KR100227752B1 - Tilt adjusting device of optical pickup actuator - Google Patents

Abstract

The present invention is to allow the lens holder to be driven in the direction of the optical axis of the objective lens by adjusting the tilt of the lens holder by correcting the assembly state of the suspension PCB to which the suspension wire supporting the lens holder of the optical pickup actuator is fixed.

According to the present invention, the support means 10 on which the yoke plate 82 is seated, the fixing means 30 for pressing and fixing the upper side of the yoke plate 82, and the suspension PC 94 fixed to the yoke plate 82 are provided. It is a tilt adjustment apparatus of the optical pickup actuator which consists of the tilt adjustment means 50 which presses the upper side of and corrects the assembly state of the suspension PC94.

Since the tilt of the lens holder 88 is corrected and supported horizontally with respect to the yoke plate 82 by the apparatus of the present invention, precisely when the lens holder 88 is driven in the focus direction during reproduction of actual disc recording. Driving in the direction of the optical axis that is vertically upward, and thus does not generate a tracking error that has conventionally occurred in the focus formed by the objective lens 86, thereby reducing the power consumption of the tracking coil (99).

Description

Tilt adjuster of optical pickup actuator

The present invention relates to a tilt adjustment device for a wire-drive type optical pickup actuator, and in particular, after completing the assembly process of connecting the suspension wire to the coil PC fixed to the suspension PC and the lens holder, A tilt adjustment apparatus for an optical pickup actuator in which the tilt driving direction of the lens holder is corrected so that the focus driving direction of the lens holder coincides with the optical axis direction of the objective lens fixed to the lens holder.

In general, an optical pickup device is a device installed in a CD player for irradiating laser light to the disc and receiving the light reflected from the disc to reproduce the recording contents of the disc. And an objective lens for focusing the laser light emitted from the hologram element on the disk surface.

Among the optical pickup devices, as shown in FIG. 1, the wire-drive type optical pickup device may be installed such that the lens holder 140 fixing the objective lens 142 to the yoke plate 110 may be suspended by the suspension wire 136. The objective lens 142 is coupled to the center of the lens holder 140, and the focus coil 144 is wound around the lens holder 140, and then wound in a rectangular shape thereon. Tracking coil 146 was bonded. The coil PC 148 was fixed to both sides of the lens holder 140 to connect the tracking coil 146 and the focus coil 144.

In addition, the yoke plate 110 forms a pair of symmetrical outer yokes 114 and attaches and fixes the magnet 118 for generating an electromagnetic force by applying magnetic flux to the tracking coil 146 and the focus coil 144. A pair of inner yokes 112 symmetrically inwardly spaced apart from the outer yoke 114 are bent upwardly from the yoke plate 110 to induce the flow of the magnetic flux of the magnet 118, thereby causing the magnet 118 to be separated. The magnetic flux of the s) crosses the tracking coil 146 and the focus coil 144 strongly horizontally and passes through the planes of the inner yoke 112 and the yoke plate 110 to form the magnetic closure circuit.

In addition, a second yoke 116 is formed at one side edge of the yoke plate 110 to fix the gel holder 120 and the suspension PCB 122 with screws 124, and one end of the suspension wire 136 is a lens. By connecting the coil PC 148 attached to the holder 140 and the other end to the suspension PC 122, the lens holder 140 is lifted and installed by the suspension wire 136, and the suspension from the signal processing unit An electric current applied to the PC 122 is transmitted through the suspension wire 136 to the tracking coil 146 and the focus coil 144. In addition, the suspension wire 134 passes through the inside of the gel holder 120, and the viscous damping gel 121 is injected into the inside of the gel holder 120 so that the negative resonance of the suspension wire 136 is a damping gel ( 121).

On the other hand, the objective lens 142 should be installed so as to be exactly horizontal to the recording surface of the disk 170, so that the recording pit of the disk 170 whose focus of the laser light formed by the objective lens 142 is exactly perpendicular to the hologram element. Focus may be formed at 172. However, when the suspension wire 136 supporting the lens holder 140 fixing the objective lens 142 to the yoke plate 110 is adhered to the lens, the tilt of the lens holder 140 occurs due to a tolerance. The holder 140 may not be horizontal. In this case, by adjusting the tilt of the lens holder 140 by adjusting the state in which the yoke plate 110 on which the lens holder 140 is fixed is installed on the pickup base 150, the objective lens 142 is the disk 170. It should be level with respect to the recording surface of.

