KR0181831B1 - Electric current direction inspection device of focusing coil and tracking coil - Google Patents

Abstract

The present invention relates to a suspension wire assembly device of the optical pickup actuator, the holder high information 52 and the fitting projection 54 is fixed to the fixing groove 108 and the fitting hole 109 of the objective lens holder 100. Is formed on the upper surface of the center and has a wide plate shape and has a constant thickness, and the left and right sides of the coil PC 106 of the objective lens holder 100 placed on the upper surface of the pedestal 50. A current supply moving member 60 installed on the pedestal 50 to move horizontally to contact the contacts of the coil PC 106 to supply current to the focusing adjustment coil 102 and the tracking adjustment coil 104; Focusing is attached to the objective lens holder 100 by checking the rotation direction of the objective lens holder 100 by supplying current to the focusing adjustment coil 102 and the tracking adjustment coil 104 through the current supply moving member 60. Regulating Coil 102 and Tracking Regulating Coil 104 A current direction inspection device for focusing and tracking adjustment coils, comprising: a conductive direction determination member 80 provided on the pedestal 50 to determine an installation state; a focusing adjustment coil mounted on an outer circumferential surface of the objective lens holder; It is a very useful invention to prevent defects in the optical pickup actuator by easily determining whether or not the tracking adjustment coil is installed incorrectly.

Description

Current direction inspection device for focusing and tracking adjustment coil

1 is an exploded perspective view of a general wire type optical pickup actuator.

2 is a perspective view of a combined wire type optical pickup actuator.

3 is an external perspective view of the current direction inspection device according to the present invention.

4 is a sectional view of principal parts of the current direction inspection device according to the present invention.

5 is a perspective view of the installation state of the current direction inspection apparatus according to the present invention.

6a, b is a view showing a state of use of the current direction inspection apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

50: pedestal 52: holder fixing boss

54: fitting projection 60: current supply transfer member

62: transfer jig 64: guide rail

65: departure prevention jaw 68: fixed body

70: conductive pin 72: spring

74: wire 80: conductive direction discrimination member

82: rotating shaft 84: rotating body

86: permanent magnet 88: fixing projection

90: anti-rotation projection 92: fixed boss

94: spring 100: objective lens holder

106: coil PC 107: contact

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a focusing adjustment coil and a tracking adjustment coil installed in an objective lens holder of an optical pickup actuator, and in particular, to confirm whether the focusing adjustment coil and the tracking adjustment coil installed outside the objective lens holder are installed in the correct direction. Place the lens holder on the pedestal, move the current supply and transfer member horizontally, and energize the current through the conductive pin through the conductive pin to see the rotational direction of the rotating body, which is the conductive direction discriminating member. The present invention relates to an apparatus for checking the current direction of a focusing and tracking adjustment coil to prevent a malfunction of an optical pickup actuator by determining whether the installation position is correct.

In general, the optical pickup actuator is installed in a vertical portion below the disc, which is an optical recording medium of various optical disc players such as a mini disc player (MDP), a compact disc player (CDP), or a laser disc player (LDP). While moving, it detects the desired track position on the disk, and at the detected track position, the laser light is incident on the pit recorded on the disk surface, and then the reflected light is detected through the optical system, and the detected reflected light is converted into a signal to record on the disk surface. It is a device to play content.

As shown in FIG. 1, the conventional optical pickup actuator has a plate 20 having a laser passing hole 1 formed at a lower portion of the actuator, and a c-shape fixedly installed at a predetermined position of the plate 20. As shown in FIG. Inner and outer yoke 21 and 22, and the second yoke 23 fixed to the outer side in the longitudinal direction of the plate 20 is spaced apart from the outer yoke 22 by a predetermined interval, and the outer yaw The permanent lens 24 fixed to the inner surface of the oak 22 and the objective lens 25 to focus on the disk reflecting surface provided above the laser passing hole 1 provided in the plate 20. ), An objective lens holder 26 having a square structure formed to support the objective lens 25 to the outside, and installed on an inner surface of the objective lens holder 26 to flow in the inner yoke 21. Movement of the objective lens 25 in the optical axis direction A focusing adjustment coil 27 to control and an inner surface of the objective lens holder 26, wound around the focusing adjustment coil 27 to control the movement of the objective lens 25 in a radial direction. Generated in the objective lens holder 26 by signals input and output from the servo system to the adjustment coil 28, the focusing adjustment coil 27 located on the inner surface of the objective lens holder 26, and the tracking adjustment coil 28. Four wires 29 serving as a suspension to attenuate the vibrations, a PCB 31 attached to the outside of the holder gel 30 and receiving the input and output signals of the servo system, and the objective lens ( 26 is provided on both sides of the signal transmission piece 32 for electrically connecting the wire 29, the focusing adjustment coil 27 and the tracking adjustment coil 28.

