JP2010102775A - Objective lens drive unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an objective lens drive unit which can be thinned (miniaturization) while achieving various adjusting operations of an objective lens. <P>SOLUTION: The objective lens drive unit 1 includes an objective lens 11, a lens holder 12, a movable part for movably holding the lens holder 12, and a movable part fixing base plate 16 erected on a base 14 and configured to fix the movable part. The movable part includes an even number, six or more, of elastic supports 17, and is fixed to the movable part fixing base plate 16 via a spacer member 15 by the elastic supports 17. Among the even number of elastic supports 17, the ends of the four elastic supports 17 are connected to the movable part fixing base plate 16 to form a linearly symmetrical rectangle sandwiching a center line in the erection direction of the movable part fixing base plate 16 on the base 14. The ends of the remaining elastic supports 17 are connected to the movable part fixing base plate 16 outside the four sides of the rectangle and in a position deviated from the extension line of the side parallel to the center line. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an objective lens driving device mounted on an optical pickup device that records information on an information recording medium such as an optical disk or reproduces and erases information.

  As an objective lens driving device mounted on an optical pickup device, for example, Patent Document 1 discloses a structure in which an objective lens holder is held by an elastic support and the elastic support is fixed to a movable part fixed substrate. Has been.

  FIG. 9A is a schematic perspective view showing the overall configuration of a conventional objective lens driving device, and FIG. 9B is a schematic side view showing the overall configuration of the conventional objective lens driving device. The conventional lens driving device 100 drives the objective lens 101, the lens holder 102, the base 103, the main body fixing substrate 104, the elastic support 105, the movable portion fixing substrate 106, the spacer member 107, and the objective lens 101 in the vertical and horizontal directions. A magnet 108 for driving the objective lens 101 in the rotation direction, a focus coil 110, a tracking coil 111, and a tilt coil 112.

The main body fixing substrate 104 is fixed to both side surfaces of the lens holder 102, and one end of an elastic support 105 made of a metal wire or the like is fixed to the fixing substrate 104. The elastic support 105 is electrically connected to the focus coil 110, the tracking coil 111, and the tilt coil 112. The movable portion fixed substrate 106 is fixed to the base 103 with the spacer member 107 interposed therebetween, and the other end portion of the elastic support 105 is fixed to the movable portion fixed substrate 106. The elastic support 105 is supplied with power by a power supply unit (not shown), and power is supplied to the focus coil 110, the tracking coil 111, and the tilt coil 112 via the elastic support 105, so that the lens is The holder 102 is structured to move in three directions of focus, tracking, and tilt. That is, the elastic support member 105 has two functions: a function as a power supply line and a function as a holding body that drives and holds the lens holder.
JP 2000-242942 A (published September 8, 2000)

  However, the conventional objective lens driving device has a problem that it is difficult to reduce the thickness of the device.

  As described above, in the conventional objective lens driving device 100, the electric circuit of the focus coil 110, the track coil 111, and the tilt coil 112 is formed by using the elastic support member 105 as a power supply line. Therefore, it is necessary to provide a total of six elastic supports 105, two for each coil. Both ends of the six elastic supports 105 are respectively fixed to the main body fixed substrate 104 and the movable portion fixed substrate 106 by a method such as soldering.

  In the main body fixed substrate 104 and the movable portion fixed substrate 106, the end portion of the elastic support 105 is fixed by soldering. Specifically, first, the end portion of the elastic support body 105 is inserted into the insertion holes provided in advance in the main body fixed substrate 104 and the movable portion fixed substrate 106, and the end portion of the elastic support body 105 is placed on the surface to be soldered. Adjust to an appropriate length. Next, the end of the elastic support 105 is fixed by applying a soldering iron. The solder material melted by the soldering heat or the end of the elastic support 105 closes the insertion hole, and further extends to a certain region around the insertion hole to form a solder land. The solder land, that is, the end portion of the elastic support and the solder material fixed to the main body fixing substrate 104 and the movable portion fixing substrate 106 by soldering are referred to as a fixing portion.

  FIG. 10A shows the shape of the movable part fixed substrate 106. Three fixed portions 113 of the elastic support 105 are symmetrically formed at both ends in the longitudinal direction of the movable portion fixed substrate 106. The three fixing portions 113 are aligned on a straight line in the width direction (a direction orthogonal to the longitudinal direction).