2, the tilt adjustment operation is performed by first inserting the fixing screw 160 into which the compression spring 162 is inserted into the through hole 162 formed at one side of the yoke plate 110, and then onto the pickup base 150. By fastening to the screw hole 154 formed in the, one side of the yoke plate 110 to be fixed while having elasticity on the pickup base 150 by the elasticity of the compression spring 162.

Then, the adjustment screw 158 is inserted into the through holes 156 formed in the pick-up base 150 in the horizontal and vertical directions from the fixing screw 160 fixed to the pick-up base 150 to be formed on the yoke plate 110. After fastening to the screw hole 119, respectively, adjusting the tightening degree of the adjustment screw 158, the adjustment sphere 126 formed on the bottom surface of the yoke plate 110, the adjustment sphere 152 formed on the pickup base 150 It slides while in contact with the height balance of the horizontal and vertical of the yoke plate 110 is adjusted.

Accordingly, the lens holder 140 supported by the yoke plate 110 is horizontally adjusted with tilt, and the optical axis P direction of the objective lens 142 fixed to the lens holder 140 is relative to the disk 170. Become vertical.

However, when the tilt of the objective lens 142 is adjusted in the same manner as described above, when the inclination angle of the first lens holder 140 is θ, the lens holder 140 is used to level the lens holder 140. Although the lens holder 140 is horizontal by adjusting the angle of the supported yoke plate 110 on the pickup base 150, this causes the installation angle of the yoke plate 110 to be inclined by 2θ ° with respect to the pickup base 150. It will be lost.

When the recording of the disc 170 is reproduced using the optical pickup actuator, the lens holder 140 is supported on the yoke plate 110 by the suspension wire 114, so that the driving direction of the lens holder 140 is the yoke. It is driven in a direction perpendicular to the installation angle of the plate 110. Accordingly, the lens holder 140 does not coincide with the optical axis P direction of the objective lens 142 when driven in the focus direction, and is 2θ with respect to the optical axis P in proportion to the angle θ in which the yoke plate 110 is inclined. It is tilted as much as it is driven.

Therefore, the focus of the laser light formed by the objective lens 142 is not formed at the recording pit 172 but is formed at A moved by a predetermined distance L in proportion to 2θ °, thereby causing a tracking error.

Accordingly, since the lens holder 140 must be driven in the tracking direction again to correct the tracking error, the time for reproducing the recording pit 172 of the disc 170 is increased, thereby reducing the recording and reproducing capability of the optical pickup actuator. In addition, the power consumption consumed by the tracking coil 146 driving the lens holder 140 in the tracking direction increases.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems, and an object of the present invention is to adjust the tilt of the lens holder by correcting the assembly state of the suspension PCB fixed to the suspension wire for supporting the lens holder of the optical pickup actuator, The holder is for driving in the direction of the optical axis of the objective lens.

The above object is a support means having a groove in which an adjustment sphere formed on the bottom of the yoke plate is inserted into a base on which the yoke plate of the optical pick-up actuator is seated, and a support plate formed on one side of the base of the support means. Optical pickup consisting of a fixing means for pressing the upper side of the fixing means and a tilt adjusting means installed on a support formed on the other side of the base of the supporting means to press the upper side of the suspension PC fixed to the yoke plate to correct the assembly state of the suspension PC This can be achieved by providing a tilt adjustment of the actuator.

1 is a perspective view showing a general optical pickup device.

Figure 2 is a schematic diagram showing a tilt adjustment operation of a typical optical pickup device.

3 is a perspective view showing a tilt adjustment device of the optical pickup actuator according to the present invention.

Figure 4 is a perspective view showing a state of use of the tilt adjustment device of the optical pickup actuator according to the present invention.

Figure 5 is a schematic diagram partially showing the use state of the tilt adjustment device of the optical pickup actuator according to the present invention.

