KR0135137B1 - Pickup device for optical disc player - Google Patents

Abstract

The present invention relates to a pickup device of an optical disc player, and to obtain the driving force of the upper, high motion and reverse rotation of the renaissance holder with a magnetic circuit, and also serves as a magnetic spring, thereby eliminating the need for a separate elastic body. In addition to the reduction in manufacturing costs, it prevents the underground of performance even after long-term use, and does not have to consider the smoothness of the rangeholding in the design.

To this end, the present invention provides a fixed magnet 2 fixed to the pickup base 1, a movable magnesium 5 fixed to the lens holder 3 and acting as a magnetic axis together with the fixed magnesium 2, and a Sykes lens. A focusing coil 6 fixed to the holder 3 to receive power when focusing to generate organic power, and to a tracking coil 7 attached to the outside of the focusing coil to receive power to track and generate organic warfare. When the lens holder 3 is focused up, high, or when tracking, and when the lens holder 3 rotates forward and reverse, the fixed magnesium 2 and the movable magnesium 5 play a role of a magnetic axis by the magnetic force. 3) to give elasticity to the role.

Description

Pickup device for optical disc player

1 is an exploded perspective view showing a conventional pickup device.

2 is a plan view showing a conventional pickup device.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B in FIG.

Figure 5 is an exploded perspective view showing an embodiment of the pickup apparatus of the present invention.

6 is a plan view showing an embodiment of the pickup apparatus of the present invention.

7 is a cross-sectional view taken along the line C-C of FIG.

8 is an exploded perspective view showing another embodiment of the pickup apparatus of the present invention.

9 is a plan view showing another embodiment of the pickup apparatus of the present invention.

10 is a cross-sectional view taken along the line D-D of FIG.

* Explanation of symbols for main parts of the drawings

1: pickup base 2: fixed magnesium

2A: triangular indentation groove 3: lens holder

3a: hole 4: objective lens

5: movable magnesium 6: focusing

7: tracking coil

The present invention relates to a pickup device of an optical disc player, and more particularly, a structure in which a lens holder has a magnetic axis during focusing and tracking by changing its structure to serve as a magnetic axis by fixed magnesium and movable magnesium. It is to be rotated up, high, forward or reverse.

In general, the pickup device is a device that reads a recording signal of an optical disk (hereinafter referred to as a disk), which is a recording medium of an optical disk player, and is an indispensable device. The conventional structure of the pickup apparatus includes a pickup base 11 The focusing yoke 13 into which the central axis 12 is pressed into the center thereof is fixed, and the focusing yoke 13 is fixed to the focusing yoke, and the pickup base 11 is located at both sides of the focusing yoke. A tracking yoke 15 is fixed, a tracking magnesium 16 is fixed to the tracking yoke, and a lens holder 18 having an objective lens 17 on the central axis 12 pressed into the focusing yoke 13. ) Is installed up, down, forward, and reverse rotation, and the focusing coil 19 is fixed to the lower surface of the lens holder so as to face the focusing magnesium 14 and tracking on both sides. The tracking coil 20 is fixed to face the magnesium 16, and one end of the integrated elastic rubber 21 is fixed to the lens holder 18, and the other end of the elastic rubber 21 is connected to the pickup base 11. The lens holder 18 is secured by the elastic rubber 21.

Therefore, when the disc is rotated by the rotational force of a turntable (not shown) to reproduce the disc by the optical disc player, the pickup base 11 constituting the pickup device is guided by a guide means (not shown). The lens holder 18 provided on the focusing yoke 13 and the tracking yoke 15 and the central axis 12 of the focusing yoke 13 fixed to the pick-up base 11 because it is horizontally moved from the inner peripheral surface side of the inner peripheral surface side of the ) Move together, and the laser beam is irradiated through the objective lens 17 of the lens holder, and the irradiated laser beam reads a signal recorded on the track of the disk while hitting the track of the rotating disk. Lose.

On the other hand, when the pickup base 11 is moved to reproduce the disc as described above, when the laser beam is irradiated through the objective lens 17 of the lens holder 18, the disc may rotate due to its own bending or other factors. If the distance between the objective lens 17 and the disc does not maintain a proper distance or the laser beam irradiated from the objective lens does not accurately find the track of the disc, the objective lens 17 reads the signal recorded on the track of the disc accurately. As a result of this problem, the quality and the quality of the image may be degraded. Therefore, in order to prevent this, focusing and tracking are automatically performed during playback.