  In the manufacturing process, the arrangement interval of the fixing portions 113 needs to be set to a certain interval or more due to limitations of various factors such as production cost, work efficiency, and machining accuracy. Specifically, from the viewpoint of durability and stability of the applied voltage, it is necessary to use a metal wire or the like having a diameter of about 0.1 mm as the elastic support member 105. The diameter needs to be 0.5 mm or more so that the work of inserting the elastic support 105 is performed smoothly. Further, from the viewpoint of soldering strength and work efficiency, the diameter of the solder land (fixed portion) around the hole needs to be 1.1 mm or more. Moreover, in order to maintain the function of each elastic support as a power supply line normally, it is necessary to set the gap between the solder lands (fixed portions) to 0.3 mm or more. Therefore, as shown in FIG. 10B, in the movable part fixed substrate 106, the distance between the centers of the adjacent fixed parts 113 is at least 1.4 mm. That is, if three fixed parts 113 are arranged in a straight line at both ends in the longitudinal direction of the movable part fixed substrate 106, it is difficult to make the width dimension of the movable part fixed substrate 106 3.9 mm or less. Further, since the end portion of the elastic support pair 105 is fixed by the same method on the main body fixing substrate 104, the width dimension of the objective lens holder 102 is similarly limited.

  In actual production, the above-described limiting elements exist, and therefore, it is difficult to reduce the thickness of an objective lens driving device having a structure provided with six elastic supports in the prior art, particularly an objective lens driving device having a tilt mechanism. is there.

  In view of the above, an object of the present invention is to provide an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens.

  In order to solve the above problems, an objective lens driving device of the present invention includes an objective lens, a lens holder that holds the objective lens, a movable portion that holds the lens holder movably, and a base of the objective lens driving device. In the lens driving device provided with a movable part fixed substrate that is erected on a base that is a base and fixes the movable part, the movable part includes six or more even number of elastic supports, and the elastic support Of the even number of elastic supports, the ends of the four elastic supports sandwich the center line along the standing direction with respect to the base of the movable part fixed substrate. The other ends of the elastic support members are connected to the movable part fixed substrate so as to form a line-symmetric rectangle, and the ends of the remaining elastic support members are separated from the four sides of the rectangle and from the extended line of the side parallel to the center line. In position it is characterized in that it is connected to the movable element fixing substrate.

  According to the above configuration, in the standing direction with respect to the base, the end of the remaining elastic support that does not form a rectangle and the end of the elastic support that forms a rectangle are not in a straight line. For this reason, the movable part fixed board | substrate with a smaller width dimension of the standing direction can be used compared with the case where all the edge parts are arrange | positioned on the straight line in the standing direction. In other words, since the interference (restriction) by the end of the remaining elastic support body with respect to the dimension in the standing direction of the movable part fixed substrate, that is, the width dimension (length) can be controlled. It is possible to arrange six or more ends of the elastic support on the movable part fixed substrate on which only the end of the elastic support can be arranged. Accordingly, it is possible to reduce the interval in the standing direction of the elastic support body, and provide an objective lens driving device that can reduce the thickness while eliminating a useless height space and realizing various adjustment operations of the objective lens. can do. Moreover, since it is possible to provide a margin in the space for soldering the elastic support, it can be expected to improve the assembly workability.

  The objective lens driving device of the present invention is further characterized in that the end portions of the remaining elastic supports are connected to positions that are symmetrical with respect to the center line.

  According to the above configuration, since the elastic support of the movable part that holds the lens holder is disposed symmetrically with respect to the lens holder, the operation force transmitted to the lens holder via the elastic support is stabilized and the operation is controlled. Is advantageous. In addition, since the movable part fixed substrate can be formed symmetrically, the effect of cost reduction and workability improvement can be expected.

  The objective lens driving device of the present invention is further characterized in that the end portions of the remaining elastic supports are connected to positions closer to the center line than the ends of the four elastic supports.

  According to the above configuration, since the end portion of the remaining elastic support does not affect the width dimension of the movable portion fixed substrate, it is possible to provide an objective lens driving device that can be further reduced in size.

  The objective lens driving device according to the present invention is further characterized in that the end of the remaining elastic support is connected to a position inside the rectangle.

  According to the above configuration, since the vertical and horizontal dimensions of the movable portion fixed substrate can be determined based on the rectangular dimensions, it is possible to provide an objective lens driving device that can be further reduced in size.

  The objective lens driving device according to the present invention is further characterized in that the even number of elastic supports are formed of a conductive material.

  According to the said structure, an elastic support body can be used as a feeder of a focus coil, a tracking coil, and a tilt coil.

  The objective lens driving device of the present invention is further characterized in that the end portions of the even number of elastic supports are connected to the movable portion fixed substrate by soldering.

  According to the above configuration, since the end portion of the elastic support can be stably fixed by the movable portion fixed substrate, the durability of the entire apparatus and the stability of the function can be improved.

