KR100640565B1 - Optical pickup assembly and method for assembling thereof - Google Patents

Abstract

An optical pickup assembly according to the present invention includes a base having a light source installed thereon, a yoke plate positioned above the base and having a magnet installed thereon, a bobbin provided with an objective lens for focusing light emitted from the light source onto a disk, and A coil member installed to drive the bobbin by electromagnetic interaction with the magnet, a suspension wire having one end fixed to the bobbin so that the bobbin floats and flows against the yoke plate, and the other end of the suspension wire is In having a holder fixed, the holder is fixed directly to the yoke plate, and the yoke plate is joined to the base by soldering. Therefore, by directly installing the holder for supporting the bobbin through the suspension wire to the yoke plate provided with the magnet, a separate holder plate for fixing the holder and adjusting the position of the bobbin is not required, thereby reducing the number of parts.

Description

Optical pickup assembly and method for assembling

1 is a schematic perspective view of a conventional optical pickup assembly;

2 is an exploded perspective view of the optical pickup assembly shown in FIG. 1;

3 is a view for explaining the position and angle adjustment process of the holder plate shown in FIG.

4 is a schematic perspective view of an optical pickup assembly according to an embodiment of the present invention;

5 is a schematic exploded perspective view of the optical pickup assembly shown in FIG. 4;

6 is a view for explaining the position and angle adjustment process of the yoke plate shown in FIG.

<Explanation of symbols for the main parts of the drawings>

50 ... base 51 ... frame

52 ... light source 54 ...

60 yoke plate 61 yoke part

62.Magnet 63.Extrusion

64 ... screwdriver 80 ... bobbin

81.Objective lens 82.Coil member

85.Suspension wire 70 ... Holder

71 ... Through hole J ... Adjustable jig

The present invention relates to an optical pickup assembly and an assembly method thereof, and more particularly, to an optical pickup assembly and an assembly method thereof, in which an installation structure of a holder for supporting a bobbin and a method of assembling a yoke plate on a base are improved.

In general, various optical disk players such as a compact disc player (CDP) or a CD-ROM drive are irradiated with a laser beam on a disk to detect a laser beam reflected from the disk and electrically An optical pickup assembly is provided which converts the signal to reproduce the recorded contents on the disk surface.

1 and 2 show a conventional optical pickup assembly.

Referring to the drawings, a conventional optical pickup assembly includes a base 1, a yoke plate 10, a holder plate 20, a holder 30, and a bobbin 40.

The base 1 is provided with a light source 2 for generating a laser beam and a reflector 3 for changing the path of light emitted from the light source 2.

The yoke plate 10 is fastened and fixed to the base 1 with a screw 19, and has a plurality of yoke portions 11 and coupling pieces 13 formed by press working. A magnet 12 is fixed to each of these yoke portions 11.

The holder plate 20 is located above the yoke plate 10 and has an adjustment hole 22 provided to determine the position of the screw hole 21 for fixing the holder 30 and the bobbin 40. Equipped with. In addition, the holder plate 20 is formed with a protruding piece 23 for soldering to the coupling piece 13 of the yoke plate 10. The holder 30 is fixed to the holder plate 20 by screws 39 fastened to the screw holes 21 of the holder plate 20.

The bobbin 40 is supported at one end of the suspension wire 45, and the other end of the suspension wire 45 is fixed to the holder 30. An upper portion of the bobbin 40 is provided with an objective lens 41 for focusing the light emitted from the light source 2 installed in the base 1 to the disk, the coil member 42 is provided on the side. The suspension wire 45 is electrically connected to the coil member 42 to supply a current to the coil member 42 and to support the bobbin 40 to maintain the floating state with respect to the yoke plate 10. It will play a role.

Referring to the assembly process of the conventional optical pickup assembly configured as described above are as follows.

First, the yoke plate 10 is fixed to the base 1 with screws 19 in the state shown in FIG. 2, and both ends of the suspension wire 45 are fixed to the bobbin 40 and the holder 30, respectively. The holder 30 is fixed to the holder plate 20 using the screw 39.

