JP3513849B2 - Optical disk drive - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a CD player, etc.
The present invention relates to a technique for preventing an objective lens of an optical pickup from being stained in an optical disk device using the optical pickup. 2. Description of the Related Art For example, a device for irradiating an optical disk such as a CD player with a laser beam to read information recorded on the optical disk, or for recording information on the optical disk (hereinafter referred to as an "optical disk device"). In (2), an optical pickup having various optical components such as an objective lens, a beam splitter, and a laser diode is used. In the above optical pickup, the positional relationship and optical characteristics of each optical component are strictly adjusted in order to focus a laser beam on a beam spot of a desired size and irradiate the beam onto a recording surface of an optical disk. [0004] By the way, in an optical disk apparatus using the above-described optical pickup, an operation failure caused by the optical pickup occurs very frequently. That is, the malfunction is caused by dust or the like entering the optical disc device adhering to the surface of an optical component such as an objective lens of an optical pickup, which deteriorates the optical characteristics of the optical component. In most cases, errors occur in reading information necessary for controlling the relative position of the optical pickup with respect to the optical disk, and a malfunction occurs. Therefore, in order to prevent the above-mentioned operation failure,
The inside of the optical disk device should be sealed as much as possible to prevent dust and the like from entering from outside, so that dust and the like do not adhere to the optical pickup, or to prevent the dust and the like from adhering .
There is a method of that. However, the above method may be applied to a device constituted by a single optical disk device. However, in a device in which an optical disk device and another device are combined, the inside of the device is sealed due to the need for heat radiation in the device. Some were unable to do so, and the above method was not common. Further, when the optical pickup is not used, for example, the optical pickup is moved beyond the outermost peripheral position of the optical disk to a position further outside, and the optical component is covered with a cover when the optical pickup is moved to the position. Although there is a method, it has been difficult to realize it because of the following problems. That is, it is necessary to add a drive mechanism for opening and closing the cover, and the moving distance of the optical pickup becomes long. Therefore, it is necessary to redesign all the drive mechanisms of the optical pickup. There is a problem that it does not. Further, when the operation of the optical disk device is stopped, the optical pickup is located further outside the outermost periphery of the optical disk. For example, in a compact disk (CD), in order to read so-called TOC,
At the start of operation, it is necessary to move the optical pickup to the innermost position of the optical disk, and there is a problem that it takes too much time from issuing the operation start command to actually starting operation. [0008] Means for Solving the Problems] Therefore, the present invention optical disk apparatus, in order to solve the above problems, Ji optical disk
Spindle and objective lens
Optical pickup and part of optical pickup
A first rack gear formed and driven by a motor.
And a pinion gear engaged with the first rack gear.
The optical pickup is chucked to the spindle.
Feeder that supports a movable optical disk in the radial direction
When mounted movably on the optical pickup
Having a second rack gear meshing with the pinion gear
Rider and cover the objective lens of the optical pickup
Between the closed position and the open position to expose the objective lens.
The optical pickup has an optical shutter
Reaches the position corresponding to the innermost circumference of the disk recording track.
After that, operate the feed mechanism and drive only the slider
The shutter is moved from the open position to the closed position . Therefore, in the optical disk device of the present invention, the optical pickup is located at the end of the recording track of the optical disk.
After reaching the position corresponding to the inner circumference, operate the feed mechanism.
Drive only the slider to open the shutter from the open position.
By moving the optical pickup to the closed position, the objective lens of the optical pickup is covered with the shutter , and a mechanism for preventing adhesion of dust or the like can be realized with a simple structure. An embodiment of the optical disk apparatus according to the present invention will be described below with reference to an illustrated embodiment. In the following embodiments, the optical disk device of the present invention is applied to a stationary compact disk (CD) player. In the following description, when describing the front, rear, up, down, right and left directions, the up and down directions in FIGS. 1 to 3 are referred to as rear and front, and similarly, left and right are left and right directions, and FIGS. Is referred to as the up-down direction. The CD player 1 has a housing 2 in which predetermined members are arranged and stored. A mechanical chassis 3 is arranged at the back of the housing 2. The rear end of the mechanical chassis 3 is rotatably supported by the housing 2. That is, although not described in detail, when the operation of the CD player 1 is stopped, when loading or unloading of the disc tray 4 is performed, the rear end portion is used as a rotation fulcrum and becomes the rotation end. The front end moves up and down. The state shown in FIG. 7 is a state where the mechanical chassis 3 has finished descending, that is, a state at the time of loading and unloading.