  In the objective lens driving device of the present invention, a circular fixed portion is further formed on the movable portion fixed substrate by soldering, and the fixed portion is formed from the center point of the fixed portion formed at the end of the remaining elastic support. The distance in the standing direction to the center point of the fixing part formed at the end of the elastic support that forms the rectangle is the same or shorter than the combined distance of the radii of both fixing parts It is characterized by that.

  According to the above configuration, the influence of the fixed portion formed at the end of the remaining elastic support body on the dimension (width) in the standing direction of the movable portion fixed substrate can be controlled. Can be further reduced in size.

  The objective lens driving device of the present invention is erected on an objective lens, a lens holder that holds the objective lens, a movable part that holds the lens holder movably, and a base that is a base of the objective lens driving device. In the lens driving device including the movable part fixed substrate for fixing the movable part, the movable part includes an even number of six or more elastic supports, and is fixed to the movable part fixed substrate by the elastic supports. Of the even number of elastic supports, the ends of the four elastic supports form a line-symmetric rectangle across a center line along the standing direction with respect to the base of the movable part fixed substrate. As described above, the end of the remaining elastic support is connected to the movable part fixed substrate, and the movable part is fixed at a position that is off the four sides of the rectangle and on the extended line of the side parallel to the center line. Base It is connected to.

  According to the present invention, it is possible to reduce the interval in the standing direction of the elastic support body, eliminate a useless height space, and realize an objective lens that can be thinned while realizing various adjustment operations of the objective lens. A drive device can be provided.

Embodiments of the present invention will be described below with reference to FIGS.
[Embodiment 1]
The first embodiment will be described with reference to FIGS. 1 to 3. FIG. 1 is a perspective view showing an outline of the overall structure of the objective lens driving device 1 according to the present invention, and FIG. 2 shows a movable part fixed substrate which is a main characteristic part of the objective lens driving device according to the present embodiment. Yes. FIG. 3 is a plan view for explaining the arrangement of the fixed portion formed by fixing the end portion of the elastic support to the movable portion fixed substrate.

  As shown in FIG. 1, an objective lens driving apparatus 1 according to the present invention includes an objective lens 11, a lens holder 12 that holds the objective lens 11, a movable part that holds the lens holder 12 movably, and an objective lens. A movable portion fixing substrate 16 is provided which is erected on a base 14 which is a base of the driving device and which fixes the movable portion. The movable part includes six or more even number of elastic supports 17 and is fixed to the movable part fixed substrate 16 by the elastic support 17 via the spacer member 15. Of the even number of elastic supports 17, the ends of the four elastic supports 17 have a line-symmetric rectangle across a center line along the standing direction with respect to the base 14 of the movable part fixed substrate 16. A position connected to the movable part fixed substrate 16 so as to be formed, and the end of the remaining elastic support member 17 deviates from the four sides of the rectangle and deviates from an extension line of a side parallel to the center line. Further, it is connected to the movable part fixed substrate 16.

  A main body fixing substrate 13 is further fixed to the lens holder 12. The movable portion includes an even number of six or more elastic supports 17, a magnet 21 for driving the objective lens 11 in the vertical and horizontal directions, a magnet 22 for driving the objective lens 11 in the rotational direction, The focus coil 31, the tracking coil 32, the tilt coil 33, etc. are comprised.

  Hereinafter, based on FIG. 1, the outline of each component in the objective lens driving device 1 of the present invention will be described. In addition, in order to clarify the functional characteristics of each component and the connection relationship with each other, the following three parts will be described separately.

  First, the objective lens main body that performs the light adjustment function includes an objective lens 11, a lens holder 12, and a main body fixing substrate 13.

  The objective lens 11 is a transparent part for collecting light, and is made of a material such as glass or a resin material. For the objective lens 11, the material, shape, and focal length may be adjusted according to the purpose of use, and specifically, a material excellent in transparency and hardness is selected from the viewpoint of maintaining the stability of the light adjustment function. do it.

  The lens holder 12 is used to hold and protect the objective lens 11. The lens holder 12 has a frame portion for attaching the objective lens 11 and an arrangement portion for arranging the lens holder on the base 14 or the like. By changing the material, dimensions, and shape of the lens holder 12 in various ways, various mounting specifications can be accommodated. Further, by adding additional accessory parts to the lens holder 12, various needs can be met.

  In the objective lens driving device 1 according to the present invention, in order to suspend the lens holder 12 by the elastic support 17 and stably support the lens holder 12, the lens holder 12 is placed on both side surfaces so as to be perpendicular to the objective lens 11. Two main body fixing substrates 13 are provided to face each other. As a result, one end of the elastic support 17 can be easily fixed to the lens holder 12, and the lens holder 12 can be moved symmetrically in the vertical and horizontal directions via the elastic support 17. .