In addition, the objective lens holder 26 of the actuator according to the present invention has a square shape, and has a structure in which the objective lens 25 is installed outside the square. That is, a focusing adjusting coil 27 and a tracking adjusting coil 28 are installed at the center of gravity of the objective lens holder 26 so as to be able to be inserted into the inner yoke 21 so that the optical pickup actuator is driven. The center of gravity and the center of gravity of the actuator coincide with each other, and thus the objective lens holder is provided by the repulsive force of the permanent magnet 24 only on the focusing adjustment coil 27 and the tracking adjustment coil 28 mounted inside the objective lens holder 26. (26) is enough to move. In addition, a groove, not shown in the drawing, is formed at a predetermined position of the objective lens holder 26 so that the balancer 33 for correcting the center of gravity when driving is fitted.

The operation and effects of the conventional optical pickup actuator configured as described above will be described in detail as follows.

As shown in Figs. 1 and 2, the photo detector on the optical system detects the focusing and tracking states at the recording feet of the laser beam. Here, when the focusing and tracking state is detected and the correction is necessary, the servo system transmits an electrical signal to the PCB. At this time, the focusing adjustment coil 27 and the tracking adjustment coil (27) installed at the center of gravity of the objective lens holder 26 by the electrical signal transmitted from the PCB 31 to the signal transmission piece 32 through the wire 29 ( 28) is subjected to Lorentz driving force by the permanent magnet (24).

Then, when a current is applied to the focusing adjustment coil 27 and the tracking adjustment coil 28 through the wire 29, the tracking adjustment coil 28 and the focusing adjustment coil 27 and the inner surface of the outer yoke 22 are mounted. Lorentz force is generated between the permanent magnets 24 to drive the objective lens holder 26. In this case, the inner yoke 21 is installed at the center of gravity of the objective lens holder 26 so that the focusing adjustment coil 27 is fluidly coupled, so that the objective lens holder 26 is driven when the objective lens holder 26 is driven. The center point and the center of gravity will coincide.

Therefore, the movement of the objective lens holder 26 is sufficiently controlled by only one focusing adjustment coil 27 and tracking adjustment coil 28. In other words, when a current is applied to the focusing adjustment coil 27 in the objective lens holder 26, it moves in the optical axis direction, and when a current is applied to the tracking adjustment coil 28 in the objective lens holder 26, it moves in the radial direction.

That is, when the current flows through the four suspension wires 29 soldered and fixed to the rear surface of the suspension PCB 31, the current passed through the wire 29 is focused on the soldered portions of the two coils PC 32. Permanently attached to the outer yoke 22 of the yoke plate 20 by a current applied to the adjustment coil 27 and the tracking adjustment coil 28, and a current applied to the focusing adjustment coil 27 during this applied current. The Lorentz driving force is generated between the magnets 24 so that the objective lens holder 26 operates in the up and down directions, and the yoke plate 20 is driven by the current applied to the tracking adjustment coil 28 among the applied currents. Lorentz driving force is generated between the permanent magnets 24 attached to the outer yoke 22 so that the objective lens holder 26 operates in the left and right directions.

On the other hand, the focusing adjustment coil 27 and the tracking adjustment coil 28 is configured to be wound in a predetermined direction about tens to hundreds of times, the focusing adjustment coil 27 is mainly wound around the outer peripheral surface of the objective lens holder 26 Later, two tracking adjustment coils 28, which are wound in a constant direction again, are attached to the outer surface of the focusing adjustment coil 27, and the ends of the tracking adjustment coil 28 and the focusing adjustment coil 27 are coil PC ( The soldered portion of 32 is connected to the suspension wire 29 in a conductive state.

