KR100190568B1 - Bonding injecting device of tracking coil for optical pickup - Google Patents

Abstract

The present invention relates to a bond injection apparatus for a tracking adjusting coil for an optical pickup, in which a support plate (80) formed by recessing a fixing hole (82) in which a fixing shaft (54) A supporting member 70 projecting upward from the side and supporting the bottom of the case 50 and a hinge 84 connected to the supporting plate 80 of the supporting member 70, And a tracking adjusting coil 64 attached to one side of the objective lens holder 60 by the rotation of the rotation plate 80. The tracking adjusting coil 64 is attached to the end of the objective lens holder 60, After the bond is injected into the outer circumferential surface of the objective lens holder 60 by the bond injector 100, the support member 60 is rotated to rotate the objective lens holder 60 in order to inject the bond into the tracking adjusting coil 64 adhered to the other objective lens holder 60 And an objective lens rotating member (110) provided on the optical disc Racking adjustment Bond injector of the coil Focusing Coil The tracking adjustment coil attached to the outer circumference of the adjusting coil is automatically rotated by injecting the bond with the bond injector so that the objective holder is automatically rotated so that the application of the bond is performed quickly And is an extremely useful and effective invention for improving the assemblability and productivity of the optical pickup.

Description

Bond injector of tracking adjusting coil for optical pickup

The present invention relates to an apparatus for attaching a tracking adjusting coil for an optical pickup actuator to an outer circumferential surface of a focusing adjusting coil by means of a UV-bond. More particularly, the present invention relates to a multi- And a bender injector of a rotating plate which is rotated by a hinge is inserted to fit the objective lens holder fixed to the case to the rotation of the objective lens rotating member The knob is rotated and the bond supplied to the tube is scanned and fixed to the outer circumferential surface bonded to the outer circumferential surface of the focusing coil so that the bond injecting operation can be carried out simply and conveniently to improve the assemblability and productivity of the optical pickup To a bond injection apparatus for a tracking adjusting coil for an optical pickup .

Generally, inside a device such as a mini disc player (MD) and a compact disc player (CDP) or a laser disc player (LDP) which uses an optical disc as a recording medium is installed in a vertically downward direction of the disc, There is provided a hologram element for detecting a desired track position on a disc while moving and converting reflected light of a laser beam incident on a pit of the disc into a signal to reproduce recorded contents recorded on the disc. The objective lens for converging the laser beam so that the reflected light of the laser beam reflected from the pit of the disk can be exactly incident on the hologram element via the half mirror is focused on the optical axis direction or the optical axis direction by the actuator, And is finely moved in the direction of the arrow.

As shown in Fig. 1, the actuator for finely moving the objective lens as described above has a structure in which the optical axis of the objective lens holder 24, on which the light transmission hole is formed so that the objective lens 25 is inserted, So that the objective lens 25 is moved in the radial direction of the optical axis to both ends of the focusing adjusting coil 20. The objective lens 25 The tracking control coil 22 and the tracking control coil 22 are attached to the coil cover 19 and the suspension coil 16 and the holder gel 20, Line suspension wire 18 connected to the four-wire suspension wire 19 via the connecting rod 19 are fixed to each other so that the objective lens holder 24 is fixedly supported between the permanent magnets 12 of the yoke plate 10, The power required for driving the washing adjusting coil 20 and the tracking adjustment coil 22 is to be applied from the outside.

On the other hand, as described above, by being magnetized by an external power source wound on the side surface of the objective lens holder 24 and supplied through the suspension wire 18, it moves finely in the direction of the optical axis by combination with the actuator permanent magnet 12 On the other hand, the focusing adjusting coil 20, which is adapted to adjust the tracking of the objective lens 25, is constructed by winding the wire several times on the side surface of the objective lens holder 24, which is usually shaped like a rectangle. 2, when the focusing adjusting coil 20 having a conventional structure is wound, the focusing adjustment coil 20 has a very small diameter, and the number of times of retraction of the focusing adjusting coil 20 is set at one side of the front side A display window 31 for indicating the number of revolutions of the driving motor is attached to the lower portion of the housing, And an objective lens 32 which is rotated at the center in accordance with the operation of the driving motor and which requires the focusing adjustment coil 20 to be wound by the fixing protrusion 35A formed at the tip end, The focusing adjusting coil 20 constituting the optical pick-up actuator is wound by the focusing adjusting coil winder 30 having the structure in which the drive shaft 35 for fixing the holder 24 is protruded to the outside.