  The main body fixing substrate 13 is a thin plate-like resin material part having a hole for inserting one end of the elastic support member 17 and is fixed to the lens holder 12 by a method such as sticking or press-fitting. Further, the main body fixing substrate 13 may be formed integrally with the lens holder 12. The fixing position and number of the main body fixing substrate 13 in the lens holder 12 may be determined by the overall structure of the apparatus and the arrangement of the elastic support 17.

  In the objective lens driving device 1 of the present invention, as described above, one main body fixing substrate 13 is fixed so as to be perpendicular to the objective lens 11 on both side surfaces of the lens holder 12.

  The objective lens main body is a movable part, and can be moved in the vertical and horizontal directions and in the rotational direction with respect to the base 14 described below by a movable force transmitted through the elastic support member 17.

  Next, the base part which consists of the base 14, the spacer member 15, and the movable part fixed board | substrate 16 is demonstrated. The base 14 is a plate-like member having a certain thickness, and the lens holder 12 is disposed on one surface thereof, and the spacer member 15 and the movable portion fixing member 16 are fixed. The surface is a component assembly surface, and holes, protrusions, or fitting portions may be formed in accordance with the shape of the component to be assembled. The back surface of the component assembly surface is formed in a flat shape so that it can be easily and reliably fixed together with other devices and machines to an optical pickup device or the like.

  The movable part fixing member 16 is a thin plate-shaped resin material part having a hole into which the elastic support member 17 is inserted. The movable part fixing member 16 is fixed to the spacer member 15 and rises from the base 14, that is, the above-described component assembly of the base 14. It is provided to be perpendicular to the surface and the fixing surface of the main body fixing substrate 13. As a method for fixing the movable portion fixed substrate 16, a method such as sticking or press-fitting as with the main body fixed substrate 13 may be used. The lens holder 12 and the movable portion fixed substrate 16 are disposed with the spacer member 15 interposed therebetween. Therefore, the elastic support 17 passes through the spacer member 15 and is fixed to both the substrates 13 and 16 so as to connect the main body fixed substrate 13 and the movable portion fixed substrate 16.

  Next, a magnet 21 for driving the objective lens body including the objective lens 11 in the vertical and horizontal directions, a magnet 22 for driving the objective lens body including the objective lens 11 in the rotational direction, a focus coil 31, A movable part composed of the tracking coil 32, the tilt coil 33, and the elastic support 17 will be described. The elastic support 17 is preferably made of a material (conductive material) having elasticity and conductivity, such as a metal wire. As described above, the elastic support member 17 has one end portion fixed to the main body fixed substrate 13 and the other end portion fixed to the movable portion fixed substrate 16, and also has a function as a feeder line, and includes a focus coil 31, a tracking coil 32 and the tilt coil 33 are electrically connected. The connecting portion between the end portion of the elastic support 17 and the movable portion fixed substrate 16 is preferably connected by soldering from the viewpoint of connection strength and power supply to the coils.

  The elastic support 17 is supplied with electric power from a power supply unit (not shown). The power supply unit supplies power to the focus coil 31, the tracking coil 32, and the tilt coil 33 via the movable part fixed substrate 16 and the elastic support member 17. That is, at least two of the elastic supports 17 are used as a power supply line for the focus coil 31, at least two are used as a power supply line for the tracking coil 32, and at least two are used as a power supply line for the tilt coil 33. These coils supplied with electric power are vibrated in respective directions by voltage, and this vibration force is transmitted to the lens holder 12 via the elastic support member 17. That is, the elastic support body 17 has two functions, ie, a function as a power supply line and a function as a holding body for driving and holding the lens holder 12. The elastic support 17 is subjected to coil lead wire processing on the movable portion fixed substrate 16 side.

  The lens holder 12 is held by both the base 14 and the elastic support member 17 so that the light adjustment function of the objective lens 11 can be maintained. In other words, the lens holder 12 is held within a certain range of motion by the base 14 so that the apparatus can be prevented from being damaged or out of focus. The lens holder 12 can be moved in the vertical and horizontal directions or in the rotational direction by the elastic support member 17.

  The objective lens driving device of the present invention pays attention to the relationship between the dimension of the movable part fixed substrate 16 and the arrangement of the fixed part which is the fixed part of the end of the elastic support 17 to the movable part fixed substrate 16. The main object is to make the movable part fixed substrate 16 thinner by arranging the plate at a more appropriate position, thereby making the entire apparatus thinner.

