JP3820591B2 - Optical pickup - Google Patents

Description

  The present invention relates to an optical pickup, and more particularly to an optical pickup in which a lens holder including an objective lens is movably supported by an elastic wire extending from a substrate attached to a support.

  In an optical pickup provided in an optical disk device, a first relay board is attached to a damper box disposed on an actuator base, and a plurality of parallel conductive links extending from the first relay board are used for objective rotation. A lens holder provided with a lens is supported so as to be displaceable, and the position of the objective lens is controlled in the focusing direction, the tracking direction, and the like by the displacement of the lens holder. 2. Description of the Related Art Conventionally, an optical pickup including coils and electrically connecting each of the coils and the first relay board by the conductive link is known (see, for example, Patent Document 1).

  Further, in the optical pickup, the elastic support member provided on the act base (ACT base) and the bobbin are brought into contact with each other at an inclined surface, and positioning protrusions provided on the act base and the elastic support member are used as positioning holes in the act base. A configuration is also known in which both are screwed to the above act base and positioned (see, for example, Patent Document 2).

On the other hand, the conventional optical pickup includes a support corresponding to the damper box and a substrate corresponding to the first relay substrate, and is formed on the substrate as means for attaching the substrates to the substrate receiving surface of the support in an overlapping manner. A means is known in which a mounting screw inserted through a round hole is screwed into a screw hole provided at a fixed position on the support side and tightened.
JP 2000-222751 A Japanese Patent Laid-Open No. 2001-20642

  However, when a substrate is mounted in an overlapping manner on the substrate receiving surface of the support as in a conventional optical pickup, a means is adopted in which a mounting screw inserted into a round hole in the substrate is screwed into a screw hole on the support and tightened. When tightening the mounting screw, a situation may occur in which the substrate is rotationally displaced by the mounting screw tightening operation and is displaced from an appropriate position. Therefore, one end of a wire (corresponding to the conductive link) whose other end is fixed to the lens holder is inserted into the central portion of the wire through hole of the substrate attached to the support and fixed by soldering or the like. The following problems may occur.

  That is, when the support is fixed by a jig, the substrate is supported by the substrate when the wire fixed to the lens holder is inserted into the wire passage hole of the substrate attached to the support. It is not possible to insert one end of the wire into the wire passage hole of the board due to the fact that the wire is displaced with respect to the proper position of the wire, or one end of the wire is in the eccentric part of the wire passage hole. There was a problem that the wire could not be fixed to the substrate with high accuracy because the wire was inserted.

  The present invention has been made in view of the above problems, and in the operation process of attaching the substrate to the support, simply performing the operation of tightening the mounting screw used to attach the substrate to the substrate receiving surface of the support, It is an object of the present invention to provide an optical pickup that can be attached to a support in a state where the substrate is accurately positioned without being displaced.

  In the optical pickup according to the present invention, the lens holder provided with the objective lens is supported displaceably by the elastic wire extending from the substrate attached to the substrate receiving surface of the support so as to be displaced. In the optical pickup in which the position of the objective lens is controlled by the above, one end of the wire is inserted into a wire through hole provided in the substrate and fixed to the substrate, and the support, the substrate, The taper surface of the head back surface of the countersunk head mounting screw screwed into the screw hole provided at a fixed position on the support side forms the V-shaped opening edge provided on the substrate. The substrate is pressed in the direction along the plate surface by contacting the two edges, and a reference contact formed by one side of the substrate positioned in the pressing direction. Face, the support the substrate pressed against the substrate receiving surface to the reference receiving surface protruding shape stepped in is positioned with respect to the support, is that.

