage gear 1 through the intermediate gears 9a, 9b, 9c.
0 is linked to the rack 3.

By rotating the drive motor 5 in the forward and reverse directions, the rack 3 and the optical pickup 1 can be linearly moved back and forth via the worm 7, the worm gear 8, the intermediate gears 9a, 9b, 9c and the final gear 10. . At this time, the moving speed of the optical pickup 1 depends on the force applied to the optical pickup 1. Therefore, if the output of the drive motor 5 is the same, it is clear that it depends on the efficiency of the gear train in the middle, and in the case of such a configuration, the worm 7 and the worm gear that are the first stage as seen from the drive motor 5 A worm gearbox consisting of eight gives the greatest contribution to efficiency.

FIG. 2 shows the direction of force transmission during worm deceleration. The efficiency at the time of worm deceleration can be calculated by the following formula, where η is the efficiency.

However, tan θ = μ / cos β α = advance angle in pitch cylinder, μ = friction coefficient, and β are pressure angles.

In worm deceleration, it is necessary to reduce the friction coefficient and increase the lead angle, but the pressure angle β is
There is almost no choice.

In view of this, in the present invention, the worm 7 is formed in multiple lines to increase the lead angle, and is formed of an oil-containing polymer material to reduce the friction coefficient. However, if the friction coefficient is made extremely small, the worm 7 is fixed to the output shaft 6 of the drive motor 5 by press fitting, so that slippage occurs between the worm 7 and the output shaft 6 of the drive motor 5, and friction is prevented to prevent this. A suitable coefficient range is 0.05 to 0.15.

By forming the worm 7 as described above, the efficiency of the drive system can be improved and the optical pickup 1 can be moved at high speed.

In the above embodiment, the worm 7 is formed of an oil-containing polymer material having a small friction coefficient, but the worm gear 8 that meshes with the worm 7 or a helical gear that replaces the worm 7 is formed of the oil-containing polymer material as described above. However, the same effect can be obtained, and in this case, the friction coefficient may be smaller than that of the worm 7. Further, both the worm 7 and the worm gear 8 or the helical gear may be formed of an oil-containing polymer material having a small friction coefficient.

As described above, according to the present invention, the worm attached to the output shaft of the electric motor is formed into two or more threads, and at least one of the worm and the gear meshing with the worm has a small friction coefficient. Because it is made of material,
It is possible to improve the efficiency of the reduction gear system, realize a compact size, and realize a high moving speed of the optical pickup. Further, since the load is lightened, it is possible to select an electric motor that will not be burned by heating even if the drive system is locked.

[Brief description of drawings]

1 and 2 show an optical pickup moving device according to an embodiment of the present invention. FIG. 1 is an overall side view, and FIG. 2 is a worm deceleration efficiency explanatory view. 1 ... Optical pickup, 2 ... Guide, 3 ... Rack,
5 ... Drive motor, 7 ... Worm, 8 ... Worm gear, 9a, 9b, 9c ... Intermediate gear, 10 ... Final gear.

Claims (1)

[Scope of utility model registration request] 1. A guide for movably supporting an optical pickup, a rack connected to the optical pickup, an electric motor for moving the optical pickup, a worm attached to an output shaft of the electric motor, and a worm for the worm. An optical pickup comprising a gear mechanism for transmitting rotation to the rack, wherein the worm is formed of two or more threads, and at least one of the worm and a gear meshing with the worm is formed of an oil-impregnated polymer material having a small friction coefficient. Moving device.