KR100478869B1 - Object lens driving device - Google Patents

Abstract

Since each winding end of each drive coil was pulled out and connected to the land part of the fixing plate used as the fixing part of the support wire in a lens holder, the connection work was cumbersome.

Each of the winding start ends and the winding end portions of the winding end portions of the drive coils 3a, 3b, and 4a to 4d are wound with the lens holders. It installs in 1) and attaches each fixing plate 23 and 24 to which each support wire 20 is fixed to both sides of the lens holder 1, respectively. Each of the fixing plates has clamping portions 23a, 23b and 24a, 24b for fitting a predetermined locking portion, and each of the holding portions has land portions, soldered to these land portions, and each winding of the drive coil on each fixed plate. The end is connected.

Description

Objective lens driving device {OBJECT LENS DRIVING DEVICE}

The present invention relates to an objective lens driving apparatus in which a lens holder to which an objective lens is attached is elastically supported in a displaceable manner.

The objective lens driving device in the optical head which optically reads or writes signals to a signal recording medium such as a disk is generally an optical lens in which a lens holder with an objective lens is assembled with each optical element except the objective lens. It is supported so as to be displaceable with respect to the housing, and a driving coil, such as a focusing coil and a tracking coil, is mounted on the lens holder, and a predetermined portion of the driving coil is disposed in an effective magnetic flux formed by a magnetic circuit to be supplied to the driving coil. The objective lens is configured to drive the objective lens.

In the objective lens driving device, a configuration using a plurality of support wires is mainstream to displaceably and elastically support the lens holder with respect to the optical housing. In general, both ends of each support wire are fixed to the base and the lens holder, respectively. It is supposed to be.

By the way, since the drive signal is supplied to each of the focusing coil and the tracking coil mounted on the lens holder, it is necessary to connect each support wire to the respective winding end corresponding respectively.

Conventionally, the fixing plate which becomes the fixing part of the support wire in a lens holder is comprised by the printed wiring board, The fixing plate is affixed on both sides which sandwiched the objective lens of a lens holder, respectively, and one end of each supporting wire is attached to each fixing plate. And soldering each winding end of the drive coil to each support wire to each corresponding winding end.

In this case, conventionally, each winding end of each drive coil is drawn out to the land portion provided on the fixed plate and connected. Therefore, the connection work for connecting each winding end to each land portion of the fixed plate corresponding to the respective winding end is cumbersome. It was.

In addition, when the lens holder is displaced in the tracking direction due to an unbalanced weight balance, a driving force generated by an invalid portion of the tracking coil, or the like, a harmful rotational force is generated around the direction orthogonal to the optical axis of the objective lens.

In order to suppress the rotational force, it is effective to increase the rigidity of the upper support wire supported on the upper side of the lens holder compared to the rigidity of the lower support wire supported on the lower side of the lens holder, but conventionally the rigidity of the upper support wire and the lower support wire is Since the wire diameter of the support wire was changed in order to make it different, the workability was bad.

The present invention provides a lens holder with a plurality of locking fixing portions each of which is wound and fixed to the winding start end and the winding end of the winding end of each of the drive coils, and each support wire is soldered to the lens holder. Each fixing plate fixed to one side of each is attached to both sides of the lens holder with the objective lens in between. Each of the fixing plates has a holding portion sandwiching a predetermined locking fixing portion, and each of the holding portions has a land portion, and the holding portions held by the holding portions and the holding portions when soldered to these land portions. Hang on the government and solder each fixed end together. Thereby, each winding end of a drive coil is connected to each fixed plate, and each fixed plate is fixed to a lens holder.

In this case, the fixing range of each of the two supporting wires fixed to the respective fixing plates is made larger in the upper supporting wire than the lower supporting wire, and the effective length of the upper supporting wire is shorter than the effective length of the lower supporting wire. In this way, the rigidity of the upper support wire is made larger than that of the lower support wire.