Is the state where the mechanical chassis 3 is completely lifted,
In other words, this is a state when the mechanical chassis 3 is in operation and when the operation is stopped except during the loading and unloading. The vertical movement of the front end of the mechanical chassis 3 is performed by appropriate means (not shown). When the operation of the CD player 1 is stopped, the front end of the mechanical chassis 3 is not lowered except during loading and unloading of the disc tray 4. This is because the reproduction operation can be performed quickly when the reproduction is performed without changing the CD. A spindle 5 rotated by a spindle motor (not shown) is provided on the upper surface of a portion near the front end of the mechanical chassis 3. In the center of the upper surface of the mechanical chassis 3, an opening 6 having a substantially rectangular shape which is long in front and rear is provided. An optical pickup 7 has a feed shaft 8 on the upper surface side of the mechanical chassis 3 and above the opening 6.
, And can be moved in the front-rear direction by the feed mechanism 9. That is, the feed mechanism 9 includes the optical pickup 7
A rack gear 13, which is a first rack gear formed on the right side surface of the rack portion 11, which is a rectangular region that is substantially long in front and back on the right side of the base 10, except for a notch 12 at the rear end of the right side surface; The optical pickup 7 is moved in the front-rear direction with the rotation of the pinion gear 14. The pinion gear 14 is driven by a motor (not shown) meshed with the rack gear 13. Incidentally, the position of the optical pickup 7 is a position on the outermost peripheral side of the optical disk (CD) when the optical pickup 7 is moved to the rearmost position of the mechanical chassis 3 (see FIG. 3) (hereinafter referred to as "the rear end"). Conversely, when it is moved to the most forward position (see FIG. 1), it is the position on the innermost circumference side of the CD (hereinafter, referred to as "front end position"). The optical pickup 7 is defined so as to be located on the innermost side when the operation is stopped. A guide groove 1 extending from the front end to the rear end is provided substantially at the center of the upper surface of the rack 11 in the left-right direction.
5 are formed. And, in the above-mentioned guide groove 15,
The T has a shape in which the upper part protrudes substantially in a T-shape when viewed from the front and rear directions in two places, a position near the front end and a position near the rear end
The T-shaped protrusions 16 are integrally formed to protrude upward, and a substantially cylindrical protruding portion protruding backward is provided between the T-shaped protrusions 16 and 16 at a position slightly closer to the front. A spring engaging projection 17 having 17a is integrally formed so as to protrude. A slider 18 is attached to the rack 11 so as to be slidable back and forth. That is, as will be described later, the slider 18 serving as the shutter opening / closing means has a substantially rectangular plate shape slightly longer than the front and rear lengths of the rack portion 10 as shown in FIG. A step 19 extending from the front end to the rear end is formed at a position on the right side of the right side of FIG. In the lower stage 21, elongated holes 22 and 23 having different shapes and long in the front-rear direction are formed in two places in a straight line at a certain distance in the front-rear direction.
The front long hole 22 is formed such that the left and right opening widths of the front half portion 22a are about half of the opening width of the rear half portion 22b, and the front wall of the rear opening edge has a substantially cylindrical shape toward the front. The protrusion 24a is formed, and this portion is
It has been. The rear elongated hole 23 has a substantially T-shape when viewed from above, and the opening width at the rear end is two times wider than that of the front part 23a.
It is about twice as wide as the wide portion 23b. The elongated holes 22 and 23 have the width of the rear half 22b and the width of the wide portion 23b of the elongated hole 23 set to the width of the T-shaped projection 16,
The width of the front half portion 22a and the front portion 23a is substantially the same as the width of the lower portion of the T-shaped projections 16, 16 other than the heads 16a, 16a. Have been. Further, a rack gear 25 as a second rack gear is formed on the right side surface of the upper stage 20. In addition, a columnar action projection 26 is integrally formed upward and substantially at the center of the left end edge of the slider 18 in the front-rear direction. Thus, the slider 18 is mounted on the rack 11 of the optical pickup 7 so as to be movable back and forth. That is, the rear half portion 22b of the long hole 22 of the slider 18 and the wide portion 23b of the long hole 23 are aligned with the T-shaped projections 16 of the rack portion 11 so that the rack portion 11
The lower portion 21 of the slider 18 is slidably engaged with the guide groove 15 of the T-shaped protrusions 16, 16 through the rear portion 22 b of the long holes 22 and 23 and the wide portion 23 b.