When the focusing adjusting coil 20 is to be wound on the side surface of the objective lens holder 24 by such a focusing adjusting coil winder 30 as described above, the fixing projections 35A formed on the tip of the driving shaft 35, The objective lens holder 24 is fixed by inserting the objective lens holder 24 inside the focusing adjustment coil 20 and the objective lens holder 24 requiring the winding of the focusing adjustment coil 20 is fixed. After specifying the number of windings of the focusing adjusting coil 20, the wire is manually wound around the side of the objective lens holder 24 several times to prevent unwinding of the wire supplied from the outside, and the focusing adjusting coil winder 30 to rotate the driving shaft 35 a predetermined number of times to thereby rotate the focusing adjusting coil 20 that matches the characteristics of the optical pickup actuator.

As described above, after the focusing adjustment coil 20 is wound on the outer peripheral surface of the objective lens holder 24, as shown in FIG. 1, the permanent magnets 12 provided on the yoke plate 10 And the four tracking adjusting coils 22 are pressed by a manual operation so that tracking adjustment is performed on the outer peripheral surface of the focusing adjusting coil 20 by applying a uvy bond to the surface of the focusing adjusting coil 20 provided on the outer circumferential surface of the objective lens holder 24, An assembling operation for bonding the coil 22 was performed.

However, when winding the focusing adjustment coil 20 in the state where the objective lens holder 24 is directly fixed to the tip end of the drive shaft 35 as described above, both side surfaces of the objective lens holder 24 are wound around the take- The drive shaft 35 is rotated to rotate the objective lens holder 24 while rotating the objective lens holder 24 on the outer peripheral surface of the objective lens holder 24 after the objective lens holder 24 is inserted into the fixing projections 35A and 35B protruding from the bottom surface of the drive shaft 35 The tracking adjusting coil 22 is adhered and fixed around the focusing adjusting coil 20 and the tracking adjusting coil 22 is adhered and fixed to the outer circumferential surface of the focusing adjusting coil 20, 22 to the outer circumferential surface of the focusing coil 20 is further applied to the tracking adjusting coil 22 which is in a state of being adhered to the outer circumferential surface of the focusing coil 20 so as to be firmly fixed Adhesive fixing Although the take yubeuyi bond can write a lot of place because the bonding work Work task of injecting there is a problem such that the assembling and productivity of the optical pick-up decreases.

SUMMARY OF THE INVENTION In view of the foregoing, it is an object of the present invention to provide a multi-stage retractor for retracting a focusing adjustment coil on an outer circumferential surface of a plurality of objective lens holders by inserting a fixing shaft of a multi- The objective lens holder fixed to the case is rotated by rotating the rotary knob of the objective lens rotating member while inserting a bond injector of a rotating plate rotated by a hinge after the lens holder is placed on the holding member, and the bond supplied to the tube is moved to the outer peripheral surface of the focusing adjusting coil It is an object of the present invention to improve the assemblability and productivity of the optical pickup by performing the bond injection operation simply and conveniently by injecting and fixing the bonded outer circumferential surface again.

This object is achieved by a multi-stage winding device for winding a focusing coil on an outer circumferential surface of an objective lens holder sandwiched between rotating slave shafts, characterized in that a support plate, which is formed by recessing a fixing hole, A rotation plate protruding from the support plate for supporting the bottom of the case, a rotation plate rotated by a hinge connected to the support plate of the support member and provided with a fitting hole through which a bond injector connected to the tube is inserted, After the bond is injected onto the outer circumferential surface of the tracking adjusting coil attached to one side of the lens holder, the bond is injected onto the supporting member so as to rotate the objective lens holder to inject the bond into the tracking adjusting coil bonded to the other objective lens holder The tracking control coil for optical pickup comprising the objective lens rotating member By providing it is achieved.

1 is an exploded perspective view of a general wire type optical pick-up actuator.

2 is an external perspective view of a conventional focusing adjusting coil winder.

3 is an external perspective view of a bond injection device of a tracking adjusting coil according to the present invention.

FIG. 4 is an exploded perspective view of the essential part of the bond injection device of the tracking adjusting coil according to the present invention. FIG.

5 is a view showing a state of use in which a case of a kedaxary winding device is installed in a bond injection device of a tracking adjusting coil for an optical pickup according to the present invention.

6 is a view showing an operating state of an objective lens rotating member of a bond injection device of a tracking adjusting coil according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

A: Multistage winding device 50: Case

60: objective lens holder 70: support member

72: Installation groove 74:

80: Support plate 82: Fixing hole

84: Hinge 90: Spindle

92: Insertion hole 100: Bond injector

102: tube 110: objective lens rotating member

120: rotation knob 122:

130: shaft support 136: fastening screw

140: spring 150:

152: threaded portion 154:

156: hanging jaw

3 to 6, a focusing control coil 62 is wound around the outer peripheral surface of an objective lens holder 60 fitted to a rotating driven shaft 56, A support plate 80 formed by recessing a fixing hole 82 in which a fixing shaft 54 protruding from one side of the case 50 is inserted is formed on one side of the case 50 so as to protrude upward A support member 70 for supporting the bottom of the case 50 and a bond injector 100 connected to the tube 102 by a hinge 84 connected to the support plate 80 of the support member 70, And a tracking adjusting coil 64 attached to one side of the objective lens holder 60 by rotation of the rotation plate 80. The bond injector 100 After the bond is injected into the objective lens holder 60 on the other side, the bond is applied to the tracking adjusting coil 64 adhered to the other objective lens holder 60 And an objective lens rotating member 110 provided on the supporting member 70 to rotate the objective lens holder 60 to receive the objective lens.

