JP3125105B2 - Objective lens drive - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an objective lens driving device applied to a device for recording and reproducing data on and from an optical recording medium such as an optical disk, a magneto-optical disk, and the like.

[0002]

2. Description of the Related Art A conventional objective lens driving device is generally provided with a focusing coil and a tracking coil on the outer periphery of a bobbin integrally formed with an objective lens holding portion, and generates a magnetic force by a magnetic circuit. The bobbin is moved integrally with the objective lens holding unit to perform focus control and tracking control.

One method for stabilizing the characteristics of the focus control and tracking control is to improve the balance between the position of the center of gravity of a movable body such as a bobbin including the coil and the point of application of the driving force. There is a way to do it. For example, the objective lens 3 disclosed in Japanese Patent Application Laid-Open No.
It is disclosed that the dimensional drive device is provided with a balancer below the objective lens holder to lower the center of gravity of the movable body so that a force acts on the center of gravity as much as possible.

[0004]

SUMMARY OF THE INVENTION
In the two-dimensional driving device, a configuration for improving the balance at the time of driving the movable body has been described. However, the strength required for the objective lens driving device for thinning, miniaturization, or improvement in durability has been proposed. There is no disclosure of an increase in

An object of the present invention is to provide an objective lens driving device which is well-balanced and which can be made thinner, smaller, and stronger.

[0006]

In order to achieve the above object, a first means of the present invention is to provide an objective lens, a reflecting mirror for guiding a light beam emitted from a light source to the objective lens, holding the objective lens, and A bobbin around which a coil is wound, a plurality of elastic support members for supporting the bobbin, and a magnetic circuit for generating a magnetic field for the coil, an objective lens driving device, wherein the bobbin around which the coil is wound At the lower part of the outer peripheral part, a balance weight is provided partially except for the reflection mirror and the light beam emitted from the light source , and the reflection mirror is provided .
ー is arranged inside the balance weight .

[0007] The second means is the first means,
The bobbin has a holding portion for holding the objective lens at the center thereof, and a coil winding portion extending in parallel from both sides of the holding portion in a substantially H-shaped cross section, and a balance weight is provided at a lower portion of the coil winding portion. It is characterized by having.

The third means comprises an objective lens, a bobbin holding the objective lens and having a focusing coil wound therearound, a plurality of elastic support members for supporting the upper and lower portions of the bobbin, A magnetic circuit that generates a magnetic field by using the elastic support member to support a flange protruding from the bobbin side opposite to the holding position of the objective lens, and further comprising the flange The upper portion of the spacer provided above is supported by another elastic support member, and the installation center of the tracking coil is provided at an intermediate position between the elastic support member mounting portion in the flange portion and the spacer. .

The fourth means is the third means,
An intermediate position between the elastic supporting member mounting portion, in that a balance weight to the lower portion of the flange portion so that the center of gravity of the movable member comprising a pair objective lens and the bobbin and the spacer and the focusing coil and the tracking coil is positioned Features.

The fifth means is characterized in that the Young's modulus of the material constituting the balance weight in the first means, the second means and the fourth means is made larger than the Young's modulus of the material constituting the bobbin. And

[0011]

According to the first means described above, when thin, the lower portion of the outer peripheral portion of the coil is wound of Rubo bins easily vibrate under the influence of the magnetic force is generated to occur, a reflecting mirror, light
And except the light beam emanating from the source, provided the balance weight for balancing the partial drive device, the reflecting mirror
Since it is possible to dispose it inside the balance weight, the rigidity of the bobbin and the balance can be adjusted without hindering the reduction in thickness.

According to the second means, since the rigidity of the bobbin can be increased by the first means, the cross section of the bobbin can be made substantially H-shaped, and the thickness can be reduced by the side wall thickness.

According to the third means, the bobbin is supported by supporting the flange on one side of the bobbin and the spacer provided on the flange by the elastic support member. Since the height can be reduced by one flange as compared with the conventional device provided with the flange, and the fulcrum and the power point can be made coincident with each other, the thickness can be reduced and a good balance can be set.

According to the fourth means, the balance weight is provided so that the center of gravity of the movable body is located at the position where the fulcrum and the point of force are present, so that a better balance is set.

According to the fifth means, by selecting a material having a larger Young's modulus than the material of the bobbin as the material of the balance weight, the balance weight greatly affects the rigidity, so that the rigidity of the bobbin can be increased. It will be easier.