D Here, the process of focusing and tracking is described below. The beam from which the objective lens 17 of the lens holder 18 reads out the signal recorded on the track of the disc is the main beam. When the main beam is irradiated from the objective beam, the focusing beam and the tracking beam are irradiated together to focus the beam. By maintaining the distance between the objective lens 17 and the disk at an appropriate distance, the main beam irradiated from the objective lens 17 by the tracking beam to accurately find the track of the disk.

That is, when the distance between the objective lens 17 and the disk is closer or closer than the proper distance by the focusing beam, power is supplied to the focusing coil 19 fixed to the lower surface of the lens holder 18. Induced power is generated and the induced power of the focusing coil 19 is influenced by the magnetic force of the focusing magnesium 16 fixed to the focusing yoke 13, and thus the distance proportional to the distance difference value by Fleming's left hand law. As a result, the lens holder 18 is guided to the central axis 12 pressed by the center of the focusing yoke 13 to move upward or downward, so that the distance between the objective lens 17 and the disk is maintained at a proper distance. do.

In addition, when the main beam irradiated from the objective lens 17 by the tracking beam does not exactly hit the track of the disk, power is supplied to the tracking coil 20 fixed to both sides of the lens holder 18, so that the tracking coil As the induced electric power is generated and the induced electric power of the tracking coil 20 is affected by the magnetic force of the tracking magnesium 16 fixed to the tracking yoke 15, the lens is angled by an angle proportional to the misalignment by Fleming's left hand law. Since the holder 18 rotates forward or reverse about the central axis 12 pressed into the center of the focusing yoke 13, the main beam irradiated from the objective lens 17 hits the track of the disc accurately. .

However, in the conventional pickup system, the main beam irradiated from the objective lens or the main beam irradiated by the objective lens accurately searches for the track of the disk when the focusing action is performed to adjust the distance between the objective lens and the disc as an annoying distance. In order to act as a center when the lens holder rotates forward and reverse during tracking, the central axis is not necessarily required, and a separate member is provided to provide elasticity when the lens holder moves up and down or forward and reverse rotation. Since there is a need for elastic rubber, there were various problems as follows.

First, the number of parts increased, leading to an improvement in manufacturing costs.

Second, the elastic rubber is easily changed according to the temperature change during long-term use, and the performance is degraded.

Third, smooth performance should be considered when designing the lens holder because it moves up, down, or rotates forward and backward in contact with the central axis.

The present invention has been made to solve the above problems, the magnetic circuit to obtain the driving force of the phase, high motion, forward rotation of the lens holder also serves as a magnetic spring, without having to use a separate central axis and elastic body The purpose of the present invention is not only to prevent the performance deterioration by prolonged use with the texture of the manufacturing cost, but also to avoid the smoothness of the lens holder during the design.

Fixed magnesium fixed to the pick-up base according to the embodiment of the present invention for achieving the above object, movable magnesium fixed to the lens holder and acts as a magnetic side together with the fixed magnesium, and is supplied to the lens holder is supplied with power when focusing the organic power It consists of a focusing coil for generating a tracking coil and a tracking coil that is attached to the outside of the focusing coil to receive power when tracking and generates an organic power, and is fixed when the lens holder is rotated up or down during focusing, or when it is forward and reverse when tracking. Provided is a pickup device of the present light emitting disc player, in which magnesium and movable magnesium play a role of magnetic axis by magnetic force, and also play a role of depressing the lens holder.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 5 through 7 and the accompanying drawings 8 through 10 illustrated in another embodiment.

5 is an exploded perspective view showing the pickup device according to an embodiment of the present invention. FIG. 6 is a plan view showing the pickup device of the present invention in one embodiment. FIG. 7 is a cross-sectional view taken along line CC of FIG. 6. A pair of fixed magnesium (2) is fixed to the pickup base (1), and the fixed magnesium is provided with a lens holder (3) having an objective lens (4) to be fitted through a pair of holes (3a) integrally formed. The movable magnesium (5) is fixed to the inside of the lower surface of the holder to serve as a magnetic axis together with the fixed magnesium (2), and an organic power is generated outside the lower surface of the lens holder (3) by receiving power during focusing. The focusing coil 6 is fixed so that a pair of tracking coils 7 are attached to the outside of the focusing coil so as to generate an organic power by receiving power during tracking.