1 is a plan view showing one embodiment of an objective lens driving apparatus according to the present invention, and FIG. 2 is an end view from the side of the objective lens driving apparatus shown in FIG.

In this figure, reference numeral 1 denotes a lens holder in which an objective lens 2 is mounted at the center, and the lens holder 1 is provided on both sides with the objective lens 2 mounted therebetween. The positions of the line symmetry with respect to the straight line passing through the optical axis of the first bobbin portion and the second bobbin portion become the first bobbin portion, and the focus coils 3a and the tracking coils 4a and 4b form the second bobbin portion. The focus coil 3b and the tracking coils 4c and 4d are respectively wound correspondingly.

Therefore, the space | interval between the said 1st and 2nd bobbin part becomes the space below the center part in which the objective lens 2 of the lens holder 1 is mounted.

The focus coils 3a and 3b are wound in a substantially rectangular shape with winding center axes in the optical axis direction of the objective lens 2 on the first and second bobbins in succession with one coil wire, respectively, and are connected in series.

In addition, the tracking coils 4a, 4b, and 4c, 4d each have a pair of coil wires successively paired with respect to one bobbin, each having a winding center axis orthogonal to the optical axis direction of the objective lens 2, and are substantially rectangular. Are wound and connected in series with each other.

Reference numerals 5 and 6 denote a pair of first permanent magnets, respectively, arranged so that one magnetic pole surface (N pole) of the same magnetic pole is opposite to each other with the first bobbin portion of the lens holder 1 interposed therebetween, and reference numerals 7 and 8 Is a pair of 2nd permanent magnets which are arrange | positioned so that one pole surface (N pole) of the same magnetic pole may mutually oppose the 2nd bobbin part of the lens holder 1 mutually.

External yokes 9 and 10 are attached to the first magnetic poles 5 and 6 on the other magnetic pole surface S pole, respectively, and the second permanent magnets 7 and 8 respectively have different yokes. External yokes 11 and 12 are attached to the magnetic pole surface S pole, respectively.

In addition, the magnetic pole surface (N pole) of one side of each of the first permanent magnets 5 and 6 is formed in a hole 13 formed in a central portion between the permanent magnets 5 and 6 of the lens holder 1. The inner yoke 14 disposed is opposed, and the first permanent magnets 5 and 6, the outer yokes 9 and 10, and the inner yoke 14 have one magnetic pole surface and the inner yoke of the permanent magnet 5. A first magnetic circuit portion is formed between the 14 and the magnetic pole surface of the permanent magnet 6 and the inner yoke 14, respectively.

The magnetic pole surface N pole of each of the second permanent magnets 7 and 8 is formed in a hole 15 formed in a central portion between the permanent magnets 7 and 8 of the lens holder 1. The inner yoke 16 disposed is opposite, and the second permanent magnets 7, 8, the outer yokes 11, 12, and the inner yoke 16 have one magnetic pole face and an inner yoke of the permanent magnet 7. A second magnetic circuit portion is formed between the 16 and the magnetic pole surface of the permanent magnet 8 and the inner yoke 16, respectively.

Surrounding the lens holder 1 by connecting the outer yoke (9, 10), outer yoke (10, 11), outer yoke (11, 12), outer yoke (12, 9), respectively, around the lens holder (1) Is composed of frames 17a to 17d, and the attachment portion 18 is extended from the frame 17d so that the objective lens driving mechanism is assembled at the attachment portion 18 except for the objective lens 2. It is attached to an optical housing (not shown).

A wiring board 19 is fixed to the attachment portion 18, and four supporting wires 20, one end of which is soldered and fixed to the wiring board 19, are attached to the lens holder 1 at the other end. It is fixed by soldering, whereby the lens holder 1 is elastically supported by the support wires 20 so as to be displaceable.

Each said support wire 20 is arrange | positioned in the groove | channel formed in the auxiliary member 21 fixed to the wiring board 19, respectively, and is damped by the damping agent filled in those groove | channels.