However, conventionally, the work of winding the focusing adjustment coil 27 on the outer circumferential surface of the objective lens holder 26 and the work of bonding the two tracking adjustment coils 28 to the outer circumferential surface of the focusing adjustment coil 27 are performed one by one. As a manual work, if a mistake is made during the operation, the focusing adjustment coil 27 is incorrectly adhered to the outer circumferential surface of the objective lens holder 26 or the tracking adjustment coil 28 is adhered to the outer circumferential surface of the focusing adjustment coil 27. On the contrary, the current flowing through the suspension wire 29 does not flow to the adjustment coils 27 and 28 while the actuator in the state in which the coils are bonded to each other is not used, so that the objective lens holder 26 may not operate properly. In addition, even if it is operated, Lorentz driving force acts on the objective lens holder 26 to the contrary, so that the actuator such as the objective lens holder 26 operates inversely. There are problems that occur.

The present invention has been made in view of this point, in order to confirm that the focusing adjustment coil and the tracking adjustment coil installed on the outside of the objective lens holder in the correct direction, the objective lens holder is placed on the pedestal, the current supply transfer member Of the optical pickup actuator by determining whether the focusing adjustment coil and the tracking adjustment coil are properly installed by looking at the rotational direction of the rotating body, which is the conductive direction determining member, by moving the current horizontally through the conductive pins. The purpose is to prevent malfunction.

This object is provided with a fitting hole penetrating up and down to pass through the laser light in the center, and an objective lens holder having a fixed recess recessed to a certain depth in the bottom surface thereof, and an outer surface of the objective lens holder for installing the objective lens holder. In the optical pickup actuator consisting of a focusing adjustment coil and a tracking adjustment coil operating in the up, down, left, and right directions, the holder high information and the fitting projection are formed on the upper surface of the center to which the fixing groove and the fitting hole of the objective lens holder are fitted. And a plate having a wide plate shape and having a constant thickness, and on the left and right sides of the coil PC of the objective lens holder settled on the upper surface of the pedestal, which are installed on the pedestal and move horizontally to contact the contacts of the coil PC, respectively, for focusing. A current supply moving member for supplying a current to the regulating coil and the tracking regulating coil; Current is supplied to the focusing adjustment coil and the tracking adjustment coil through the ash to check the rotation direction of the objective holder to determine the conduction direction installed on the pedestal to determine the installation state of the focusing adjustment coil and the tracking adjustment coil bonded to the objective holder. The present invention has an effect achieved by providing an apparatus for checking the current direction of a focusing and tracking adjustment coil, characterized by consisting of members.

Hereinafter, the configuration according to the present invention based on the accompanying drawings to be described in detail.

As shown in Figures 3 to 6a, b, the configuration of the present invention, the insertion hole 109 penetrated up and down so that the laser light passes in the center, and the bottom has a fixed recess recessed to a certain depth ( 108 is formed on the objective lens holder 100, the focusing adjustment coil 102 is installed on the outer surface of the objective lens holder 100 to operate the objective lens holder 100 in the up, down, left, right direction and In the optical pickup actuator composed of the tracking adjustment coil 104, the holder high information 52 and the fitting protrusion 54, in which the fixing groove 108 and the fitting hole 109 of the objective lens holder 100 are fitted and fixed, are centered. Pedestal 50 formed on the upper surface and having a wide plate shape and having a constant thickness, and the left and right sides of the coil PC 106 of the objective lens holder 100 placed on the upper surface of the pedestal 50 50 and move horizontally to each of the contacts of the coil PC 106 A current supply moving member 60 in contact with and supplying current to the focusing adjustment coil 102 and the tracking adjustment coil 104, and through the current supply moving member 60, a focusing adjustment coil 102 and a tracking adjustment coil ( A pedestal 50 is provided to check the rotational direction of the objective lens holder 100 by supplying a current to determine an installation state of the focusing adjustment coil 102 and the tracking adjustment coil 104 bonded to the objective lens holder 100. It is composed of a conductive direction discrimination member 80 provided on the.

The current supply moving member 60 is formed on the pedestal 50 and is formed on a plurality of guide rails 64 extending horizontally toward the holder fixing boss 52 and the bottom surface of the guide rail 64. A plurality of moving jigs 62 coupled to the guide grooves 63 and horizontally moved along the guide rails 64 and press-fitted into the installation holes 66 formed by recessing a predetermined depth in the front portion of the moving jig 62. Installed in the space portion 69 and the space portion 69 of the fixed body 68 and contacting the contact 107 of the coil PC 106 to supply current. A spring 72 which contacts the conductive pin 70 and the back surface of the conductive pin 70 and applies elastic force to the conductive pin 70 which is installed in the space 69 of the fixed body 68 and moves horizontally; ) And the wire drawn out to the wire drawing hole 67 formed in the transfer jig 62 so as to be connected to the rear surface of the conductive pin 70 to supply current. It is composed of 74.