The process of reading out the signal recorded on the track of the disc during the description of the operation according to the embodiment of the present invention configured as described above will be understood by referring to the process described in the related art and will be omitted. Hereinafter, the process of focusing and tracking is performed. Only the following is explained.

In the state where the lens holder 3 fixed to the movable magnesium 5 is fixed to the pair of fixed magnets 2 fixed to the pickup base 1 through a pair of guide holes 3a in which the movable magnesium 5 is fixed to the lower surface is fixed. Due to the mutual magnetic force between magnesium and movable magnesium (5), the lens holder (3) is floating. In this state, the main beam is irradiated from the objective lens (4) of the lens holder to read the signal recorded on the track of the disc. When the distance between the objective lens 4 and the disk is closer or closer than the proper distance by the focusing beam irradiated with the main beam, the power is supplied to the focusing coil 6 fixed to the outside of the lower surface of the lens holder 3. Since the organic power is generated in the focusing coil and the organic power of the focusing coil 6 is affected by the magnetic force of the movable magnesium 5, the lens holder 3 has a distance difference value due to the left hand law of Fleming. It moves upward by a distance proportional to, or to the lower portion thereby resulting in a length of the objective lens 6 and the disc holding an appropriate distance.

In the above case, when the lens holder 3 moves upward or downward, the movable magnesium 5 fixed to the lens holder and the fixed magnesium 2 fixed to the pickup base 1 exchange magnetic force with each other. The lens holder 3, which plays a role and thus moves up and down, has a property of returning to a pleading state.

In addition, when the main beam irradiated from the objective lens 4 by the tracking beam does not exactly hit the track of the disc, power is supplied to the Hansa tracking coil 7 attached to the outside of the focusing coil 6 so that the tracking The angle proportional to the error value by Fleming's left-hand rule as the induced electric power is generated in the coil and the wet power of the tracking coil 7 is affected by the magnetic force of the fixed magnesium 2 fixed to the pickup base 1. As the lens holder 3 rotates forward (clockwise) or reversely (counterclockwise), the main beam irradiated from the objective lens 4 hits the track of the disc accurately.

When the lens holder 3 rotates forward or reverse, the movable magnesium 5 fixed to the lens holder and the fixed magnesium 2 fixed to the pickup base 1 exchange magnetic force with each other. The reversely rotating lens holder 3 has a property of being resilient to return to its original state.

Among the above operations, the lens holder 3 can be moved up and down without interference by the focusing action, and a pair of holes 3a are formed in the lens holder, and the lens holder 3 is fixed magnesium (2) through the holes. It is possible to thin the pick-up device, so it is not necessary to form a hole 3a in the lens holder 3, in which case the lens holder 3 does not interfere with the fixed magnesium 2 during focusing. It is good to move up and down within the range which does not.

8 is an exploded perspective view showing the pickup apparatus of the present invention in another embodiment, FIG. 9 is a plan view showing the pickup apparatus of the present invention in another embodiment, and FIG. 10 is a sectional view taken along line DD of FIG. In the configuration, the description of the same configuration as that of the embodiment described above is omitted, and the same reference numerals are given to the same embodiments in the drawings.

Hereinafter, the main structure of another embodiment of the present invention will be described in which the fixed magnesium (2) having the embossed recess (2a) is fixed to the pickup base (1) before and after, and the fixed magnesium is inserted through the integrated hole (3a). A lens holder 3 having an objective lens 4 is installed so that the lens holder 3 has an objective lens 4, and an inner side of the lower surface of the lens holder is in contact with a corner point of the triangular inlet groove 2a formed in the fixed magnesium 2, together with the fixed magnesium. A pair of movable magnets 5 are fixed to serve as a magnetic axis, and a pair of focusing coils 6 are fixed to the outside of the lower surface of the lens holder 3 so as to generate power by receiving power during focusing. In addition, a pair of tracking coils 7 are attached to the outside of the focusing coil to generate power by receiving power during tracking.

Referring to the focusing and tracking process according to another embodiment of the present invention configured as described above are as follows.