6a are projected upward, and the spring locking projections 17 are positioned in the rear half portion 22b of the elongated hole 22 so as to face the spring locking portions 24. And slider 18
Is slid backward until the T-shaped projections 16 and 16 are positioned in the front half portion 22a and the front portion 23a, which are narrow portions of the long holes 22 and 23, the slider 18 moves the rack portion 11 and the T-shaped projection 16 , 16 are sandwiched between the heads 16a, 16a, and the guide groove 15 and the slots 22 and 23 are formed.
T relatively slides in the front half portion 22a and the front portion 23a of the
While being guided by the character projections 16, 16, the rack unit 11 is movable in the front-rear direction. The rack 11 and the slider 18
The coil spring 27 is positioned between the spring engaging projections 17 and 24 in a compressed state, and both ends of the coil spring 27 are
a and externally supported. Then, the slider 18 is in a state where the backward moving force is urged on the rack portion 11 by the urging force of the coil spring 27, and the spring locking projection 17 abuts on the front edge of the rear half portion 22 b of the elongated hole 22. Touch still,
At this time, the rack gear 25 of the slider 18 and the base 10
The rack gear 13 of the rack portion 11 is positioned up and down, and at the same time, the rack gear 25 of the slider 18 can slightly shift forward, so that the back gear is meshed with the pinion gear 14 in a state where backlash is eliminated. I will do it. In addition to the objective lens 28, various optical components such as a beam splitter and a laser diode (not shown) are disposed at a predetermined position on the left side of the base 10 in the optical pickup 7. Covered. And the rack part 11 at the rear end of the base 10
At the base of the case 29 and on the right side of the case body 29, a rotating shaft 31 for rotatably supporting a shutter to be described later is protruded (see FIG. 11). As shown in FIGS. 1 to 3, the case body 29 has a substantially octagonal lid shape when viewed from above.
It is fixed on the base 10 while covering various optical components. On the right side of the upper surface 30 of the case body 29,
A substantially elliptical hole 32 is formed, and the objective lens 28 faces the outside from the hole 32. As shown in FIGS. 1 to 3, the shutter 33 is formed by bending a scoop portion of a scoop from the boundary between the scoop and the handle and horizontally bending the scoop portion to the right as viewed from above. A main part 34 made of a thin plate made of, for example, plastic, a cylindrical part 35 integrally projecting downward from the center of the rear end of the main part 34, and a rear end of the main part 34 Thus, the pressed portion 36 protruding from the right side edge of the portion where the cylindrical portion 35 protrudes is integrally formed. Then, as shown in FIG.
Pressed pieces 37, 37 from the front end and the rear end of
Are integrally projected. The length of the cylindrical portion 35 is slightly longer than the height when the case body 29 is mounted on the base 10. The main portion 34 corresponding to the inner hole of the cylindrical portion 35 is also provided with a hole 34a.
4 is open on the upper surface. As shown in FIGS. 1 to 3, the shutter 33 is attached to the optical pickup 7 in the following state. That is, the cylindrical portion 3 is attached to the rotating shaft 31 of the base 10.
5, the upper end of the rotating shaft 31 protruding upward from the hole 34a of the main portion 34 is prevented from falling off by an appropriate method, and the action projection 26 of the slider 18 is pressed by the pressed piece 37 of the pressing portion 36. And 37. Accordingly, a change in the position of the action projection 26 due to the movement of the slider 18 driven by the pinion gear 14 causes
The shutter 33 rotates about the rotation shaft 31 of the base unit 10 as a rotation center. When the CD player 1 is in operation, the optical pickup 7 is moved to the front end position shown in FIG.
3 is moved from the position where the so-called TOC in which the time code is recorded is read to the rear end position shown in FIG. 3, and each position is detected by a detection mechanism such as a limit switch. The operation of the CD player 1 and the associated operation of the shutter 33 will be described below. As shown in FIG. 7, with the disk tray 4 pulled out from the front surface of the housing 2 (pull-out position),
Place the CD 38 on the disc mounting surface (not shown), or
Removal is performed. In this position, the front end of the mechanical chassis 3 is held in a lowered state.