[0016]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view showing an assembled state of one embodiment of the present invention, FIG. 2 is an exploded perspective view of this embodiment, FIG. 3 is a sectional view of this embodiment, and FIG. FIG. 1 is an exploded perspective view of a holding member 1, a holding portion 3 for holding the objective lens 2, a coil winding portion 4 extending in parallel from both sides of the holding portion 3, and a flange portion projecting from both the lower side portion. 5, a bobbin having a substantially H-shaped cross section, 6 is a focusing coil wound around the coil winding section 4, 7 is four flat coils for tracking fixed on the coil 6, 8 Is a spacer mounted and positioned on the flange 5 and adhered to the side of the coil 6, and 9 is fixed so as to connect the lower part of the opposing coil winding part 4 of the bobbin 1. It is a U-shaped balance weight in plan view.

Reference numeral 10 denotes a yoke body having a permanent magnet 11 held by an opposing wall 10a and having an opposing yoke wall 12 erected at the center thereof; 13 a support wall fixed to one of the opposing walls 10a;
Are four rod springs, one end of which is fixed to the support wall 13 and the other end of which is an elastic support member fixed to the flange 5 and the spacer 8.

The yoke wall 12 of the yoke body 10 is inserted between the coil winding portions 4 of the bobbin 1, and faces the permanent magnet 11 via the coil 6 and the flat coil 7. The yoke body 10 is fixed to a carriage 15 as shown in FIG.
Protrudes from a through hole 17 formed in the yoke body 10 at a position facing the objective lens 2.

As shown in FIG. 2, the thickness t _{1 of the} bobbin ₁
Is the sum of the height t ₆ of the coil 6 and the thickness t ₅ of the flange 5. That is, t ₁ = t ₆ + t ₅ , so that the bobbin 2 is thinner by one flange than the conventional one having two flanges on the upper and lower sides. By the way, the thickness t ₉ of the balance weight 9 is not included in the above value of t ₁ . The reason will be described below with reference to FIGS.

As shown in FIG. 4, the balance weight 9
Is partially provided on the lower surface of the bobbin 1. That is, the balance weight 9 is not in the lower part of the objective lens 2, the thickness of this portion is t ₁ as described above. But,
The thickness t ₉ of the balance weight ₉ is added to the thickness of the portion where the balance weight 9 is provided. As shown in FIG. 3, the bobbin 1 is installed below the objective lens 2, and a reflection mirror 16 is installed below the bobbin 1 on the carriage 15. The carriage 15 is movable in a direction perpendicular to the paper surface of FIG. 3, moves in a radial direction of a disc-shaped information recording medium (hereinafter, referred to as an optical disk) (not shown), and performs a so-called seek operation. The reflecting mirror 16 is for causing a light beam (incident in a direction perpendicular to the plane of FIG. 3) emitted from a light source (not shown) to enter the objective lens 2. As described above, the height T from the upper end of the objective lens driving device to the lower surface of the reflection mirror ₁₆ is determined by the thickness t _{1 of the} bobbin 1 and the thickness t 16 of the reflection mirror 16 described above.
₉ is not involved.

The function of the objective lens driving device is to position the light spot formed by the objective lens 2 on the recording portion of the optical disk. For this purpose, the objective lens 2 is slightly moved in the Z direction (focusing direction) and the X direction (tracking direction) shown in FIG. Its thrust is obtained by passing electricity to the flat coil 7 and the coil 6. Good vibration characteristics of objective lens drive (no resonance)
Need to be balanced for that.

The balance will be described with reference to FIG. The line segment 20 indicates the center line of the bar spring 14 fixed to the spacer 8 . A line segment 21 indicates a center line of another spring 14 fixed to the flange 5 . Medium <br/> cord between segments 20 and the line segment 21 22 is a line that exists supporting region point. To stabilize the tracking operation, on the center line 22, the force point and the center of gravity (volume bottle 1, the objective lens 2, the coil 6, the flat coil 7, the spacers 8, the center of gravity of the movable body consisting of balance weight 9) is no Must. If this is shifted, a moment is generated according to the shifted distance, and resonance occurs.
In this embodiment, the flat coil 7 that generates a tracking thrust is used.
Is displaced from the coil 6 and positioned below. Therefore, the center of the flat coil 7 is on the center line 22, that is, the point of force is on the center line 22.

