JP3794934B2 - Disc insertion restriction device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is provided in a disc drive for setting a disc such as a compact disc by inserting it from an insertion slot, and disc insertion regulation for restricting that the center of the disc is largely displaced from the center of the insertion slot It relates to the device.
[0002]
[Prior art]
A slot-in (front loading) type disc player (disc drive) capable of reproducing both a large-diameter (for example, 12 cm in diameter) and a small-diameter (for example, 8 cm in diameter) compact disc (hereinafter referred to as a CD) is a CD player. Some CDs with different diameters are correctly centered on a turntable attached to a spindle motor by abutting against a stopper corresponding to the diameter of the CD in the apparatus when inserted into the apparatus. Here, in order to abut the CDs having different diameters against the stoppers corresponding to the diameters of the CDs, it is necessary to insert the CDs so that the center of the CD passes through the substantially central part of the insertion slot.
For this reason, a disc insertion restriction mechanism for limiting the insertion of the CD to the center is provided at the CD insertion slot of the disc reproducing apparatus. Here, a disc insertion restricting mechanism in a conventional slot-in type disc reproducing apparatus will be described with reference to FIGS.
[0003]
FIG. 4 shows a disc insertion restricting mechanism 10 provided at the CD 19 insertion slot in a conventional slot-in type disc reproducing apparatus. The disc insertion restriction mechanism 10 is provided in the chassis 11. A disk transport roller 12 is provided at the position where the disk insertion restriction device 10 is arranged so as to overlap vertically. The disk transport roller 12 pulls the inserted CD 19 into the disk reproducing apparatus.
The disc insertion restriction mechanism 10 includes a left arm 13a, a right arm 13b, a left connecting arm 14a, a right connecting arm 14b, a guide groove 16, a spring 17 and the like attached to the chassis 11.
[0004]
The left arm 13a is rotatably attached to the chassis 11, and is provided with an abutting portion 13c that abuts against the inserted CD 19 at one end, and the left connecting arm 14a rotates at the other end. It is attached movably. Similarly, the right arm 13b is rotatably mounted on the chassis 11, and is provided with an abutting portion 13d that abuts against the inserted CD 19 at one end and a right connecting portion at the other end. An arm 14b is rotatably attached.
[0005]
The left connecting arm 14a and the right connecting arm 14b are rotatably connected to the left arm 13a and the right arm 13b via link portions 14c and 14d, respectively. The left connecting arm 14a and the right connecting arm 14b are rotatably connected at ends opposite to the ends connected to the left arm 13a and the right arm 13b. The connecting portion between the left connecting arm 14 a and the right connecting arm 14 b is a slide portion 15 that slides along a guide groove 16 (described later) provided in the chassis 11. A spring 17 is connected to the slide portion 15 to urge the slide portion 15 along the guide groove 16 in the CD 19 insertion direction.
[0006]
The guide groove 16 is formed at the approximate center between the left and right arms of the chassis 11 of the disk reproducing device so as to extend from the vicinity of the insertion opening of the CD 19 to the back side in the CD insertion direction. The guide groove 16 is a guide for sliding the slide portion 15 from the back side of the chassis 11 toward the insertion slot of the CD 19. The left and right walls of the guide groove 16 are each provided with a notch 16a in the middle, and the width of the guide groove 16 is widened at the notch 16a.
[0007]
In a state where the slide portion 15 is urged toward the rear side of the chassis 11 by the spring 17, the left and right connecting arms 14a and 14b connected to each other by the slide portion 15 are further connected to the left and right arms 13a. , 13b are in a state in which the respective disk contact portions 13c, 13d are brought close to a predetermined distance. Here, when the CD 19 is inserted, the left and right arms are rotated and the left and right arms are rotated so that the two disk contact portions are pushed against the urging force of the spring 17 by the CD 19. The left and right connecting arms connected to the other arm rotate, so that the slide portion 15 slides from the back side to the insertion port side along the guide groove 16 against the urging force of the spring 17. It has become.