Then, as shown in FIG. 8, the CD 38 is reproduced in a state where the disc tray 4 is pulled into the housing 2 (pull-in position). When a CD38 reproduction command is issued at the above-described retracted position, the front end of the mechanical chassis 3 which has been lowered is raised, whereby the spindle 5 is also raised and the upper surface thereof is positioned at the center of the CD38. The CD 38 comes into contact with the lower surface of the disc, and the spindle 5 slightly rises therefrom, so that the CD 38 is lifted from the disc mounting surface of the disc tray 4 and chucked by the spindle 5. Rotate. When the operation of the CD player 1 is stopped (including when the power is turned off), the optical pickup 7 always
It is defined to remain at the front end position (the position shown in FIGS. 2 and 5) on the mechanical chassis 3, and at this time, the limit switch 39 is turned on. Then, the optical pickup 7 stopped at the front end position moves slightly backward until the limit switch 39 is turned off by the feed mechanism 9 and moves forward until the limit switch 39 is turned on again. To stop at the front end position. The front end position is the position where the TOC is read, and the shutter 33 is in the open position. Thereafter, the optical pickup 7 is appropriately moved in the front-rear direction (CD) by the feed mechanism 9 within a range between the front end position and the rear end position.
The signal is read while moving in the radial direction of (38). Next, when an operation stop command is issued during the reproduction of the CD 38, the rotation of the spindle 5 is stopped, and at the same time, the optical pickup 7 is moved forward by the feed mechanism 9, and at the same time, the mechanical chassis is moved. 3 is lowered, and the CD 38 is mounted on the disk mounting surface of the disk tray 4. When a command to remove a disc is issued, the operation performed when the stop command is issued, and in addition to the operation performed when the
After the disk tray 8 is placed on the disk mounting surface of the disk tray 4, the disk tray 4 moves from the retracted position to the extracted position. Then, the optical pickup 7 is moved forward on the mechanical chassis 3 by the feed mechanism 9. At this time, even if the optical pickup 7 reaches the front end position and the limit switch 39 is turned on, the feed mechanism 9 continues to operate for a predetermined time. That is, when the optical pickup 7 slightly moves forward beyond the front end position, the engagement between the rack gear 13 of the rack portion 11 and the pinion gear 14 is disengaged to reach the position of the notch 12, and the rack gear 25 of the slider 18 is disengaged. And only the gears are engaged. Therefore, by the rotation of the pinion gear 14, only the slider 18 moves further forward while compressing the coil spring 27, and accordingly, the action projection 26 moves forward. Then, this movement is transmitted to the shutter 33 via the pressed portion 36 of the shutter 33 engaged with the operation projection 26, and the shutter 33 rotates around the rotation shaft 31 in a clockwise direction as viewed from above. Then, the main part 34 moves on the upper surface 30 of the case body 29,
The closed position (FIGS. 1 and 4) covering the hole 32 and covering the objective lens 28 of the optical pickup 7 is reached, and the rotation of the pinion gear 14 is stopped here. When an operation (reproduction) command of the CD player 1 is issued from the operation stop state, the pinion gear 1 is activated.
4 starts to rotate in the opposite direction, and initially, the slider 18
Only the actuator moves rearward, and accordingly, the action projection 26 also moves rearward. Then, this movement is transmitted to the shutter 33 via the pressed portion 36, and the shutter 33 rotates counterclockwise around the rotation shaft 31 as viewed from above, and the spring locking projection 17 of the rack portion 11. Comes into contact with the front edge of the rear half portion 22b of the elongated hole 22, and the rack portion 11
The movement of the slider 18 above stops, and the main part 34
2 is opened (FIGS. 2 and 5) to expose the objective lens 28 without covering it. When the pinion gear 14 continues to rotate further, the spring locking projection 17 comes into contact with the front edge of the rear half portion 22b of the long hole 22, so that the movement of only the slider 18 is stopped, Leading edge of front half 22a of hole 22 and long hole 2
3 are T-shaped projections 1 on the front side of the rack 11 respectively.