The bond injector 100 is configured such that the end portion is branched into two to simultaneously inject the bond onto the outer circumferential surface of the two tracking adjusting coils 64 bonded to one side of the objective lens holder 60.

The rotation plate 90 is coupled to the hinge 84 of the support plate 90 so as to withstand its own load so that the rotation position of the rotation plate 90 is arbitrarily determined.

The objective lens rotating member 110 is fixed to the upper surface of the supporting member 70 by a fixing screw 136 inserted into a through hole 134 formed at both ends of the mounting groove 72, A shaft support 130 which is fastened to the shaft support base 130 and is fastened to the shaft support base 130 and which is horizontally penetrated through the shaft support base 130; A rotation shaft 150 for rotating the objective lens holder 60 is formed with a fitting protrusion 154 that is fitted in the fitting groove 52 of the main coaxial shaft 54 protruding from the optical axis of the objective lens holder 60, A rotary knob 120 for rotating the rotary shaft 150 by screwing the threaded portion 124 of the fitting portion 122 into the threaded portion 152 formed on the opposite side of the rotary knob 120, A spring 140 installed on the outer circumferential surface of the rotary shaft 150 to push the rotary knob 120 to move the rotary shaft 150 to the shaft support 130, It consists of a.

And. A locking protrusion 156 is formed on the outer circumferential surface of the rotary shaft 150 to contact the side surface of the shaft support 130 to block the movement of the rotary shaft 150 so that the rotary shaft 150 is normally pulled toward the shaft support 130 State.

Hereinafter, the operation of the bond injection device of the tracking adjusting coil for an optical pickup according to the present invention will be described.

First, the assembling process of the present invention will be described. In the assembling process of the present invention, the shaft support 130, which is the objective lens rotating member 110, is mounted on the mounting groove 72, which is recessed on the upper surface of the receiving member 70, The shaft support 130 is fixed on the support member 70 while being prevented from being moved and the rotation shaft 150 is fixed to the shaft support 70 And the spring 140 is installed on the outer circumferential surface of the rotary shaft 150 through the threaded portion 152 of the rotary shaft 152. The engaging protrusions 156 formed on the outer circumferential surface of the rotary shaft 150 So that the rotary shaft 150 is prevented from moving backward.

In this way, in the state where the rotary shaft 150 is sandwiched, the threaded portion 152 is fastened to the thread groove 124 of the fitting portion 122 of the rotary knob 120 to rotate the rotary shaft 150 along the rotary knob 120 And a plurality of bond injectors 100 are connected to the tube 102 drawn out from the dispenser (not shown) so that the rotary plate 90 is rotatably assembled to the hinge 84 of the support plate 80 in a stiff state, (92) of the base plate (90).

When the assembling of the apparatus is completed, the focusing state of the objective lens holder 60 fixed on the driven shaft 56 of the multi-stage winding device A is adjusted to the focusing adjustment coil 62 The tracking adjusting coil 64 is adhered to the outer circumferential surface of the focusing adjusting coil 62 and the tracking adjusting coil 64 is applied again to the outer circumferential surface of the tracking adjusting coil 64 to apply the bond of the Yub to the tracking adjusting coil 64, So that the U-Bond coating operation firmly fixed to the outer peripheral surface of the focusing adjusting coil 62 is performed.

The objective lens holder 60 is fixed to the driven shaft 58 of the case 50 by a fixing shaft 58 projecting to one side of the case 50 of the multi- Is inserted into the fixing hole 82 that is recessed to the side of the support plate 80 so that the bottom portion of the case 50 is placed on the support member 70.

When the bond injector 100 is inserted into the fitting hole 92 of the rotary plate 90, the rotary plate 90 is rotated with respect to the hinge 84 of the support plate 80, (60) adhered to the driven shaft (56) of the objective lens holder (50).

In this state, when the unillustrated dispenser is operated to supply the U-bond to the bond injector 100 through the tube 102, the U-bond discharged to the two end portions of the bond injector 100 is separated from the two tracking And the adjustment coil 64, respectively, so that the immersion bond injection is primarily completed.

When the objective lens holder 60 is adhered to the tracking adjusting coil 64 adhered to the opposite side of the objective lens holder 60 as viewed from the rear side of the objective lens holder 60, The rotary knob 120 compresses the spring 140 so that the rotary shaft 150 is moved forward and the rotary shaft 150 is rotated by the rotary knob 120. As a result, Is fitted into the fitting groove 52 of the main coaxial shaft 54 protruding from the side surface of the case 50. As shown in Fig.