<Explanation of symbols for main parts of drawing>

10: support means 12: base

14: boss 16: home

18, 20: support 22: expansion plate

30: fixing means 32, 60: pneumatic cylinder

34, 62 holder 36, 64 shaft

38: plate 40, 66: valve

42, 68: switch 44, 70: pneumatic pipe

52: gorne stage 54: adjustment lever

56: upper stage 58: lower stage

59: scale

Hereinafter, the present invention will be described in detail by explaining a preferred embodiment of the tilt adjustment apparatus of the optical pickup actuator according to the present invention.

In the tilt adjustment apparatus according to the present embodiment, the optical pickup actuator in which the lens holder 88 fixing the objective lens 86 is supported by the suspension PC 94 fixed to the yoke plate 82 by the suspension wire 90 is provided. 80, after completing the assembling process of connecting the suspension wire 90 to the suspension PCB 94 and the coil PC 96 fixed to the lens holder 88, the lens holder 88 Is for correcting the tilt tilted relative to the yoke plate 82.

The actuator performs a tilt test in advance to measure the tilt value of the lens holder 88 with respect to the yoke plate 82, and to correct the tilted state of the lens holder 88 according to the measured value. . This operation is assembled to the second yoke (98) formed on the yoke plate (82) by means of a screw, the suspension PC (94), because the suspension is not fixed by bonding the PCB 94, the suspension PC (94) By applying an appropriate rotational force to the suspension, the suspension PCB 94 can be rotated to correct the tilt.

As shown in FIG. 3, the apparatus of the present exemplary embodiment for this operation has an adjustment sphere 85 formed on the bottom surface of the yoke plate 82 on the base 12 on which the yoke plate 82 of the optical pickup actuator 80 is seated. ) Is installed on the support means 10 having a groove 16 into which is inserted, and a support 20 formed on one side of the base 12 of the support means 10 to press and fix the upper side of the yoke plate 82. To the fixing means 30 and the support 18 formed on the other side of the base 12 of the support means 10 to press the upper side of the suspension PC 94 which is fixed to the yoke plate 82. 94, the tilt adjusting means 50 for correcting the assembly state.

A plurality of bosses 14 inserted into the through holes 84 of the yoke plate 82 are formed on the upper surface of the base 12 of the support means 10 to fix the position of the yoke plate 82 on the base 12. Be sure to In addition, the base 12 is formed on the bottom surface of the expansion plate 22 to increase the contact area to the bottom to stabilize the settled state when the device is installed on the work table.

And the fixing means 30 is a pneumatic cylinder 32 for pressing the upper surface of the yoke plate 82 by the shaft 36, the pneumatic cylinder 32 is fixed to the support 20 with a holder 34 And a valve 40 connected to the pneumatic cylinder 32 by a pneumatic pipe 44 to extrude or suck air by the operation of the switch 42, optionally pressurizing or depressurizing the upper side of the yoke plate 82. Do it. In addition, the front end of the shaft 36 of the pneumatic cylinder 32 is formed with a plate 38 that is seated on the upper surface of the yoke plate 82 so as to stably press the large area of the yoke plate 82.

The tilt adjustment means 50 stages the gornea stage 52 for pressing the upper side of the suspension PCB 94 fixed to the optical pickup yoke plate 82 and correcting the assembly state, and the gornea stage 52. It consists of a pneumatic cylinder 32 for moving up and down, and a valve 40 for providing pneumatic pressure to the pneumatic cylinder (32).

In the above, the pneumatic cylinder 60 is connected to the senior stage 52 by the shaft 64 and is fixed to the support 18 by the holder 62 so that only the senior stage 52 flows up and down. The valve 66 is connected to the pneumatic cylinder 60 by a pneumatic pipe 70, and optionally has a switch 68 for extruding or sucking air in the pneumatic pipe 70.

The senior stage 52 has an upper stage 56 connected to the shaft 64 of the pneumatic cylinder 60 and a lower stage 58 coupled to the upper stage 56 and in contact with the upper side of the suspension PCB 94. ) And an adjustment lever 54 for adjusting the lower stage 58 to be inclined to one side from the upper stage 56. The scale 59 is displayed on the lower stage 58 and the upper stage 56, so that the lower stage 58 can be tilted by a predetermined angle.

Hereinafter, the operation of the tilt adjusting device of the optical pickup actuator having the above configuration will be described.