The center of gravity of the movable part that does not include the balance weight 9 is slightly above because the objective lens 2 is above. However, the center of gravity is located on the center line 22 by the balance weight 9. Next, in order to stabilize the focusing operation, on the optical axis 23 of the objective lens 2,
There must be a fulcrum, a point of force, and a center of gravity. The balance weight 9 is line-symmetric with respect to the optical axis 23, and the other members constituting the movable portion are also line-symmetric with respect to the optical axis 23, so that the center of gravity is on the optical axis 23. Since the coil 6 that emits the focusing thrust is also symmetrical with respect to the optical axis 23, the point of force is also on the optical axis 23. Further, the fulcrum is a collar 5
And the end of a bar spring 14 fixed to the spacer 8, which is also on the optical axis 23.

As described above, the thickness of the bobbin 1 can be reduced while achieving a good balance as described above. In this embodiment, the bobbin 1 is formed to have a substantially H-shaped cross section, so that The miniaturization is also possible. That is, in FIG. 2, the length b ₆ of the coil 6 in the Y direction is the length b ₁ of the bobbin 1 and the thickness b _coil of the coil portion of the coil 6 in FIG.
Determined from. That is, the relationship of b ₆ = 2 × b _coil + b ₁ holds.

FIG. 5A is an explanatory view of a conventional bobbin 1 ', and 6' is a coil. b _a ′ is the thickness b of the coil portion
It is the sum of the wall thickness b ₂ ′ of the _coil ′ and the side of the bobbin 1 ′. FIG. 5B is an explanatory view of the bobbin 1 according to the present embodiment.
Is a coil. It is apparent from the figure that the length b ₆
Has a side wall thickness b ₂ ′ as compared with the conventional example b ₆ ′ of FIG.
Minutes shorter. That is, in the Y direction of FIG.
An objective lens driving device shorter by (b ₂ ′ × 2) is possible. In this case, there is a concern that the rigidity of the bobbin 1 is reduced. However, in the present embodiment, the rigidity of the bobbin 1 does not decrease but rather increases due to the balance weight 9. Further, in the present embodiment, the Young's modulus of the balance weight 9 is made larger than the Young's modulus of the bobbin 1,
The balance weight 9 is dominant in rigidity.

[0027] As the material of the bobbin 1, to use engineering plastics such as PPS is a common practice, since the Young's modulus is about 1000 kgf / mm ^2,
For example, brass may be used as the balance weight 9. Young's modulus of brass is about 7000-1000
0 kgf / mm ² .

In this embodiment, the bar spring 14 is used as the elastic support member. However, a similar effect can be obtained with a leaf spring. Further, the configuration is not limited to the configuration of four bar springs,
A single-sheet configuration may be used.

In the above embodiment, since the balance weight 9 is provided on the coil winding portion 4 which is a thin portion of the bobbin 1, the rigidity of the bobbin 1 can be improved, and the position of the movable center of gravity can be set arbitrarily. An objective lens driving device having a well-balanced vibration characteristic and a good vibration characteristic can be realized. When the movable body is made thinner by arranging the coil 6 and the fixed portion of the bar spring 14 (the flange portion 5 and the spacer 8) in parallel, when the thickness of the movable body is reduced, the balance of the balance in the height direction of the objective lens driving device (fulcrum) , The shift of the power point and the center of gravity) and the rigidity of the bobbin can be improved. That is, a thin objective lens driving device having good vibration characteristics can be realized.

Further, since the balance weight 9 is provided on the extended coil winding portion 4 of the bobbin 1 having the substantially H-shaped cross section, the bobbin 1 can be downsized by making the cross section substantially H-shaped (bar spring). (Small size in the longitudinal direction) while ensuring the rigidity of the bobbin. Further, since there is no balance weight 9 directly below the objective lens 2, the thickness of the balance weight 9 does not contribute to the height of the objective lens driving device determined by the thickness of the bobbin and the height of the reflection mirror 16, so that the thickness can be reduced.