  According to this optical pickup, the position of the substrate in the perspective direction with respect to the reference receiving surface is determined by pressing the reference contact surface of the substrate against the reference receiving surface of the support, and the back surface of the head of the mounting screw with a countersunk head The taper surface is in contact with the two end edges forming the V-shaped opening edge of the substrate, whereby the position of the substrate in the direction orthogonal to the perspective direction is determined. In addition, since the reference receiving surface of the substrate is pressed against the reference receiving surface of the support, the substrate is not rotated and displaced in the tightening direction of the countersunk head mounting screw. Therefore, the position of the substrate mounted in an overlapping manner on the substrate receiving surface of the support is accurately determined in two directions orthogonal to each other, and the substrate is attached to the support without displacement. For this reason, in the process of attaching the substrate to the support, the substrate is accurately positioned at a fixed position of the support simply by tightening the mounting screw with the countersunk head, and the support is fixed with a jig. The one end of the wire inserted into the wire through hole of the substrate attached to the support is also located at the center of the wire through hole, and the one end of the wire is fixed to the substrate with high accuracy.

  In the present invention, the lens holder is displaceably supported by the plurality of wires extending in parallel from the substrate, and one end of each of the wires is provided at a plurality of locations on the substrate. It is possible to adopt a configuration in which the through holes are inserted into the through holes and fixed to the substrate. According to this configuration, the lens holder is displaceably supported by the support body by the plurality of wires extending in parallel.

  In the present invention, it is desirable that one end of the wire is fixed to the substrate by soldering. With this configuration, the wire can be electrically connected to the circuit pattern on the substrate.

  According to the present invention, it is desirable that a wire group is formed by the plurality of wires, and the wire groups are symmetrically arranged on both sides of the support. According to this, the support body is supported in a balanced manner by the group of wires arranged symmetrically on both sides of the support body. Therefore, it becomes easy to ensure the stability of the displacement operation of the support and the stability of the return action after the support is displaced.

  According to the present invention, a coil forming a control element for displacing the lens holder is provided in the lens holder, and the coil and the circuit pattern of the substrate are electrically connected via the wire. It is desirable. According to this, it becomes possible to send a control signal for displacing the lens holder in the focusing direction, the tracking direction or the like to the control element via the wire.

  The optical pickup according to the present invention is further embodied by adopting the following configuration. That is, the lens holder including the objective lens is supported by the elastic wire extending from the substrate attached to the substrate receiving surface of the support so as to be displaceable, and the objective lens is positioned by the displacement of the lens holder. In the optical pickup configured to be controlled, a group of wires formed by a plurality of the wires arranged in parallel to each other are arranged symmetrically on both sides of the support, and each wire group is One end portion of each formed wire is inserted into a wire through hole provided at a plurality of locations of the substrate and fixed to the substrate by soldering, and control for displacing the lens holder A plurality of coils forming the element are provided in the lens holder, and each of the coils and the circuit board of the substrate are arranged. And a plate screwed into a screw hole of a fixture that fixes the support to the base member at the attachment location of the support and the substrate. A direction in which the taper surface of the back surface of the head of the head mounting screw is in contact with two end edges forming the V-shaped opening edge of the substantially triangular opening provided in the substrate and the substrate is along the plate surface. And a reference contact surface formed by one side of the substrate located in the pressing direction is pressed against a reference receiving surface which is a stepped surface protruding from the substrate receiving surface of the support. The present invention is further embodied by adopting a configuration in which it is positioned with respect to the support. The effect of this invention is demonstrated in detail with reference to embodiment mentioned later.

  As described above, according to the present invention, in the work process for attaching the substrate to the support, only the work of tightening the countersunk head mounting screw, which is indispensable for attaching the substrate to the support surface of the support in an overlapping manner, is performed. Thus, the substrate can be accurately attached to the substrate without being displaced with respect to the appropriate position of the support, so that one end of the elastic wire supporting the lens holder is also fixed to the substrate with good accuracy. It becomes like this. Therefore, it becomes easy to ensure the stability of the position control of the objective lens due to the displacement of the support. In addition, in the case where each of the plurality of coils forming the control element for displacing the lens holder and the circuit pattern of the substrate are electrically connected via different wires, the lens holder is moved in the focusing direction or There is an effect that a control signal for displacing in the tracking direction or the like can be sent to the control element via the wire.