The optical pickup actuator 80 to adjust the tilt is provided with a suspension wire (coil 96) fixed to the lens holder 88 fixing the objective lens 86 and a suspension PC 94 fixed to the yoke plate 82. When the both ends of the lens 90 are connected, the tilt amount of the lens holder 88 supported by the suspension wire 90 is measured in advance, and the tilt amount of the lens holder 88 is exceeded. Work on correcting the tilt.

In this case, as shown in FIG. 4, the through holes 84 formed in the yoke plate 82 of the optical pickup actuator 80 are fitted to the bosses 14 formed in the base 12 of the support means 10. The yoke plate 82 is seated on the upper surface of the base 12. The adjustment spherical surface 85 protruding from the bottom of the yoke plate 82 enters the groove 16 formed in the base 12 and does not interfere with the seating of the yoke plate 82.

When the yoke plate 82 is seated on the base 12 in this manner, the switch 42 of the valve 40 of the fixing means 30 is turned on to apply pneumatic pressure to the pneumatic cylinder 32 through the pneumatic pipe 44. do. Accordingly, the shaft 36 of the pneumatic cylinder 32 extends downward, and the plate 38 formed at the tip of the shaft 36 presses the upper surface of the yoke plate 82 seated on the base 12 to yoke the plate. The 82 is firmly fixed to the base 12. Since the pneumatic cylinder 32 is fixed to the support 20 by the holder 34, the position does not flow while the shaft 36 presses the yoke plate 82.

When the yoke plate 82 is firmly fixed as described above, the pneumatic cylinder 60 connected to the valve 66 by the pneumatic pipe 70 is turned on by turning on the switch 68 of the valve 66 of the tilt adjusting means 50. ) To pneumatically. As a result, the shaft 64 of the pneumatic cylinder 60 extends downward, and the gorne stage 52 connected to the tip of the shaft 64 moves downward, and the lower stage 58 is seated on the base 12. It comes into contact with the suspension PCB 94 fixed to the yoke plate 82. Since the pneumatic cylinder 60 is fixed to the support 18 by the holder 62, the position does not flow while the shaft 64 presses the suspension PC 94.

The suspension PC 94 is fixed together with a gel holder 92 for damping the suspension wire 90. The lower stage 58 of the gornea stage 52 is in contact with the gel holder 92 together. Done.

Since the suspension PC 94 and the gel holder 92 in contact with the lower stage 58 of the gornea stage 52 have a tilt at an inclined angle, the bottom surface of the lower stage 58 may have a suspension PC ratio ( 94) and inclined contact along the upper surface of the gel holder 92.

According to the tilt angle θ of the objective lens 86 of the optical pickup actuator 80 measured in this state in advance, turn the adjustment lever 54 of the gonier stage 52 by θ ° along the scale 59. The lower stage 58 is tilted at an angle θ. Accordingly, since the suspension PCB 94 and the gel holder 92 which are in contact with the lower stage 58 are under pressure by the lower stage 58, the suspension PCB 94 and the gel holder 92 are fastened to the second yoke 98 of the yoke plate 82. The screw is rotated at an angle θ along the lower stage 58 about the screw.

When the suspension PC 94 and the gel holder 92 are rotated as described above, the objective lens 86 supported by the suspension wire 90 whose one end is fixed to the suspension PC 94 is also at an angle θ. By rotating, the tilt is corrected.

When the tilt of the lens holder 88 is corrected as described above, the pneumatic cylinder 60 connected to the valve 66 by the pneumatic pipe 70 is operated by operating the switch 68 of the valve 66 of the tilt adjusting means 50. ) Inhale air. As a result, the shaft 64 of the pneumatic cylinder 60 is contracted upward, the gorne stage 52 connected to the tip of the shaft 64 is moved upward, and the lower stage 58 is seated on the base 12. The suspension PCB 94 and the gel holder 92 fixed to the yoke plate 82 are separated.

Subsequently, the switch 42 of the valve 40 of the fixing means 30 is operated reversely to suck in the air of the pneumatic cylinder 32 connected to the valve 40 by the pneumatic pipe 44. As a result, the shaft 36 of the pneumatic cylinder 32 is contracted upward, and the plate 38 formed at the tip of the shaft 36 is separated from the upper surface of the yoke plate 82 fixed to the base 12.