  Hereinafter, the movable part fixed substrate 16 according to the present embodiment will be described in more detail with reference to FIGS. 2 and 3.

  As shown in FIG. 2, six circular fixing portions 16 a to 16 f are formed on the movable portion fixing substrate 16 according to the present embodiment by soldering the end portions of the elastic support member 17. The six fixed portions 16a to 16f are arranged so as to be symmetrical three by three at both ends in the longitudinal direction of the movable portion fixed substrate 16 (direction perpendicular to the standing direction of the movable portion fixed substrate with respect to the base). . Of the six fixed portions 16a to 16f, the four fixed portions 16a, 16c, 16d, and 16f are symmetrical with respect to the center line along the standing direction with respect to the base 14 of the movable portion fixed substrate 16. Arranged so as to form a rectangular shape. The remaining two fixing portions 16b and 16e are arranged at positions that are off the four sides of the rectangle and off the extension line of the side parallel to the center line, and are symmetrical with respect to the center line. Has been placed. The fixed portions 16b and 16e are disposed at positions closer to the center line than the fixed portions 16a, 16c, 16d and 16f, and are disposed at positions inside the rectangle.

  The fixed portions 16a and 16c and the fixed portions 16d and 16f are more separated as far as possible with respect to the center line, which is advantageous for controlling the accuracy of inclination generated when the movable portion is movable. In addition, since the fixing portions 16b and 16e are arranged at positions inside the rectangle, the fixing portions 16a to 16c form a triangle, and the fixing portions 16d to 16f form a triangle. This increases the strength of the movable part and increases the stability in terms of control.

  In addition, since the elastic support 17 is arranged symmetrically with respect to the lens holder 12, it is advantageous for stabilizing and controlling the operation force transmitted to the lens holder 12 via the elastic support 17. In addition, since the movable portion fixed substrate 16 can be formed symmetrically, the effect of cost reduction and workability improvement can be expected.

  The width (length in the standing direction) of the movable portion fixed substrate 16 is determined by the width of the rectangle, that is, the distance between the fixed portion 16a and the fixed portion 16c (or the fixed portion 16f and the fixed portion 16d). For example, if the radius of the fixed portion 16a is B1, the radius of the fixed portion 16b is B2, the radius of the fixed portion 16c is B3, and the minimum allowable distance between the fixed portions is C, the center point of the fixed portion 16a and the center of the fixed portion 16c The shortest distance between the points is “B1 + B3 + C” because “B2” does not have to be taken into consideration when the fixed portion 16b is disposed at an appropriate position inside the rectangle. Therefore, the width of the movable portion fixed substrate 16 may be “2B1 + 2B3 + C” or more, and may be narrowed by “2B2 + C” as compared with the related art in which the three fixed portions 16a to 16c are arranged in a straight line. it can. In other words, when the fixed portion 16b (and the fixed portion 16e) is arranged at a position inside the rectangle, the width of the movable portion fixed substrate 16 can be reduced within a range exceeding 0 and up to “2B2 + C”. The minimum allowable distance is a distance that separates the fixing parts so that the fixing parts do not come into contact with each other in order to maintain the function of the elastic support member 17 as a power supply line normally. Processing for forming the fixing parts For accuracy, 0.3 mm or more is necessary. In addition, the length (length in the longitudinal direction) of the movable portion fixed substrate 16 is determined by the length of the rectangle, that is, the distance between the fixed portion 16a and the fixed portion 16f (or the fixed portion 16c and the fixed portion 16d).

  The width of the movable portion fixed substrate 16 will be described more specifically by focusing on, for example, the fixed portion 16a that forms the rectangle and the fixed portion 16b that is adjacent to the fixed portion 16a and does not form the rectangle. . As shown in FIG. 3, when the distance (projection distance) in the standing direction between the center point of the fixed portion 16a and the center point of the fixed portion 16b is A, the projection distance A is the center point of the fixed portion 16a. Even if the distance (actual distance) between the center points of the fixed portions 16b is “B1 + B2 + C”, the distance is equal to or shorter than the distance “B1 + B2” in which the radii of both the fixed portions 16a and 16b are combined (A ≦ ( B1 + B2)). More specifically, numerical values will be described in detail. An angle α between a line passing through the center point of the fixed portion 16a and parallel to the standing direction and a line passing through the center point of the fixed portions 16a and 16b is 45 °, and the radii B1 and B2 Is 2 mm and the minimum allowable distance C is 1 mm, the projection distance A is about 3.5 mm. That is, the projection distance A can be shorter by about 0.5 mm than the distance “B1 + B2” (4 mm) obtained by adding the radii of the fixed portions 16a and 16b.