  1 is a schematic plan view of an optical pickup according to the present invention, FIG. 2 is a schematic side view thereof, FIG. 3 is an enlarged view taken along arrow III of the main part of FIG. 2, and FIG. FIG. 5 (A) is an enlarged front view of a mounting portion between the support and the substrate, FIG. 5 (B) is a sectional view taken along the line VB-VB in FIG. It is the VC-VC sectional view taken on the line (A).

  As shown in FIG. 1 or FIG. 2, in this optical pickup, a linear shape having a plurality of elasticity from a substrate 3 that is attached in an overlapping manner to a vertical substrate receiving surface 12 formed by the front surface of the support 1. The wires 41 are extended, and the lens holder 6 is supported by the wires 41 so as to be displaceable. In addition to the objective lens 61, the lens holder 6 includes a focusing coil 71, a tracking coil 72, a tilt coil 73, and the like.

  More specifically, the plurality of wires 41 are divided into two wire groups 4A and 4A each including three wires 41 arranged in parallel to form each of the one wire groups 4A. The one ends 42 of the three wires 41 are fixed to the left and right one side of the substrate 3 by soldering, whereas the other ends 43 of the three wires 41 are connected to the lens holder. 6 are fixed to the convex portions 62 on the left and right one side. Similarly, each end 42 of the three wires 41 forming each of the other wire groups 4A is fixed to the left and right other three portions of the substrate 3 by soldering, respectively. The other ends 43 of the three wires 41 are fixed to the convex portions 62 on the left and right other sides of the lens holder 6, respectively. Then, at the portion where the one end 42 of each wire 41 is fixed to the substrate 3, as shown in FIG. 3, one end 42 of the wire 41 inserted through the center of the circular wire through hole 31 formed in the substrate 3 is formed. The solder is soldered to the substrate 3 in a state where it is not in contact with the hole edge of the wire through hole 31. Further, in the illustrated example, an intermediate portion close to the other end 43 of each wire 41 is supported by a protrusion 63 provided on the lens holder 6, and an intermediate portion close to one end of the wire 41 is a side surface of the support 1. Embedded in and held in a damper material 13 loaded in a recess. The left and right wire groups 4 </ b> A and 4 </ b> A are arranged symmetrically on both sides of the support 1. Further, each of the focusing coil 71, the tracking coil 72, and the tilt coil 73 described above is electrically connected to different wires 41 at their winding start ends and winding end ends. Therefore, each of the focusing coil 71, the tracking coil 72, and the tilt coil 73 is electrically connected to the circuit pattern of the substrate 3 through the different wires 41.

  At the place where the support 1 and the substrate 3 are attached, the countersunk head mounting screw 5 inserted through the substantially triangular opening 9 provided in the substrate 3 and the insertion hole 14 provided in the support 1 is the support 1. It is screwed into a screw hole 81 (described later) provided at a fixed position on the side.