In the state where the lens holder 3 having a pair of movable magnesium 5 fixed to the lower surface is inserted into the fixed magnesium 2 fixed to the pickup base 1 through a pair of holes 3a formed, the movable magnesium 5 is movable with the fixed magnesium. The lens holder 3 floats due to the mutual magnetic force of the magnesium 5, and in this state, the main beam is irradiated from the objective lens 4 of the lens holder 3 to read a signal recorded on the track of the disc. When the distance between the objective lens 4 and the disk is closer or farther than the distance of concern by the focusing beam irradiated with the main beam when being pulled in, the power is supplied to the focusing coil 6 fixed outside the lower surface of the lens holder 3. Since the supplied electric power is generated in the focusing coil and the induced power of the focusing coil 6 is influenced by the magnetic force of the fixed magnesium 5 fixed to the pickup base 1, according to Fleming's left hand law. The 3 is to maintain the resulting objective lens 6 and an appropriate distance away on the disc, so carelessly moved to move to the upper part by a distance proportional to the distance difference value.

The movable magnesium (5) fixed to the lens holder and the fixed magnesium (2) fixed to the pickup base (1) exchange magnetic force with each other when the lens holder (3) moves to move upward, thereby acting as a magnetic axis. As performed, the lens holder 3 moved upward and downward has a property to be returned to its original state by receiving elasticity.

In addition, when the main beam irradiated from the objective lens 4 by the tracking beam does not exactly hit the track of the disc, power is supplied to the pair of tracking coils 7 attached to the outside of the focusing coil 6 so that the tracking As the induced electric power is generated in the coil and the induced electric power of the tracking coil 7 is affected by the magnetic force of the fixed magnesium 2 fixed to the pickup base 1, the angle proportional to the error value by Fleming's left hand law. Since the lens holder 3 rotates forward (clockwise) or counterclockwise (counterclockwise), the main beam irradiated from the objective lens 4 hits the track of the disk accurately.

In the above, when the lens holder 3 rotates forward or reverse, the movable magnesium fixed to the lens holder 5 is fixed to the pickup base 1 so that the fixed magnesium 2 exchanges magnetic force with each other. The reversely rotating lens holder 3 has a property of being resilient to return to its original state.

In the above-described tracking operation, the fixed magnesium 3 having the triangular inlet grooves 3a is fixed to the pickup base 1 in which the lens holder 3 is rotated forward and backward, and the lens holder 3 is fixed to the pickup base 1. A pair of movable magnesium (5) is fixed so that the tip is in contact with the vertex of the triangular indentation groove (3a) formed in the fixed magnesium (3), the lens holder (3) is a fixed magnet (3) and movable magnesium during rotation It is understood that the rotation is based on the contact point of (5).

Therefore, in the present invention, when the lens holder moves up and down during focusing or when the lens holder is rotated forward and reverse during tracking, the fixed magnesium and the movable magnesium act as a magnetic axis by magnetic force, thus providing elasticity to the lens holder. Since the central axis and the elastic body are not needed, the manufacturing cost can be reduced due to the reduction of parts, and the design does not have to consider the smoothness of the lens holder.

Claims (2)

A fixed magnesium fixed to a pickup base to generate a magnetic force, a movable magnesium fixed to a lens holder of the pick-up and acting as a magnetic shaft and a spring by repulsing with a magnetic force of the fixed magnesium, and fixed to the lens holder to receive power A focusing coil that generates a Lorentz force in a focusing direction opposite to the magnetic force of the fixed magnesium, and a tracking coil attached to an outer side of the focusing coil and supplied with power to generate a Lorentz force in the trackkine direction opposite to the magnetic force of the fixed magnesium. Pick-up of optical disc player, characterized in that the fixed magnesium acts as a magnetic axis and magnetic spring due to mutual magnetic force when the lens holder is driven up and down by focusing, and when the lens holder is rotated forward and backward by tracking. Jot. The fixed magnesium fixed to the pick-up base is configured such that a pair of magnets magnetized by a single pole is circumferentially opposed to the same pole, and movable magnesium fixed to the lens holder is monopolarized to form left and right grooves. It is located inside the circumference of the calcium is opposed to the same pole, characterized in that each of the fixed magnesium and the movable magnesium to give a repulsive force to each other to act as a magnetic axis and a magnetic spring.