Accordingly, it is possible to realize the movable part fixed substrate 16 which is made thinner. That is, it is possible to reduce the interval in the standing direction of the elastic support member 17, eliminate a useless height space, and realize an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens 11. Can be provided. Moreover, since a space can be provided in the space for soldering the elastic support member 17, it can be expected to improve the assembly workability.
[Embodiment 2]
The second embodiment will be described with reference to FIG. The configuration other than the movable portion fixed substrate in the objective lens driving device according to the second embodiment is the same as the configuration of the objective lens driving device according to the first embodiment, and a description thereof will be omitted.

  As shown in FIG. 4, the movable part fixed substrate 16 in the present embodiment has six fixed parts 16 a to 16 f in the longitudinal direction of the movable part fixed substrate 16 (perpendicular to the standing direction with respect to the base of the movable part fixed substrate). Are arranged so as to be symmetrical at both ends in the direction). Of the six fixed portions 16a to 16f, the four fixed portions 16a, 16c, 16d, and 16f are symmetrical with respect to the center line along the standing direction with respect to the base 14 of the movable portion fixed substrate 16. Arranged so as to form a rectangular shape. The remaining two fixing portions 16b and 16e are arranged at positions that are off the four sides of the rectangle and off the extension line of the side parallel to the center line, and are symmetrical with respect to the center line. Has been placed. The fixed portions 16b and 16e are disposed at positions farther from the center line than the fixed portions 16a, 16c, 16d, and 16f, and are positioned outside the rectangle, that is, in the standing direction as viewed from the rectangle. It is arranged at a position deviating in the orthogonal direction.

Also in the movable part fixed substrate 16 according to the present embodiment, the same effect as that of the movable part fixed substrate 16 according to the first embodiment can be obtained. That is, it is possible to realize the movable part fixed substrate 16 that is made thinner. Accordingly, it is possible to reduce the interval in the standing direction of the elastic support member 17, eliminate a useless height space, and realize an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens 11. Can be provided.
[Embodiment 3]
The third embodiment will be described with reference to FIG. The configuration other than the movable portion fixed substrate in the objective lens driving device according to the third embodiment is the same as the configuration of the objective lens driving device according to the first embodiment, and a description thereof will be omitted.

  As shown in FIG. 5, the movable portion fixed substrate 16 in the present embodiment has six fixed portions 16 a to 16 f in the longitudinal direction of the movable portion fixed substrate 16 (perpendicular to the standing direction with respect to the base of the movable portion fixed substrate). Are arranged so as to be symmetrical at both ends in the direction). Of the six fixed portions 16a to 16f, the four fixed portions 16a, 16c, 16d, and 16f are symmetrical with respect to the center line along the standing direction with respect to the base 14 of the movable portion fixed substrate 16. Arranged so as to form a rectangular shape. The remaining two fixing portions 16b and 16e are arranged at positions that are off the four sides of the rectangle and off the extension line of the side parallel to the center line, and are symmetrical with respect to the center line. Has been placed. The fixed portions 16b and 16e are disposed at positions closer to the center line than the fixed portions 16a, 16c, 16d, and 16f, and are positioned outside the rectangle, that is, in the standing direction as viewed from the rectangle. It is arranged at a position distant from the base 14.

Also in the movable part fixed substrate 16 according to the present embodiment, the same effect as that of the movable part fixed substrate 16 according to the first embodiment can be obtained. That is, in the standing direction, the fixed portion 16b that does not form a rectangle and the fixed portions 16a and 16c that form a rectangle (or the fixed portion 16e, the fixed portion 16f, and the fixed portion 16d) are not positioned on a straight line. . Therefore, it is possible to use a smaller width dimension in the standing direction of the movable portion fixing substrate 16 than in the case where the three fixing portions are arranged in a straight line in the standing direction. That is, it is possible to realize the movable part fixed substrate 16 that is made thinner. Accordingly, it is possible to reduce the interval in the standing direction of the elastic support member 17, eliminate a useless height space, and realize an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens 11. Can be provided.
[Embodiment 4]
The fourth embodiment will be described with reference to FIG. The configuration other than the movable portion fixed substrate in the objective lens driving device according to the fourth embodiment is the same as the configuration of the objective lens driving device according to the first embodiment, and a description thereof will be omitted.