  This point will be described in more detail. As shown in FIG. 3 or FIG. 5A, the substantially triangular opening 9 provided in the substrate 3 has a base 91 parallel to the lower end edge 33 of the substantially rectangular substrate 3, and the inside of the base 91. Two edges 92 and 92 having a vertex a above the point and extending downward from the vertex a form a V-shaped opening edge. The screw shaft portion 51 of the countersunk head mounting screw 5 screwed into the screw hole 81 is positioned upward with respect to the center of the substantially triangular opening 9 and the head of the countersunk head mounting screw 5. The tapered surface 53 on the back surface of the portion 52 abuts against the two end edges 92 and 92 forming the V-shaped opening edge and presses the substrate 3 upward along the plate surface. On the other hand, the upper end edge, which is one side parallel to the lower end edge 33 of the substrate 3, is formed as the reference contact surface 34, and the reference receiving surface 15 that is the counterpart of the reference contact surface 34 is formed on the upper portion of the support 1. It is formed by a stepped lower surface (stepped surface) of the protruding piece portion 16 protruding forward, and the entire reference contact surface 34 of the substrate 3 is pressed against the reference receiving surface 15. In this way, the reference contact surface 34 of the substrate 3 is pressed against the reference receiving surface 15 of the support body 1 by the upward pressing force generated when the mounting screw 5 with the countersunk head is tightened. The position of the substrate 3 in the perspective direction (vertical direction) is determined, and the tapered surface 53 of the back surface of the head of the flat head mounting screw 5 forms two end edges 92 that form a V-shaped opening edge of the substrate 3. The position of the substrate in the direction orthogonal to the perspective direction is determined by contacting with 92. In addition, since the entire reference contact surface 34 of the substrate is pressed against the reference receiving surface 15 of the support 1, the substrate 1 is displaced in the rotational direction when the countersunk head mounting screw 5 is tightened. Does not occur. Accordingly, the position of the substrate 3 attached to the substrate receiving surface 12 of the support 1 in an overlapping manner is accurately determined in two directions orthogonal to each other, and the substrate 3 is attached to the support 1 without misalignment. It has been. For this reason, in the work process of attaching the substrate 3 to the support 1, the one end 42 of the wire 41 inserted into the wire through hole 31 of the substrate 3 attached to the support 1 fixed by a jig (not shown) is also provided. The wire 42 is located at the center of the hole 31 and one end 42 of the wire 41 is fixed to the substrate 3 with high accuracy.

  In FIG. 6, 8 is a fixture, and this fixture 8 has the rising piece part 82 provided with the said screw hole 81, and the seat board part 83, and the support body 1 is like FIG. 1 or FIG. Positioned at the corner S (see FIG. 4) formed by the rising piece 82 and the seat plate 83, and using the above-mentioned countersunk head mounting screw 5, the corner is accurately placed. It is mounted in a positioned state. Further, the seat plate portion 83 is fixed in a state of being accurately positioned on the act base 100 by the mounting screw 200. As shown in FIG. 1 or FIG. 2, magnets 201 and 202 are fixed to the rising piece portion 82 of the fixture 8 and the rising piece portion 101 provided in the act base 100, respectively. Faces the tracking coil 72 of the lens holder 6.

  In the optical pickup having this configuration, when the focusing coil 71, the tracking coil 72, or the tilt coil 73 is energized through the substrate 3 and the wire 41, the lens holder 6 receives a force depending on the energized state, and the wire 41 The objective lens 61 is displaced in the focusing direction, the tracking direction, or the tilt direction by the displacement of the lens holder 6 due to the displacement with the bending deformation. At this time, since the wire group 4A composed of three wires 41 is disposed symmetrically on both sides of the support body 1, the support body 1 is supported in a balanced manner by the wire groups 4A and 4A. The position control of the objective lens 61 is performed with good stability, and the stability of the returning action after the support 1 is displaced is easily ensured.

  Moreover, in the operation | work which attaches the board | substrate 3 to the board | substrate receiving surface 12 of the support body 1 so that it may overlap, the screw shaft part of the mounting screw 5 with a countersunk head inserted in the opening 9 of the board | substrate 3 and the insertion hole 14 of the support body 1 is used. When 51 is tightened in the screw hole 81 of the fixture 8, the tapered surface 53 on the back surface of the head with the countersunk head screw pushes the two edges 92, 92 of the opening 9 to press the substrate 9 upward. Since the entire reference contact surface 34 is pressed against the reference receiving surface 15 of the support 1, the substrate 9 is accurately positioned and attached to the support 1 only by tightening the countersunk head mounting screw 5. Therefore, the support 1 is held by a jig, and the one end 42 of the wire 41 is easily inserted into the center of the wire passage hole 42 of the substrate 3. Therefore, when one end 42 of the wire 41 is soldered to the circuit pattern of the substrate 3 by soldering, the one end 42 of the wire 41 is held at the center of the wire through hole 42.