The tracking flat coil 7 is positioned at an intermediate position between two fixed end positions (the flange 5 and the spacer 8) of the plurality of bar springs 14 for elastically supporting the bobbin 1 so that the center thereof is located. Since the fulcrum is provided on the bobbin 1, the fulcrum and the force point coincide with each other, and the vibration characteristics during the tracking operation are good (no moment is generated). Since the center of the focusing coil 6 does not need to coincide with the center of the flat coil 7, the objective lens drive determined by the thickness of the bobbin 1 below the objective lens 2 and the reflection mirror 16 in which the position of the coil 6 is involved. The position of the flat coil 7 does not affect the height of the device. That is, it is possible to provide an objective lens driving device having good vibration characteristics during tracking operation without increasing the height of the objective lens driving device.

Since the balance weight 9 is provided so that the center of gravity of the movable body is located at the position where the fulcrum and the force point exist, the three points of the fulcrum, the force point and the center of gravity coincide with each other. Therefore, an objective lens driving device having a good image quality can be realized. The balance weight 9 is used for the objective lens 2
Since the lens is disposed at a position symmetrical with respect to the optical axis 23, no imbalance occurs in the focusing operation.

The Young's modulus of the balance weight 9 is as follows:
Since the material is larger than the Young's modulus of the bobbin 1, the rigidity of the bobbin 1 can be easily improved by the balance weight 9.

[0034]

As described above, according to the first aspect of the present invention, the balance weight prevents the thickness from being reduced.
The outer peripheral portion around which the coil of the bobbin is wound can be reinforced together with the setting of a good balance, and according to the second means, the cross-sectional shape of the bobbin can be made substantially H-shaped, and only the thickness of the side portion is increased According to the third and fourth means, the height of the device can be reduced by reducing the flange of the bobbin for supporting the elastic support member, and the fulcrum, the point of force, or the center of gravity can be matched. According to the fifth means, the use of a material having a large Young's modulus for the balance weight makes it easy to improve the rigidity of the bobbin. ,
It is possible to provide an objective lens driving device capable of reducing the size and increasing the strength.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an assembled state of an embodiment of an objective lens driving device according to the present invention.

FIG. 2 is an exploded perspective view of the present embodiment.

FIG. 3 is a sectional view of the present embodiment.

FIG. 4 is an exploded perspective view of a bobbin portion of the present embodiment.

FIG. 5 is an explanatory diagram of a reduction in thickness of a conventional example in this embodiment.

[Explanation of symbols]

1: bobbin, 2: objective lens, 4: coil winding part,
5 ... flange, 6 ... coil (coil for focus), 7
... flat coil (tracking coil), 8 ... spacer, 9 ... balance weight, 10 ... yoke, 14 ...
Bar spring.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-61-139944 (JP, A) JP-A-59-188847 (JP, A) JP-A-5-21329 (JP, A) JP-A-2- 683215 (JP, A) Fully open 1986-149126 (JP, U)

Claims (5)

(57) [Claims] An objective lens; a reflecting mirror for guiding a light beam emitted from a light source to the objective lens; a bobbin holding the objective lens and having a coil wound therearound; and a plurality of elastic support members for supporting the bobbin; in the objective lens driving device including a magnetic circuit for generating a magnetic field to the coil, the lower part of the outer periphery of the bobbin which the coil is wound, said anti
A balance weight is provided partially except for a reflecting mirror and a light beam emitted from the light source.
An objective lens driving device, which is disposed inside a weight . 2. The bobbin has a substantially H-shaped cross section including a holding portion for holding an objective lens at the center and coil winding portions extending in parallel from both sides of the holding portion. 2. The objective lens driving device according to claim 1, wherein a balance weight is provided at a lower portion. 3. An objective lens, a bobbin holding the objective lens and having a focusing coil wound therearound, a plurality of elastic support members for supporting upper and lower portions of the bobbin, and generating a magnetic field for the coil. In the objective lens driving device provided with a magnetic circuit, a flange portion protruding from the bobbin side opposite to the holding position of the objective lens is supported by the elastic support member, and a spacer provided on the flange portion An objective lens driving device, wherein an upper portion of the tracking lens is supported by another elastic support member, and an installation center of a tracking coil is provided at an intermediate position between the elastic support member mounting portion in the flange portion and the spacer. 4. A lower portion of the flange so that a center of gravity of a movable body including the objective lens, the bobbin, the spacer, the focusing coil, and the tracking coil is located at an intermediate position between the elastic support member mounting portions. 4. The objective lens driving device according to claim 3, further comprising a balance weight. 5. The objective lens driving device according to claim 1, wherein a Young's modulus of a material forming the balance weight is larger than a Young's modulus of a material forming the bobbin. .