6 and 16 are pushed rearward, whereby the slider 18 and the rack unit 10 move rearward together and the pinion gear 14
The tooth of the optical pickup 7 is disengaged from the notch 12 of the rack, and the engagement with the rack gear 13 is restored, and the entire optical pickup 7 is further moved rearward. As described above, in the optical disk apparatus of the present invention, since the feed mechanism for moving the optical pickup also functions as a means for moving the slider for opening and closing the shutter, the addition of parts such as the slider and the shutter and the control means for the feed mechanism are provided. It is possible to realize a mechanism for preventing the lens of the optical pickup from being stained by only partially changing the design of the optical pickup. As is apparent from the above description, the optical disk apparatus of the present invention chucks an optical disk.
Spindle with rotation and optics with objective lens
Pickup and formed on part of optical pickup
A first rack gear and a first gear driven by a motor;
Optical gear and a pinion gear
Light pickup chucked to the spindle
A feed mechanism that supports the disc so that it can move in the radial direction,
Mounted movably on the pickup and pinion
Slider with second rack gear meshing with gear
And a closed position to cover and hide the objective lens of the optical pickup
Is moved between the open position to expose the objective lens
With a shutter, and the optical pickup
Even after reaching the position corresponding to the innermost circumference of the recording track,
The shutter mechanism by driving the slider only.
The optical disk is moved from the open position to the closed position, and a simple structure can be added without significantly changing the conventional mechanism. Thus, it is possible to realize a mechanism for protecting the optical disk device from failures caused by dust or the like attached to the objective lens, thereby greatly improving the reliability of the optical disk device. It should be noted that the specific shapes and structures shown in the above-described embodiments are merely examples of the embodiments for carrying out the present invention, and the technical scope of the present invention is limited thereby. Should not be interpreted.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 together with FIGS. 2 to 6 show the operation of the optical disk apparatus of the present invention, in which the optical pickup is at the innermost position of the optical disk and the shutter is closed. It is a top view of the important section in the state where it is in a position. FIG. 2 is a plan view of a main part in a state where an optical pickup is at an innermost position of an optical disk and a shutter is at an open position. FIG. 3 is a plan view of a main part in a state where an optical pickup is located at an outermost peripheral position of an optical disk and a shutter is at an open position. FIG. 4 is a side view of a main part in a state where the optical pickup is at an innermost position of the optical disc and a shutter is at a closed position. FIG. 5 is a side view of a main part in a state where the optical pickup is at an innermost position of the optical disk and a shutter is at an open position. FIG. 6 is a side view of a main part in a state where the optical pickup is located at the outermost peripheral position of the optical disk and the shutter is at an open position. FIG. 7 is a side view schematically showing a state where the operation of the optical disk device is stopped and the disk tray is pulled out. FIG. 8 is a side view schematically showing a state when the optical disk device is operating and when it is stopped. FIG. 9 is an enlarged bottom view showing a shutter. FIG. 10 is an enlarged plan view showing shutter opening / closing means. 11 is an enlarged plan view showing a part of the optical pickup; FIG. 12 is an enlarged sectional view taken along line XII-XII in FIG. 1; [Description of Signs] 1 ... optical disk apparatus, 5 ... spindle, 7 ... optical pickup, 9 ... feed mechanism, 13 ... first rack gear, 14
... Pinion gear, 18 ... Slider, 25 ... Second rack gear, 28 ... Objective lens, 33 ... Shutter, 38 ...
optical disk

────────────────────────────────────────────────── ─── Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) G11B ⁷ /12-7/22 G11B 17/00-17/038 G11B 25/00-25/04 G11B 33 / 12-33/14

Claims (1)

(57) Claims 1. A spindle for chucking and rotating an optical disk, an optical pickup having an objective lens, and a first rack formed on a part of the optical pickup
A first rack gear driven by a motor and a motor;
And a pinion gear meshed with the optical pinion.
A feed mechanism for movably supporting the pickup in a radial direction of the optical disk chucked to the spindle; and a movably mounted optical pickup on the optical pickup.
It has a second rack gear that meshes with the pinion gear
A slider is moved between a closed position for covering and covering the objective lens of the optical pickup and an open position for exposing the objective lens.
A movable shutter, and the optical pickup has a
The above feed mechanism operates even after reaching the position corresponding to the inner circumference
Drive only the slider and release the shutter.
An optical disk device, wherein the optical disk device is moved from the open position to the closed position .