1 is a schematic plan view of an optical pickup according to the present invention. It is the same schematic side view. FIG. 3 is an enlarged view taken along arrow III of a main part of FIG. 2. FIG. 3 is an exploded perspective view showing a fixture 8 and an act base 100. (A) is the enlarged front view of the attachment location of a support body and a board | substrate, (B) is the VB-VB sectional view taken on the line of (A), (C) is the VC-VC sectional view taken on the line of (A).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Support body 3 Substrate 4A Wire group 5 Mounting screw with flat head 6 Lens holder 8 Mounting tool 9 Opening 12 Substrate receiving surface 15 Reference receiving surface 31 Wire through hole 34 Reference hitting surface 41 Wire 42 End of wire 52 Mounting with countersunk head Screw head 53 Tapered surface 61 Objective lens 71 Focusing coil (control element)
72 Tracking coil (control element)
73 Tilt coil (control element)
81 Screw hole 92 Edge

Claims (6)

A lens holder including an objective lens is supported by a wire having elasticity extending from a substrate attached to the substrate receiving surface of the support so as to be displaceable, and the position of the objective lens is controlled by the displacement of the lens holder. In the optical pickup that is supposed to
A wire group formed by a plurality of wires arranged in parallel to each other is arranged symmetrically on both sides sandwiching the support, and one end portion of each wire forming each wire group, It is inserted through wire holes provided at a plurality of locations on the substrate, and is fixed to the substrate by soldering.
A plurality of coils forming a control element for displacing the lens holder are provided in the lens holder, and each of the coils and the circuit pattern of the substrate are electrically connected through the different wires. And
At the attachment location of the support and the substrate, the substrate has a taper surface on the back side of the head of the countersunk mounting screw screwed into the screw hole of the fixture that fixes the support to the base member. The substrate is pressed against the two edges forming the V-shaped opening edge of the substantially triangular opening to press the substrate in the direction along the plate surface, and by one side of the substrate positioned in the pressing direction. An optical pickup characterized in that the formed reference contact surface is pressed against a reference receiving surface which is a stepped surface protruding from the substrate receiving surface of the support so that the substrate is positioned with respect to the support. A lens holder including an objective lens is supported by a wire having elasticity extending from a substrate attached to the substrate receiving surface of the support so as to be displaceable, and the position of the objective lens is controlled by the displacement of the lens holder. In the optical pickup that is supposed to
One end of the wire is inserted into a wire through hole provided in the substrate and fixed to the substrate, and a screw hole provided at a fixed position on the support side at the attachment position of the support and the substrate. The taper surface on the back surface of the head of the mounting screw with a countersunk screwed into the abutment is in contact with the two end edges forming the V-shaped opening edge provided in the substrate, and the substrate follows the plate surface. And a reference contact surface formed by one side of the substrate positioned in the pressing direction is pressed against a reference receiving surface protruding in a stepped manner from the substrate receiving surface of the support, and the substrate is An optical pickup characterized by being positioned with respect to a support The lens holder is displaceably supported by a plurality of wires extending in parallel from the substrate, and one end of each of the wires is inserted into a wire through hole provided at a plurality of locations on the substrate. The optical pickup according to claim 2, wherein the optical pickup is inserted separately and fixed to the substrate. 4. The optical pickup according to claim 2, wherein one end of the wire is fixed to the substrate by soldering. The optical pickup according to claim 3 or 4, wherein a wire group is formed by a plurality of the wires, and the wire groups are symmetrically arranged on both sides sandwiching the support. A coil forming a control element for displacing the lens holder is provided in the lens holder, and the coil and the circuit pattern of the substrate are electrically connected via the wire. 6. The optical pickup according to any one of items 5.