[0008]
Next, the operation when the CD 19 is inserted from the left side, the right side, and the center with respect to the insertion slot in the disc playback apparatus of the CD 19 having the disc insertion restriction mechanism 10 will be described with reference to FIG. 5A to 5D show a simplified configuration of the disc insertion restriction mechanism 10, and the disc insertion restriction mechanism 10 in the state shown in FIG. 5A corresponds to FIG. This shows the state before the disc is inserted.
[0009]
First, when the CD 19 is to be inserted to the left with respect to the insertion slot of the disc reproducing apparatus, the peripheral edge of the CD 19 hits the left contact portion 13c as shown in FIG. 5B.
The left arm 13a rotates clockwise, and the left connecting arm 14a is also interlocked. Then, clockwise rotational torque is applied to the left connecting arm 14a.
The clockwise rotational torque applied to the left connecting arm 14 a acts on the slide portion 15, and the slide portion 15 slides along the right wall of the guide groove 16 toward the insertion opening side of the CD 19.
[0010]
Since the guide groove 16 is provided with the notch 16a, the slide portion 15 eventually enters the notch 16a and is prevented from moving. Thereby, the rotation of the left connecting arm 14a is restricted, and insertion of the CD 19 is restricted.
On the other hand, as shown in FIG. 5C, when the CD 19 is inserted to the right with respect to the insertion slot of the disc reproducing device, the rotation of the right connecting arm 14b is restricted and the insertion of the CD 19 is restricted. .
[0011]
When the disc player is inserted from the center into the insertion slot, an equivalent force is applied to the left arm 13a and the right arm 13b. Since the clockwise rotational torque applied to the left connecting arm 14a and the counterclockwise rotational torque applied to the right connecting arm 14b cancel each other, the slide portion 15 does not enter the notch 16a, and the CD 19 It can slide toward the insertion port.
Therefore, since the left arm 13a and the right arm 13b can continue to rotate, the CD 19 can be inserted into the disc reproducing apparatus.
[0012]
[Problems to be solved by the invention]
By the way, the above-mentioned disc insertion restricting mechanism 10 of the disc reproducing apparatus has at least five types of parts including the left arm 13a, the right arm 13b, the left connecting arm 14a, the right connecting arm 14b, and the spring 17 in addition to the chassis 11. Limited was necessary. For this reason, the number of parts cannot be reduced any more, and it is difficult to reduce the cost.
Further, the parts directly receiving the force by the spring 17 are only the left connecting arm 14a and the right connecting arm 14b, and the other parts are receiving the force of the spring 17 through the left and right connecting arms 14a and 14b. . For this reason, the rattling of the parts cannot be directly suppressed, which causes rattle noise during vibration. Further, further reduction in thickness is desired for the disk reproducing apparatus. However, the above-described disc insertion restricting mechanism 10 needs to dispose parts from the vicinity of the inside of the CD 19 insertion slot, which is substantially in the same plane as the CD 19 conveyance surface, to the far side. Therefore, as shown in FIG. 4, the disc insertion restricting mechanism 10 and other mechanical components such as the disc transport roller 12 are arranged at the overlapping position, and interference between the components arranged at the overlapping position is caused. It was difficult to reduce the thickness of the disk reproducing apparatus.
[0013]
DISCLOSURE OF THE INVENTION An object of the present invention is to provide a disc insertion restriction for inserting a disc from the center into a disc drive insertion slot, which can reduce the number of components and keep the cost low, and can reduce the thickness of the disc drive without causing rattling of components. Is to provide a device.