  As shown in FIG. 6, the movable portion fixed substrate 16 in the present embodiment has six fixed portions 16 a to 16 f in the longitudinal direction of the movable portion fixed substrate 16 (perpendicular to the standing direction with respect to the base of the movable portion fixed substrate). Are arranged so as to be symmetrical at both ends in the direction). Of the six fixed portions 16a to 16f, the four fixed portions 16a, 16c, 16d, and 16f are symmetrical with respect to the center line along the standing direction with respect to the base 14 of the movable portion fixed substrate 16. Arranged so as to form a rectangular shape. The remaining two fixing portions 16b and 16e are arranged at positions that are off the four sides of the rectangle and off the extension line of the side parallel to the center line, and are symmetrical with respect to the center line. Has been placed. The fixed portions 16b and 16e are disposed at positions farther from the center line than the fixed portions 16a, 16c, 16d, and 16f, and are positioned outside the rectangle, that is, in the standing direction as viewed from the rectangle. It is arranged at a position distant from the base 14.

Also in the movable part fixed substrate 16 according to the present embodiment, the same effect as that of the movable part fixed substrate 16 according to the first embodiment can be obtained. That is, in the standing direction, the fixed portion 16b that does not form a rectangle and the fixed portions 16a and 16c that form a rectangle (or the fixed portion 16e, the fixed portion 16f, and the fixed portion 16d) are not positioned on a straight line. . Therefore, it is possible to use a smaller width dimension in the standing direction of the movable portion fixing substrate 16 than in the case where the three fixing portions are arranged in a straight line in the standing direction. That is, it is possible to realize the movable part fixed substrate 16 that is made thinner. Accordingly, it is possible to reduce the interval in the standing direction of the elastic support member 17, eliminate a useless height space, and realize an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens 11. Can be provided.
[Embodiment 5]
The fifth embodiment will be described with reference to FIG. The configuration other than the movable portion fixed substrate in the objective lens driving device according to the fifth embodiment is the same as that of the objective lens driving device according to the first embodiment, and thus the description thereof is omitted.

  As shown in FIG. 7, in the movable part fixed substrate 16 in the present embodiment, the six fixed parts 16a to 16f are arranged in the longitudinal direction of the movable part fixed substrate 16 (perpendicular to the standing direction with respect to the base of the movable part fixed substrate). Are arranged so as to be symmetrical at both ends in the direction). Of the six fixed portions 16a to 16f, the four fixed portions 16a, 16c, 16d, and 16f are symmetrical with respect to the center line along the standing direction with respect to the base 14 of the movable portion fixed substrate 16. Arranged so as to form a rectangular shape. The remaining two fixing portions 16b and 16e are arranged at positions that are off the four sides of the rectangle and off the extension line of the side parallel to the center line, and are symmetrical with respect to the center line. Has been placed. The fixed portions 16b and 16e are disposed at positions closer to the center line than the fixed portions 16a, 16c, 16d, and 16f, and are positioned outside the rectangle, that is, in the standing direction as viewed from the rectangle. It is arranged at a position close to the base 14.

Also in the movable part fixed substrate 16 according to the present embodiment, the same effect as that of the movable part fixed substrate 16 according to the first embodiment can be obtained. That is, in the standing direction, the fixed portion 16b that does not form a rectangle and the fixed portions 16a and 16c that form a rectangle (or the fixed portion 16e, the fixed portion 16f, and the fixed portion 16d) are not positioned on a straight line. . Therefore, it is possible to use a smaller width dimension in the standing direction of the movable portion fixing substrate 16 than in the case where the three fixing portions are arranged in a straight line in the standing direction. That is, it is possible to realize the movable part fixed substrate 16 that is made thinner. Accordingly, it is possible to reduce the interval in the standing direction of the elastic support member 17, eliminate a useless height space, and realize an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens 11. Can be provided.
[Embodiment 6]
The sixth embodiment will be described with reference to FIG. The configuration other than the movable portion fixed substrate in the objective lens driving device according to the sixth embodiment is the same as that of the objective lens driving device according to the first embodiment, and a description thereof will be omitted.

  As shown in FIG. 8, the movable part fixed substrate 16 in the present embodiment has six fixed parts 16 a to 16 f in the longitudinal direction of the movable part fixed substrate 16 (perpendicular to the standing direction with respect to the base of the movable part fixed substrate). Are arranged so as to be symmetrical at both ends in the direction). Of the six fixed portions 16a to 16f, the four fixed portions 16a, 16c, 16d, and 16f are symmetrical with respect to the center line along the standing direction with respect to the base 14 of the movable portion fixed substrate 16. Arranged so as to form a rectangular shape. The remaining two fixing portions 16b and 16e are arranged at positions that are off the four sides of the rectangle and off the extension line of the side parallel to the center line, and are symmetrical with respect to the center line. Has been placed. The fixed portions 16b and 16e are disposed at positions farther from the center line than the fixed portions 16a, 16c, 16d, and 16f, and are positioned outside the rectangle, that is, in the standing direction as viewed from the rectangle. It is arranged at a position close to the base 14.