Then, the holder plate 20 to which the holder 30 is fixed is brought into close proximity to the position to be coupled above the yoke plate 10, that is, to the position where the protruding pieces 23 face the coupling pieces 13. After that, as shown in FIG. 3, the adjustment jig J is inserted into the adjustment hole 22 of the holder plate 20, and the holder plate 20 is clamped by the adjustment jig J, so that the yoke plate ( 10) It is in an injured state.

Next, when a current is supplied to the light source 2 provided in the base 1, the light emitted by the light source 2 is incident on the disk D through the reflector 3 and the objective lens 41, The reflected light reflected from the disk D is detected by a photodetector (not shown). At this time, when the output value detected by the photodetector is out of the desired range, the holder plate 20 and the holder plate 20 clamped to the adjustment jig J while changing the position and angle of the adjustment jig J. ) While checking the output value of the photodetector while adjusting the position and angle of the holder 30 and the bobbin 40 supported by.

As such, when the output value is within the desired range in the process of checking the output value, the position and angle change of the adjusting jig J are completed, and the protrusion piece 23 of the holder plate 20 and the yoke plate 10 are combined. The piece 13 is soldered to fix the holder plate 20 to the yoke plate 10.

By the way, according to the conventional optical pickup assembly as described above, since a separate holder plate 20 is required to fix the holder 30 for supporting the bobbin 40, the number of parts is increased to increase the manufacturing cost There is a disadvantage.

In addition, the yoke plate 10 is fixed to the base 1, and the bobbin 40 provided with the objective lens 41 is installed on the holder plate 20 by the holder 30. When the optical position and angle of the light source 2 installed in the light source 2 and the objective lens 41 installed in the holder plate 20 are adjusted, as shown by the virtual line in FIG. The relative position of the magnet 12 installed on the plate 10 and the coil member 42 provided on the bobbin 40 is inclined as compared with before the adjustment operation. As such, when the coil member 42 of the bobbin 40 is installed in an inclined state with respect to the magnet 12, the coil member 42 having an electromagnetic field is formed in the process of regenerating the disk D. As a result, the objective lens 41 provided on the upper portion of the bobbin 40 does not focus the laser light accurately on the surface of the disk D. Therefore, there is a problem in that the data recorded on the disc D cannot be read quickly and accurately.

The present invention was created in view of the above problems, and directly installs a holder for supporting the bobbin to the yoke plate, and fixes the yoke plate to the base in a state in which the magnet installed on the yoke plate and the coil member installed on the bobbin are positioned. It is an object of the present invention to provide an optical pickup assembly and an assembly method of which the assembly method is improved.

In order to achieve the above object, the optical pickup assembly of the present invention includes a base on which a light source is installed, a yoke plate positioned above the base, and a magnet is installed, and an objective lens for focusing light emitted from the light source onto a disk. A bobbin, a coil member installed on the bobbin and driving the bobbin by electromagnetic interaction with the magnet, and a suspension wire having one end fixed to the bobbin so that the bobbin can float and flow against the yoke plate. And a holder to which the other end of the suspension wire is fixed, wherein the holder is directly fixed to the yoke plate, and the yoke plate is coupled to the base by soldering.

In addition, the assembly method of the optical pickup assembly according to the present invention in order to achieve the above object comprises the steps of providing a base in which the light source is installed; Providing a yoke plate provided with a magnet; Providing a bobbin provided with an objective lens and a coil member; Fixing one end of the suspension wire to the bobbin and fixing the other end to the holder; Securing the holder to the yoke plate; Positioning the yoke plate on which the holder is fixed above the base and driving the light source to change the position and angle of the yoke plate with respect to the base such that the light emitted from the light source is accurately bound to the disc by the objective lens; And fixing the yoke plate to the base after determining the position and angle of the yoke plate. Characterized in that it comprises a.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 and 5, the optical pickup assembly according to the exemplary embodiment includes a base 50, a yoke plate 60, a holder 70, and a bobbin 80.