[0014]
[Means for Solving the Problems]
  In order to solve the above problems, the invention according to claim 1 is directed to inserting a disk drive.To mouthWhen inserting a disc, a disc insertion restricting device that restricts the center of the disc from being shifted to the right or left from the center of the insertion slotIn placeA right contact that is disposed in the vicinity of the insertion slot in the disk drive and contacts the right side of the disk inserted from the insertion slot.PartAnd havingProvided substantially parallel to the front plate of the chassis of the disk drive;It is slidable left and right along the width direction of the insertion slot.Plate-likeRight slyWithThe left contact that is disposed in the vicinity of the insertion slot in the disk drive and contacts the left side of the disk inserted from the insertion slotPartAnd havingProvided in substantially the same plane as the right slider above or below the right slider,It is slidable left and right along the width direction of the insertion slot.Plate-likeLeft slyWithUrging means for urging the left and right sliders so as to approach the first predetermined distance;One of the lower part of the slider provided on the upper side and the upper part of the slider provided on the lower side is provided with a protrusion in contact with or close to the other part, and the protrusion is provided on the other part. A cutout portion provided so as to be separated from the portion, and when the contact portion of at least one of the sliders reaches a second predetermined distance from the center portion of the insertion port, the protrusion portion and the cutout portion Are arranged at positions facing each other, the slider can be rotated and moved, the projecting part and the notch part do not face each other, and the projecting part faces the outer part of the notch part, Rotation preventing means for restricting the rotational movement of the slider when the protruding portion abuts against the other portion, and abutting at least one of the left and right abutting portions by inserting a disc into the disc drive Said part When the disk abuts and at least one of the left and right sliders is pushed and moved by the disk, a rotational torque is applied to one of the sliders. The difference in the amount of movement from the center of the projection is such that the protrusion and the notch are opposed to each other,And when the said contact part of one slider reaches the 2nd predetermined distance whose distance from the center part of the said insertion port is longer than a 1st predetermined distance, the center part of the said insertion port of one slider And a restricting means for restricting movement in a direction away from the head.
[0015]
According to the first aspect of the present invention, when the disc is inserted from the insertion slot of the disc drive, if the center of the disc is displaced from the center of the insertion slot, the disc contacts at least one of the left and right contact portions. Become. As the disc is further inserted, the left and right contact portions are pushed by the disc, and the left and right sliders move away from each other.
[0016]
Here, if the center of the disc and the center of the insertion slot are displaced to some extent on either the left or right, only one abutting portion is pushed and one slider moves more than the other slider. . That is, there is a difference in the amount of movement of the left and right sliders. Here, the difference in the amount of movement of the left and right sliders exceeds a predetermined range, and only the contact portion of one of the left and right sliders is first, and the distance from the central portion of the insertion slot is the first. When the second predetermined distance longer than the one predetermined distance is reached, the restricting means restricts the movement in the direction away from the central portion of the insertion port of one slider.
[0017]
As a result, when the disk is further inserted, the movement of the disk in the insertion direction is stopped by the slider abutting portion where the movement is restricted as described above, and the center of the disk is set to the center of the insertion slot. If it is not moved to the part side, the disc cannot be inserted any more. Therefore, it can be controlled that the center of the disc is inserted with a large deviation from the center of the insertion slot to the left and right.
On the other hand, the disc insertion restricting device includes a slider that slides to the left and right in the vicinity of the insertion slot in the disc drive and has an abutting portion. There is no need to occupy the back side from the vicinity of the insertion port.
[0018]
Further, the urging means may urge the slider, which is slidable to the left and right along the width direction of the insertion slot, to move in a direction approaching the center of the insertion slot. It is not necessary to occupy the back side from the vicinity.
Further, since the restricting means only needs to restrict the movement of the slider in the direction away from the central portion of the insertion opening along the width direction of the insertion opening, it is not necessary to occupy the back side from the vicinity of the insertion opening.
[0019]
Therefore, the disc insertion restricting device of the present invention can be placed and placed only in the vicinity of the insertion slot inside the disc drive. As a result, the position of the disk insertion restriction device does not interfere with other mechanical components located further behind the vicinity of the insertion port such as the disk transport roller. Accordingly, it is not necessary to place the disk insertion restricting device and the other mechanical parts in the thickness direction in order to arrange them at substantially the same position, and the disk drive can be easily reduced in thickness.
[0020]
  Further, the disk insertion restriction device can be configured such that the slider is directly urged by the urging means, and does not require a component that is indirectly urged by the urging means via the slider. It becomes possible to suppress the rattling, and it is possible to reduce rattle noise during vibration.
  In addition, the component parts are basically the left and right sliders, the spring 24 and the like as the biasing means, and the parts as the restricting means, and the number of parts can be reduced as compared with the conventional one, thereby reducing the cost. Is possible.