Accordingly, the optical pickup actuator 80 after the tilt correction operation is removed from the base 12 of the apparatus, and the new optical pickup actuator 80 is seated on the base 12 to correct the tilt by the method described above. When the tilt correction operation for the optical pickup actuator 80 is completed, the switches 42 and 68 of the valves 40 and 66 are turned off to stop the operation of the pneumatic cylinders 32 and 60.

On the other hand, the optical pickup actuator 80 whose tilt has been corrected by this apparatus is supported by the lens holder 88 in a horizontal state with respect to the yoke plate 82, so that the recording of the actual disc is carried out with such optical pickup actuator 80. When the lens holder 88 is driven in the focus direction during reproduction, the lens holder 88 is driven in the direction of the optical axis which is exactly vertically upward so as not to cause a tracking error that has conventionally occurred in the focus formed by the objective lens 86. do.

As described in the above embodiment, the present invention is to the fixing means 30 and the yoke plate 82 for pressing and fixing the upper side of the support means 10 and the yoke plate 82 on which the yoke plate 82 is seated. A tilt adjusting device of the optical pickup actuator composed of tilt adjusting means 50 for pressing the upper side of the fixed suspension PC 94 to correct the assembly state of the suspension PC 94, wherein the tilt of the lens holder 88 is corrected. Since it is supported in a horizontal state with respect to the yoke plate 82, it drives in the optical axis direction which is exactly vertically upward when the lens holder 88 is driven in the focus direction during recording of the actual disc, and thus the objective lens 86 The tracking error generated in the above does not generate a tracking error that has conventionally occurred, thereby reducing the power consumption of the tracking coil 99.

Claims (7)

In the tilt adjustment apparatus of the optical pickup actuator 80, in which the lens holder 88 for fixing the objective lens 86 is supported by the suspension PCB 94 fixed to the yoke plate 82 by the suspension wire 90, A support means (10) having a groove (16) into which an adjustment sphere (85) formed at a bottom of the yoke plate (82) is inserted into a base (12) on which the yoke plate (82) is seated; Fixing means 30 is installed on the support 20 formed on one side of the base 12 of the support means 10 for pressing and fixing the upper side of the yoke plate 82, It is installed on the support 18 formed on the other side of the base 12 of the support means 10 to press the upper side of the suspension PCB 94 fixed to the yoke plate 82 to correct the assembly state of the suspension PCB 94. Tilt adjustment device of the optical pickup actuator, characterized in that consisting of a tilt adjustment means (50). 2. The boss of claim 1, wherein a plurality of bosses (14) are inserted into the through holes (84) of the yoke plate (82) to fix the position of the yoke plate (82) on the upper surface of the base (12) of the support means (10). Tilt adjustment apparatus of the optical pickup actuator, characterized in that formed. The tilt adjustment apparatus of claim 1, wherein an extension plate (22) is formed on the bottom of the base (12) of the support means (10) to increase the contact area with respect to the bottom. The pneumatic cylinder (32) of claim 1, wherein the fixing means (30) fixes the pneumatic cylinder (32) for pressing the upper surface of the yoke plate (82) with the shaft (36) to the support (20) with the holder (34). And a valve (40) connected to (32) by a pneumatic pipe (44) to extrude or suck air by the operation of the switch (42). 5. The tilt adjustment device of the optical pickup actuator according to claim 4, wherein a plate (38) seated on an upper surface of the yoke plate (82) is formed at the tip of the shaft (36) of the pneumatic cylinder (32). The gorge stage 52 of claim 1, wherein the tilt adjustment unit 50 presses an upper side of the suspension PCB 94 fixed to the optical pickup yoke plate 82 and corrects the assembly state. A pneumatic cylinder 60 connected to the stage 52 by a shaft 64 and fixed to the support 18 by a holder 62 so as to move the senior stage 52 up and down, and the pneumatic cylinder 60. Tilt adjustment device of the optical pickup actuator, characterized in that consisting of a valve (66) connected to the pneumatic pipe (70) to extrude or suck air by the operation of the switch (68). The upper stage 56 is connected to the shaft 64 of the pneumatic cylinder 60 and the upper stage 56 is coupled to the upper stage 56 to the upper side of the suspension PC (94). And an adjustment lever (54) for adjusting the lower stage (58) in contact with the lower stage (58) and the lower stage (58) to be inclined to one side from the upper stage (56).

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