In addition, a handle 76 is formed on the upper surface of the moving jig 62 to move the moving jig 62 horizontally so that an operator can move the moving jig 62 horizontally. Departure preventing jaw 65 for preventing the departure from the guide rail 64 is formed at the end of the guide rail (64).

On the other hand, the conductive direction discriminating member 80 is inserted into the rotary hole (82) protruding from the upper surface of the pedestal 50, the permanent magnet 85 attached to the front portion of the focusing adjustment coil A plurality of rotators 84 installed symmetrically to recognize abnormality of the adjusting coils 102 and 104 by rotating or non-rotating by the Lorentz driving force between the 102 and the tracking adjusting coils 104, and One end is caught by the fixing protrusion 88 protruding on one side of the whole 84, and the other end is fitted to the fixing boss 92 protruding on the pedestal 50 to fix the rotor 84 with an appropriate elastic force. It consists of a spring 94.

Then, by the Lorentz driving force between the permanent magnet 85 of the rotating body 84, the focusing adjusting coil 102 and the tracking adjusting coil 104, the rotating body 84 is prevented from rotating in the abnormal direction. It is composed of a rotation preventing projection 90 is installed on the pedestal 50 to be in contact with one side of the rotating body (84).

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

First, in detail the operation process of the current direction inspection device of the focusing and tracking adjustment coil according to the present invention, first, the focusing adjustment coil 102 and the tracking adjustment coil 104 installed on the outer circumferential surface of the objective lens holder 100 The fixed position formed on the bottom surface of the objective lens holder 100 to the holder fixing boss 52 and the fitting protrusion 54 protruding in the center of the pedestal 50 to check whether the installation position of the current is correct so that the current flow direction is correct. The objective lens holder 100 is fixed to the pedestal 50 by being inserted into the recess 108 and the fitting hole 109.

In this state, as shown in FIG. 6A, the guide rail 64 formed on the pedestal 50 by holding the handle 76 attached to the upper surface of the moving jig 62, which is the current supply moving member 60, is formed. When the two moving jig 62 is installed symmetrically by the guide groove 63 along the front, four conductive pins 70 are each coil PCB 106 bonded to the outside of the objective lens holder 100 The electric current supplied from the outside to the electric wire 74 by being contacted with the contact point 107 of) is supplied to the focusing adjustment coil 102 and the tracking adjustment coil 104 through this contact 107.

Thus, as the current is supplied to the focusing adjustment coil 102 and the tracking adjustment coil 106, the permanent magnet 86 of the rotating body 84 located on the outer portion of the tracking adjustment coil 102, and the focusing and tracking adjustment Lorentz driving force is generated between the coils 102 and 104, and as shown in FIG. 6B, an abnormality in the installation direction of the adjustment coils 102 and 104 provided on the outer circumferential surface of the objective lens holder 100 occurs. If not, the two rotating bodies 84 rotate in the direction of the arrow with respect to the rotating shaft 82 while overcoming the tension of the spring 94, the operator checks whether or not the rotation of the rotating body 84, the objective lens holder It is determined that there is no abnormality of the focusing adjustment coil 102 and the tracking adjustment coil 104 provided on the outer circumferential surface of the 100.

At this time, if the installation position of the focusing and tracking adjustment coil 102, 104 is wrong, the flow direction of the current flowing to the focusing and tracking adjustment coil 104 through the conductive pin 70 is reversed and is wrong, As a result, the Lorentz driving force acting between the focusing and tracking adjustment coils 102 (104) and the permanent magnets 85 of the rotating body 84 acts as opposed to the above-described case, so that the rotating body 84 is supported by the pedestal 50. Contact with the anti-rotation projections 90 formed on the top, so that the rotating body 84 does not rotate and remains fixed in place with respect to the rotating shaft 82, so that the operator reports the state that the rotating body 84 does not rotate. Defective states of the focusing adjustment coil 102 and the tracking adjustment coil 104 provided on the outer circumferential surface of the lens holder 100 can be determined, and focusing is provided on the outer circumferential surface of the other objective lens holder 100 through the above method. Adjust The assembling failure state of the coil 102 and the tracking adjustment coil 104 is determined.