  In addition, when only one slider is moved greatly by inserting the disc into the insertion port in a state where the center of the insertion port and the center of the inserted disc are greatly displaced, The notch is disposed at a position facing the notch, and the rotation of the slider is permitted by inserting the notch into the protrusion relatively. On the other hand, when the disc is inserted at the center of the disc or at a position close to the center of the insertion slot, the left and right sliders move substantially equally to the left and right. In this case, even if the contact portion of the slider reaches a second predetermined distance from the center portion of the insertion slot, the protrusion portion of the slider does not face the notch portion, and the protrusion portion does not have the notch portion. The rotation of the slider is restricted by coming into contact with a portion close to the protruding portion outside the notch portion of the slider.
  Therefore, when the disc is inserted into the insertion slot at the center of the insertion slot or near the center of the insertion slot, the rotation of the slider is regulated by the rotation regulation means, so that the slider by the regulation means Therefore, it is possible to insert the disc without restricting the right / left movement of the disc. Further, the rotation preventing means can be realized with a simple configuration of a protruding portion and a notch portion formed on the slider.
[0021]
  The invention described in claim 2In the disc insertion restriction device according to claim 1,The regulating means is guided by the left and right sliders so as to extend left and right along the width direction of the insertion slot.Department andFor each of the left and right sliders, the left and right sliders are held in a state in which rotation of the sliders is suppressed by engaging the guided portions so as to be relatively movable left and right at at least two left and right engagement positions. Guide that guides to slide freely in the directionDepartment andThe guided portion has a part of the guide portion at one of the two engagement positions when the contact portion reaches a second predetermined distance. A recess that is recessed toward the direction of the rotational torque so as to allow the slider to rotate in the direction of the rotational torque.A portion is formed.
[0022]
According to invention of Claim 2, the effect similar to Claim 1 can be acquired. Further, the left and right sliders are guided by the guide portion and can be moved to the left and right with the guided portion engaged with the guide portion at two left and right positions. In addition, the guided portion and the guide portion are arranged at positions where rotational torque is applied to the slider when the disk comes into contact with and presses against the contact portion of the slider. Are engaged at two positions on the left and right sides of the guided portion, so that the rotation of the slider due to the rotational torque is suppressed. When the abutting portion reaches the second predetermined distance, one of the two engaging positions that engage with the guided portion of the guide portion is in the concave portion of the guided portion. As a result, the slider can move in the direction of the rotational torque so that a part of the guide part enters the recess, and the rotational torque causes the part of the guide part to engage with the guided part at one engagement position. Enter the recess.
[0023]
As a result, a part of the guide portion engages with the concave portion to restrict the movement of the slider, and as described above, the center of the disk is inserted with a large deviation from the left and right sides of the central portion of the insertion slot. Can be regulated.
Further, in the configuration according to claim 2, when the disc is inserted into the insertion slot at a position where the center of the disk is at the center of the insertion slot or close to the center, the left and right sliders are substantially opposite in the left and right direction. The rotation prevention means restricts the rotation of the slider, and the restriction means that functions by the rotation of the slider does not restrict the movement of the slider to the left and right, allowing the disk to be inserted. It becomes.
[0024]
According to the second aspect of the present invention, the restricting means can be realized with a simple configuration in which the guide portion is engaged with the guided portion at two right and left portions and the recessed portion is provided in the guided portion. it can.
[0028]
  Claim3The invention described inIn the disc insertion restriction device according to claim 2,The guided portion is formed as a groove or a slit, and the concave portion is provided by widening the width of the groove or the slit, and the guide portion is inserted into the groove or the slit at two left and right positions, respectively. The left and right pins guide the slider to be slidable left and right, and the left and right pins reach the end of the groove or the slit. The moving range is regulated.
[0029]
  Claim3According to the invention described in claim2As described above, the guided portion is a groove or slit provided in the slider, and the guide portion is a pin inserted into the groove or slit. The guided portion and the guide portion can be realized with a simple configuration.
[0030]
Further, since the pin and the groove or slit regulate the moving range of the slider, it is not necessary to provide a stopper or the like in order to regulate the moving range of the slider to the left and right, and the regulating means can be made simpler. .
[0031]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a disk insertion restriction device 2 according to an embodiment of the present invention will be described in detail with reference to the drawings.