The objective lens driving device configured as described above can drive the objective lens 2 in the focus direction via the lens holder 1 in accordance with the focus control signal by supplying a focus control signal in series to the focusing coils 3a and 3b. By supplying a tracking control signal in series to the tracking coils 4a to 4d, the objective lens 2 can be driven in the tracking direction via the lens holder 1 in accordance with the tracking control signal.

Next, in the objective lens driving apparatus configured as described above, the main configuration of the present invention will be described in more detail with reference to Figs. 1, 2 and 3, which are developed perspective views showing the lens holder portion.

The lens holder 1 is integrally formed with locking fasteners 22a to 22d at the upper and lower portions of the central portions of both side ends, and the locking fasteners 22a to 22d are wound around the focusing coils 3a and 3b. Each winding end of the starting end and the winding end and each winding starting end of the tracking coils 4a to 4d and each of the winding end of the winding end are each tied and fixed independently.

Here, the insulation coating of the coil wire is peeled off at each winding end part which is hooked and fixed to each latch fixing part 22a-22d, respectively.

In addition, a fixing plate 23 having clamping portions 23a and 23b into which the upper and lower locking portions 22a and 22b are fitted to one side of the lens holder 1 is mounted from one side of the lens holder 1. The fixing plate 24 having clamping portions 24a and 24b for fitting the upper and lower locking fixing portions 22c and 22d on the other side is mounted from the other side of the lens holder 1.

The fixing plate 23 is fitted and attached to the lens holder 1 by bringing the locking fixing portions 22a and 22b into the state of being sandwiched by the holding portions 23a and 23b, and the fixing plate 24 is attached to the holding portion ( By engaging the locking fixing parts 22c and 22d by 24a and 24b, they are fitted and attached to the lens holder 1.

Each of the fixing plates 23 and 24 has land portions in the respective clamping portions 23a, 23b and 24a and 24b, and in the state of being attached to the lens holder 1, each land portion corresponding to each of the land portions is provided with a focusing coil ( By soldering together with the respective winding ends of the 3a, 3b and the tracking coils 4a to 4d, the respective winding ends are connected to the corresponding lands, and at the same time, the fixing plates 23 and 24 are fixed to the lens holder 1 do.

Two support wires 20 are disposed on both sides of the lens holder 1 with the objective lens 2 interposed therebetween, and two support wires 20 disposed on each side of the lens holder 1 respectively. Each of the fixing plates 23 and 24 is divided and soldered.

This soldering is performed simultaneously when soldering each land portion of each of the fixing plates 23 and 24 together with the respective winding ends corresponding to the respective land portions, and each of the two support wires 20 fixed to one fixing plate 23. The lower support wire is soldered directly to the land portion provided in the clamping portion 23b corresponding to the support wire, while the upper support wire is extended from the land portion provided in the clamping portion 23a corresponding to the support wire. The lower support wire of each of the two support wires 20 soldered to the expansion land part 25 continuously connected to the land part, and fixed to the other fixing plate 24, has a clamping part corresponding to the support wire ( The upper support wire is soldered directly to the land portion provided in 24b, and the lead wire is extended to the land portion 26 which is extended from the land portion provided in the clamping portion 24a corresponding to the support wire and continuously connected to the land portion. It is.

As described above, each of the supporting wires 20 is fixed to each of the fixing plates 23 and 24 by soldering so that each winding end of the focusing coils 3a and 3b and the tracking coils 4a to 4d respectively has a predetermined support wire 20. Is connected to.

Therefore, the focus control signal and the tracking control signal supplied to the wiring board 19 are supplied to the focusing coils 3a and 3b and the tracking coils 4a to 4d through the predetermined support wires 20, respectively.

In addition, since the fixing range of each of the two support wires 20 fixed to the fixing plates 23 and 24 is made larger in the upper support wire than in the lower support wire, the effective length of the upper support wire is lower in the support. As a result, it becomes shorter than the effective length of the wire. As a result, when the lens holder 1 is driven in the tracking direction, harmful rotational force generated about the direction orthogonal to the optical axis of the objective lens 2 is suppressed, thereby reducing the lens holder 1. Can be driven stably in the tracking direction.