  Also in the movable part fixed substrate 16 according to the present embodiment, the same effect as that of the movable part fixed substrate 16 according to the first embodiment can be obtained. That is, in the standing direction, the fixed part 16b that does not form a rectangle and the fixed parts 16a and 16c that form a rectangle (or the fixed part 16e, the fixed part 16f, and the fixed part 16d) are not positioned on a straight line. . Therefore, it is possible to use a smaller width dimension in the standing direction of the movable portion fixing substrate 16 than in the case where the three fixing portions are arranged in a straight line in the standing direction. That is, it is possible to realize the movable part fixed substrate 16 that is made thinner. Accordingly, it is possible to reduce the interval in the standing direction of the elastic support member 17, eliminate a useless height space, and realize an objective lens driving device that can be thinned while realizing various adjustment operations of the objective lens 11. Can be provided.

  According to the present invention, it is possible to provide an objective lens driving device capable of being thinned (downsized) while realizing various adjustment operations of the objective lens as compared with the prior art. The objective lens driving device according to the present invention can be expected to be used for an optical hip-up device or the like.

It is a perspective view which shows the structure of the objective lens drive device based on this invention. It is a top view which shows the movable part fixed board | substrate with which the said objective lens drive device is provided. It is a top view explaining arrangement | positioning of the fixing | fixed part which fixes the edge part of the elastic support body with which the said objective lens drive device is equipped. It is a top view which shows the movable part fixed board | substrate with which the other objective lens drive device which concerns on this invention is provided. It is a top view which shows the movable part fixed board | substrate with which the other objective lens drive device which concerns on this invention is provided. It is a top view which shows the movable part fixed board | substrate with which the other objective lens drive device which concerns on this invention is provided. It is a top view which shows the movable part fixed board | substrate with which the other objective lens drive device which concerns on this invention is provided. It is a top view which shows the movable part fixed board | substrate with which the other objective lens drive device which concerns on this invention is provided. The structure of the conventional objective lens drive device is shown, (a) is a perspective view, (b) is a side view. (A) is a top view which shows the movable part fixed board | substrate with which the conventional objective lens drive device is equipped, (b) is arrangement | positioning of the fixed part which fixes the edge part of the elastic support body with which the conventional objective lens drive device is equipped. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Objective lens drive device 11 Objective lens 12 Lens holder 13 Main body fixed board 14 Base 15 Spacer member 16 Movable part fixed board 16a Fixed part 16b Fixed part 16c Fixed part 16d Fixed part 16e Fixed part 16f Fixed part 17 Elastic support body 21 Magnet 22 Magnet 31 Focus coil 32 Tracking coil 33 Tilt coil

Claims (8)

An objective lens, a lens holder that holds the objective lens, a movable part that movably holds the lens holder, and a movable part that stands on a base that is a base of the objective lens driving device and fixes the movable part In a lens driving device provided with a fixed substrate,
The movable part includes an even number of six or more elastic supports, and is fixed to the movable part fixed substrate by the elastic supports.
Of the even number of elastic supports, the ends of the four elastic supports form a line-symmetric rectangle across a center line along the standing direction with respect to the base of the movable part fixed substrate. Connected to the movable part fixed substrate, and the end portions of the remaining elastic support members are connected to the movable part fixed substrate at positions deviating from the four sides of the rectangle and from the extended line of the side parallel to the center line. An objective lens driving device characterized by comprising:   2. The objective lens driving device according to claim 1, wherein the end portions of the remaining elastic supports are connected to positions that are symmetrical with respect to the center line.   3. The objective lens driving device according to claim 1, wherein the end portions of the remaining elastic supports are connected to positions closer to the center line than the ends of the four elastic supports. .   4. The objective lens driving device according to claim 1, wherein an end of the remaining elastic support is connected to a position inside the rectangle.   5. The objective lens driving device according to claim 1, wherein the even number of elastic supports are made of a conductive material.   6. The objective lens driving device according to claim 1, wherein the end portions of the even number of elastic supports are connected to the movable portion fixed substrate by soldering. A circular fixed part is formed on the movable part fixed substrate by soldering,
From the center point of the fixed part formed at the end of the remaining elastic support to the center point of the fixed part formed at the end of the elastic support that is adjacent to the fixed part and forms the rectangle, The objective lens driving device according to claim 6, wherein a distance in the standing direction is equal to or shorter than a distance obtained by adding the radii of both fixed portions.   An optical pickup device comprising the objective lens driving device according to claim 1.

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