The base 50 may include a frame 51 manufactured by an aluminum die casting method, a light source 52 installed on the frame 51 to generate laser light, and a path of light emitted from the light source 52. A reflecting mirror 53 is provided. In addition, the base 50 is provided with a coupling piece 54 coupled to both ends of one side of the frame 51 by screws 59.

The yoke plate 60 is manufactured by pressing a metal plate and positioned above the base 50. Through-holes 601 are formed in the central portion of the yoke plate 60 to allow laser light emitted from the light source 52 provided in the base 50 to pass therethrough, and are pressed into both sides of the through-holes 601. Protruding pieces 63 are provided at positions close to the plurality of yoke portions 61 formed integrally with the coupling pieces 54 of the base 50. Magnets 62 are adhered to and fixed to each of the yoke portions 61.

In addition, a plurality of holes are formed at one side of the yoke plate 60, and these holes are formed to adjust the installation angles of the screw hole 64 and the yoke plate 60 for fixing the holder 70. Adjustment hole 65.

The holder 70 is for supporting the bobbin 80 and is fixed to the yoke plate 60 by a screw 79 fastened to a screw hole 64 formed in the yoke plate 60.

The bobbin 80 is manufactured by injection molding a plastic material, and is disposed above the yoke plate 60. The bobbin 80 is coupled with the objective lens 81, the coil members 82, and the suspension wire 85.

The objective lens 81 is installed above the bobbin 80 and focuses the laser light emitted from the light source 52 to enter the disk D (see FIG. 6). The coil members 82 are installed on the side of the bobbin 80 to face the magnets 62. Four suspension wires 85 are provided and support the bobbin 80 so that the bobbin 80 is movable while maintaining the floating state with respect to the yoke plate 60. One end of each suspension wire 85 is coupled to the bobbin 80 and electrically connected to the coil member 82, and the other end is soldered to the holder 70. The coil members 82 are changed by a current supplied from the outside through the suspension wire 85 so that the bobbin 80 may move by electromagnetic interaction with the magnet 62 facing each other.

Hereinafter, the assembly process of the optical pickup assembly according to an embodiment of the present invention configured as described above will be described in detail with reference to the drawings.

5 and 6 illustrate an exploded perspective view of the optical pickup assembly shown in FIG. 4 and a process of adjusting the position and angle of the yoke plate with respect to the base.

First, as shown in FIG. 5, the base 50 coupled with the screw piece 59 to the coupling piece 54 on the frame 51 on which the light source 52 and the reflector 53 are installed, and the magnet 62 are installed. The yoke plate 60, the bobbin 80 provided with the objective lens 61 and the some coil member 82 is provided.

Then, one end of each of the four suspension wires 85 is coupled to the bobbin 80 to be electrically connected to the coil member 82, and the other end of the suspension wire 85 is soldered to the holder 70. Next, the bobbin 80 is placed on the yoke plate 60 while the holder 70 and the bobbin 80 are joined by the suspension wire 85, and the holder 70 is removed from the yoke plate 60. The screw 79 is fastened to the thread hole 64 and fixed to the yoke plate 60.

6, the yoke plate 60 is positioned above the base 50 and the adjustment jig J is inserted into the adjustment hole 65 to maintain the yoke plate 60 in an injured state. do. And the position and angle of the yoke plate 60 are adjusted, changing the position and angle of the adjustment jig J. As shown in FIG.

This adjustment is performed by supplying a current to the light source 52 installed in the base 50, and the light emitted by the light source 52 is incident on the disk D through the reflector 53 and the objective lens 81. The output value of the reflected light reflected from the disk D is detected by a photodetector (not shown). At this time, if the output value detected by the photodetector falls within the desired setting value, the adjustment operation is stopped. If the output value detected by the photodetector is out of the desired range, the position and angle of the adjusting jig J are changed. While adjusting the position and angle of the yoke plate 60 fitted to the adjustment jig J, the bobbin 80 supported by the yoke plate 60, and the objective lens 81, respectively.