As described above, according to the present invention, a gripping portion for clamping a predetermined locking fixing portion to which each winding end portion of the drive coil is tied and formed is formed on each fixing plate, and land portions are provided for the gripping portions, respectively. Since each winding end of the drive coil caught by each locking fastening part and the land part provided in the sandwiching part which clamped the predetermined locking fastening part are soldered together, the connection work which connects each winding end of a drive coil to each fixed plate simultaneously It is possible to provide an installation for fixing the fixing plates to the lens holder, and to provide an objective lens driving device having good workability.

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Moreover, since the effective length of the upper support wire is made shorter than the effective length of the lower support wire, harmful rotational force generated around the direction perpendicular to the optical axis of the objective lens is suppressed when the lens holder is driven in the tracking direction. The lens holder can be driven stably in the tracking direction.

In this case, making the effective length of the upper support wire shorter than the effective length of the lower support wire is easily achieved by studying the area of the land portion for soldering the upper and lower support wires to the fixing plate.

1 is a plan view showing one embodiment of an objective lens driving apparatus according to the present invention;

Fig. 2 is an end view from the side of the objective lens drive device shown in Fig. 1;

3 is an exploded perspective view showing a lens holder portion which is the main configuration of the present invention;

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

1: lens holder

3a, 3b: focusing coil

4a, 4b, 4c, 4d: tracking coil

20: support wire

22a, 22b, 22c, 22d: locking fixture

23, 24: fixed plate

23a, 23b, 24a, 24b: sandwich part

25, 26: extended land portion

Claims (4)

delete An objective lens driving apparatus for mounting a driving coil in a lens holder with an objective lens, arranging the driving coil in a magnetic field formed by a magnetic circuit, and supplying a driving signal to the driving coil to drive the objective lens. The objective lens driving device includes a plurality of support wires that resiliently support the lens holder in a displaceable manner, corresponding to winding ends of the winding coils and winding ends of the winding end portions, respectively, installed on the lens holders, and respective winding ends of the objective lens driving devices respectively. And a plurality of fixing plates fixed to each other and fixed to each side of the lens holder with the objective lens interposed therebetween, and each support wire being fixed to each side of the lens holder by soldering. Has a gripping portion for fitting a predetermined locking portion, and has a land portion for each of the gripping portions, and each land portion for each land portion. The objective lens driving apparatus for the respective stationary plate and at the same time connected to the respective winding ends of the drive coil in each fixing plate by soldering with each of the winding end portion characterized in that to secure the lens holder to correspond to. An objective lens driving apparatus for mounting a driving coil in a lens holder with an objective lens, arranging the driving coil in a magnetic field formed by a magnetic circuit, and supplying a driving signal to the driving coil to drive the objective lens. Four support wires disposed on each side of the lens holder with two objective lenses interposed therebetween and elastically supporting the lens holder in a displaceable manner, and attached to both sides of the lens holder with the objective lens interposed therebetween, Each of the two support wires disposed on each side of the lens holder is provided with respective fixing plates fixed by soldering, and each fixed plate is fixed to each of the fixing plates so that the effective length of the upper support wire is shorter than the effective length of the lower support wire. The objective lens drive, characterized in that the fixing range of the two support wires is larger than the lower support wires. Device. 4. The lens holder according to claim 3, wherein a plurality of locking fasteners, each of which is wound and fixed to each of the winding starting end and the winding end of the drive coil, are provided in the lens holder, and each of the fixing plates is provided with a predetermined locking fastener therebetween. It has a clamping part to be fitted, and has a land part in each of the clamping parts, and allows the lower support wires of the two support wires fixed to the respective fixing plates to be directly soldered to the land part provided in the clamping part corresponding to the support wires. And at the same time, the upper support wire is soldered to an extended land portion which is extended from a rake portion provided in a sandwiching portion corresponding to the support wire and continuously connected to the land portion.