In this state, when the operator rotates the rotary knob 120 by hand, the rotary shaft 150 rotates the main shaft 54 of the case 50 to rotate the main shaft 54, which is coupled to the outer peripheral surface of the main shaft 54, The driven gear 570 coupled with the driven gear is rotated integrally so that the driven shaft 56 is caused to rotate together with the driven gear 56. When the driven shaft 56 rotates, The tracking adjustment coil 64 adhered to the opposite side of the objective lens holder 60 is moved to the end of the bond injector 100 by adjusting the amount of rotation of the rotary knob 120 by the operator's hand The rotation shaft 150 is pushed backward by the force of the spring 140 and the fitting protrusion 154 is separated from the fitting groove 52 of the main shaft 54 The main coaxial shaft 54 is not rotated and therefore the driven shaft 56 is not rotated, Still is fixed to the forward coil 64 is conditioned by non-illustrated by operating the dispenser so as to be applied to the injected bonding to bond the injector 100 to the outer peripheral surface of the tracking adjustment coil 64.

The case 50 of the multi-stage winding device A is separated from the supporting member 70 after all of the UV-bonding bonds are applied to the four tracking adjusting coils 64 bonded to the outer peripheral surface of the objective lens holder 60 The above-described process is repeated, and the tracking adjusting coil is bonded.

Therefore, by using the bond injection device of the tracking adjusting coil for an optical pickup according to the present invention, the fixing shaft of the multi-stage winding device for winding the focusing coils on the outer circumferential surface of the plurality of objective lens holders is supported by the support plate The objective lens holder fixed to the case is rotated by rotating the rotary knob of the objective lens rotating member and the tube is supplied to the tube Which is bonded to the outer circumferential surface of the focusing adjusting coil, is scanned on the outer circumferential surface of the focus adjusting coils to be bonded and fixed again, thereby simplifying and facilitating the bond injecting operation to improve the assemblability and productivity of the optical pickup.

Claims (5)

A multistage winding device (A) for winding a focusing adjusting coil (62) around an outer circumferential surface of an objective lens holder (60) sandwiched between rotating driven shafts (56) A support plate 80 formed by recessing a fixing hole 82 in which a fixing shaft 54 protruding from the one side of the case 50 is inserted is protruded upward on one side and supports the bottom surface of the case 50 The insertion hole 92 is provided with a receiving member 70 and a hinge 84 connected to the supporting plate 80 of the receiving member 70 to receive a bond injector 100 connected to the tube 102, And a tracking control coil 64 attached to one side of the objective lens holder 60 by the rotation of the rotation plate 90. After the bond is injected into the outer peripheral surface of the objective lens holder 60 by the bond injector 100, And an objective lens rotating member 110 provided on the receiving member 70 to rotate the objective lens holder 60 to inject the bond to the tracking adjusting coil 64 adhered to the objective lens holder 60 Wherein the tracking adjusting coil is made of a metal. 2. The apparatus according to claim 1, wherein the bond injector (100) is configured such that the end portion is branched into two portions so as to simultaneously inject the bond onto the outer circumferential surface of the two tracking adjusting coils (64) bonded to one side of the objective lens holder Of the tracking adjusting coil for an optical pickup. The hinge apparatus according to claim 1, wherein the rotary plate (90) is coupled to the hinge (84) of the support plate (90) so as to withstand its own load so that the rotary position of the rotary plate (90) Bond injector for tracking control coils for optical pickups. The objective lens rotating member (110) according to claim 1, wherein the objective lens rotating member (110) comprises a fixing screw (136) fitted in a through hole (134) formed at both ends thereof in a mounting groove (72) A shaft support base 130 which is fastened to the screw hole 74 and is horizontally penetrated and formed with a mounting hole 132 and a mounting hole 132 of the shaft support base 130, The objective lens holder 60 includes a rotation shaft 150 and a rotation shaft 150. The rotation shaft 150 rotates the objective lens holder 60. The rotation shaft 150 rotates the objective lens holder 60, A rotary knob 120 which rotates the rotary shaft 150 when the screw groove 124 of the fitting portion 122 is coupled to the screw portion 152 formed on the opposite side of the fitting projection 154 of the rotary knob 120, And is disposed on the outer circumferential surface of the rotary shaft 150 to push the rotary knob 120 to move the rotary shaft 150 to the shaft support 130. [ And a spring (140). ≪ RTI ID = 0.0 > 1 < / RTI > The optical pickup according to claim 4, wherein a locking step (156) is formed on the outer circumferential surface of the rotary shaft (150) to contact the side surface of the shaft support (130) to block the movement of the rotary shaft (150) Bond injector of adjusting coil.