As such, as the position and angle of the objective lens 81 are changed, the output value detected by the photodetector is also changed, and the adjusting operation of the adjusting jig J is performed while the changed output value is within the range of the desired setting value. 4, the protruding pieces 63 formed on the yoke plate 60 are soldered to the coupling pieces 54 of the base 50, and the yoke plate 60 is attached to the base 50, as shown in FIG. 4. Fix it.

On the other hand, since the bobbin 40 provided with the objective lens 81 and the coil member 82 is supported by the holder 30 and the holder 30 is installed in the yoke plate 60, the objective lens 81 is Position fixed with respect to the yoke plate 60 and the coil member 82 is also fixed to the magnet 62 provided in the yoke plate 60. As described above, the objective lens 81 and the nose portion 82 are fixed to the yoke plate 60 through the objective lens 81 from the light source 52 provided in the base 50. When the laser beam is incident on the disk D and the position and angle of the adjusting jig J are changed, the optical path from the light source 52 via the objective lens 81 is changed, and is installed on the yoke plate 60. The position and angle of the coil member 82 provided on the bobbin 80 together with the magnet 62 are also changed.

As a result, even if the position of the yoke plate 60 is changed to change the optical path passing through the objective lens 81, as shown by the virtual line in FIG. 6, the magnet 62 provided in the yoke plate 60 and The relative position of the coil member 82 provided on the bobbin 80 is not changed. Therefore, the positional change of the position of the yoke plate 60 and the position of the coil member 82 of the bobbin 80 and the magnet 62 of the yoke plate 60 by the operation of adjusting the position of the yoke plate 60 does not occur. This can be precise.

As described above, the optical pickup assembly and the assembly method thereof according to the present invention have the following effects.

By directly installing the holder supporting the bobbin through the suspension wire on the yoke plate provided with the magnet, there is no need for a separate holder plate for fixing the holder and adjusting the position of the bobbin, thereby reducing the number of parts.

In addition, in the state in which the holder including the objective lens and the coil member is installed in the yoke plate provided with the magnet, the position and angle of the yoke plate are changed to determine the optical position via the light source of the base and the objective lens installed in the bobbin. Even if it does so, the relative position of the coil member provided in a bobbin and the magnet provided in a yoke plate will not change. Therefore, the optical pickup assembly can be accurately assembled so that the positional change between the coil member and the magnet does not occur in the process of adjusting the position and angle of the objective lens, thereby reducing the malfunction caused by the optical pickup assembly.

Claims (5)

A base having a light source installed thereon, a yoke plate positioned above the base and having a magnet installed thereon; a bobbin provided with an objective lens for focusing the light emitted from the light source onto a disc; and an electromagnetic field of the bobbin provided with the magnet. An optical pickup assembly having a coil member for driving a bobbin by interaction, a suspension wire having one end fixed to the bobbin so that the bobbin can float and float against the yoke plate, and a holder for fixing the other end of the suspension wire. To The holder is fixed directly to the yoke plate, And the yoke plate is coupled to the base by soldering in a state where the position and angle of the bobbin supported by the yoke plate and the yoke plate and the objective lens are adjusted with respect to the base. The method of claim 1, The holder is formed with a through hole penetrated in the vertical direction, the yoke plate is formed with a screw hole, The optical pickup assembly, characterized in that the holder is fixed to the yoke plate by a screw that is fastened to the screw hole through the through hole of the holder. The method of claim 1, Protruding pieces integrally formed on both sides of the yoke plate, A pair of engaging pieces provided on the base to face the projecting pieces of the yoke plate, And the yoke plate is fixed to the base by soldering the coupling piece and the protrusion piece. Providing a base on which a light source is installed; Providing a yoke plate provided with a magnet; Providing a bobbin provided with an objective lens and a coil member; Fixing one end of the suspension wire to the bobbin and fixing the other end to the holder; Securing the holder to the yoke plate; Positioning the yoke plate on which the holder is fixed above the base and driving the light source to change the position and angle of the yoke plate with respect to the base such that the light emitted from the light source is accurately bound to the disc by the objective lens; And Fixing the yoke plate to the base by soldering after determining the position and angle of the yoke plate; Assembly method of an optical pickup assembly comprising a. delete

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