Therefore, when the current direction inspection apparatus of the focusing and tracking adjustment coil according to the present invention is used, the objective lens holder is supported to check whether the focusing adjustment coil and the tracking adjustment coil installed on the outside of the objective lens holder are installed in the correct direction. The current supply and transfer member horizontally, and energize the current through the conductive pin to the contact of the coil PCB, and if the rotating body rotates by looking at the rotation direction of the rotating body, which is the conductive direction discriminating member, focusing adjustment coil and tracking It is a very useful and effective invention that judges that the adjustment coil is assembled normally, and if the rotating body does not rotate, it is determined that the assembly state of the adjustment coil is poor, and then take appropriate measures to prevent the operation of the optical pickup actuator in advance. .

Claims (5)

An insertion hole 109 penetrating up and down is formed in the center to pass the laser light, and an objective lens holder 100 having a fixed recess 108 recessed in a predetermined depth is formed at the bottom of the object lens holder 100. An optical pick-up actuator comprising a focusing adjustment coil 102 and a tracking adjustment coil 104 installed on an outer surface to operate the objective lens holder 100 in the up, down, left, and right directions, wherein the objective lens holder 100 is provided. A holder fixing booth 52 and a fitting protrusion 54 to which the fixing recess 108 and the fitting hole 109 are inserted and fixed are formed on the upper surface of the center to have a wide plate shape and have a predetermined thickness. The coil PC 106 of the objective lens holder 100 placed on the upper surface of the pedestal 50 is installed on the pedestal 50 on both the left and right sides thereof, and moves horizontally to the contacts of the coil PC 106. In contact with the focusing adjustment coil 102 and the tracking adjustment coil 104 Rotation direction of the objective lens holder 100 by supplying current to the current supply moving member 60 for supplying current, and to the focusing adjusting coil 102 and the tracking adjusting coil 104 through the current supply moving member 60. It is characterized by consisting of a conductive direction determination member 80 installed on the pedestal 50 to determine the installation state of the focusing adjustment coil 102 and the tracking adjustment coil 104 bonded to the objective lens holder 100 by checking the Current direction inspection device for focusing and tracking adjustment coil. The guide rail (64) of claim 1, wherein the current supply moving member (60) is formed on the pedestal (50) and extends horizontally toward the holder fixing boss (52) and the guide rail (64). A plurality of movable jig 62 is coupled to the guide groove 63 formed on the bottom surface of the movable guide plate 64 to move horizontally along the guide rail 64, and the installation hole formed by recessing a predetermined depth in the front portion of the movable jig 62 ( 66 is press-fitted to the fixed body 68 having a space 69 formed therein, and inserted into the space 69 of the fixed body 68 to be brought into contact with the contact 107 of the coil PC 106. An elastic force is applied to the conductive pin 70 for supplying current and the conductive pin 70 which is in contact with the rear surface of the conductive pin 70 and is installed in the space 69 of the fixed body 68 and moves horizontally. The spring is connected to the back of the spring 72 and the conductive pin 70 to the wire drawing hole 67 formed in the transfer jig 62 to supply current. The focusing and tracking adjustment of the current direction of the testing device, characterized in that the coil consists of wires (74). The apparatus of claim 1, wherein a handle (76) is formed on an upper surface of the moving jig (62) to horizontally move the moving jig (62). The method of claim 1, wherein the conductive direction determination member 80 is inserted into the rotary hole (82) protruding from the upper surface of the pedestal 50, the permanent magnet 86 attached to the front portion A plurality of rotators 84 are installed symmetrically to recognize abnormality of the adjustment coils 102 and 104 by rotating or non-rotating by the Lorentz driving force between the focusing adjustment coil 102 and the tracking adjustment coil 104. One end is caught by the fixing protrusion 88 protruding from one side of the rotating body 84, and the other end is fitted to the fixing boss 92 protruding on the pedestal 50 so that the rotating body 84 is properly fitted. Current direction inspection device of the focusing and tracking adjustment coil, characterized in that consisting of a spring 94 for fixing with an elastic force. 5. The rotating body (84) according to claim 4, wherein the rotating body (84) is rotated in an abnormal direction by the Lorentz driving force between the permanent magnet (86) of the rotating body (84), the focusing adjusting coil (102), and the tracking adjusting coil (104). Focusing and tracking adjustment coil current direction inspection device, characterized in that consisting of the anti-rotation projections 90 are installed on the pedestal (50) in contact with one side of the rotating body (84) to prevent.