The disc insertion restriction device 2 in this example is a slot-in type disc drive (for example, reproduction of music, video, etc.) that performs at least information reproduction, reading, writing, etc. of a disc that stores information such as a CD or DVD. The disc playback apparatus is configured to restrict the insertion of the disc so that the center of the disc passes through the substantially central portion of the insertion port of the disc drive when the disc is inserted into the disc drive. The disk drive is provided with a disk transport roller (not shown) on the back side from the vicinity of the insertion slot. When a disk is inserted into the disk drive insertion slot to some extent, the disk is automatically pulled by the disk transport roller. It is like that.
[0032]
As shown in FIGS. 1 to 3, the disc insertion restricting device 2 is arranged in the vicinity of the inside of the front plate of a chassis (not shown) having a disc drive insertion port 27 along the front plate. Like 27, it is arranged so as to extend to the left and right. 1 to 3, the front of the disc insertion restriction device 2 is shown in a state where the front portion having the insertion slot 27 of the disc drive is watermarked.
The disc insertion restriction device 2 includes left and right sliders 21 and 22 that are slidable left and right along the width direction of the insertion slot 27, pins 23a to 23d that guide the sliding movement of the sliders 21 and 22, A spring 24 that urges the left and right sliders 21 and 22 to approach each other is provided.
[0033]
The left and right sliders 21 and 22 are, for example, plate-like members arranged substantially parallel to the front plate of the disk drive chassis, and are arranged in substantially the same plane.
The left and right sliders 21 and 22 have guided slits 21 a and 22 a into which the pins 23 a to 23 d are inserted, and are guided from a guided member 25 that extends to the left and right and from one end of the guided member 25. And a contact member 26 serving as contact portions 21b and 22b that come into contact with a disk into which one side edge is inserted.
The guided member 25 is disposed below the insertion port 27 so as not to prevent the insertion of the disc. Guided slits 21 a and 22 a are formed in the guided member 25 so as to extend to the left and right.
The guided members 25 of the left and right sliders 21 and 22 are arranged so as to overlap vertically. In this example, the guided member 25 of the right slider 22 is arranged on the guided member 25 of the left slider 21. ing.
[0034]
The guided slits 21a and 22a are formed to extend left and right in the guided member 25 of the sliders 21 and 22, and pins 23a to 23d are respectively inserted into the left and right portions. The guided slits 21a and 22a are slightly wider in the vertical width than the diameter of the pins 23a to 23d. The guided member 25 in which the guided slits 21a and 22a are formed is formed with recesses 21c and 22c so as to widen the vertical width of the guided slits 21a and 22a upward, and the recesses 21c and 22c. In this position, the vertical widths of the guided slits 21a and 22a are larger than the diameters of the pins 23a to 23d.
The widths of the guided slits 21a and 22a and the positions where the recesses 21c and 22c are formed will be described later together with the relationship with the pins 23a to 23d.
[0035]
Further, a protruding portion 21d is formed at the upper edge of the right end portion of the guided member 25 of the left slider 21 so as to be close to the lower edge of the guided member 25 of the right slider 22 located above the guided member 25. Has been. On the other hand, a notched portion 22d is formed at the lower edge of the right side of the guided member 25 of the right slider 22 so as to extend left and right and away from the protruding portion 21d. The arrangement of the notch 22d will be described later.
[0036]
The contact member 26 extends above the guided member 25 so that the contact portions 21 b and 22 b provided on the contact member 26 overlap with the insertion port 27 in the front-rear direction. In addition, the abutting portions 21b and 22b are recessed at the side edge portions of the abutting member 26 where the abutting portions 21b and 22b are provided. The edge is prevented from shifting up and down.
[0037]
In the left slider 21, the contact member 26 has a left end portion of the guided member 25 extending upward and a right edge portion serving as a contact portion 21b. Further, in the right slider 22, the contact member 26 has a right end portion of the guided member 25 extending upward and a left edge portion serving as a contact portion 22b. Further, the spring 24 is attached to the upper end portions of the left and right abutting members 26 so as to be bridged between the left and right abutting members 26, and the left and right sliders 21 and 22 are biased so as to approach each other by the spring 24. Has been.
[0038]
Further, since the guided member 25 of the left slider 21 is lower than the guided member 25 of the right slider 22, the left slider 21 is provided with the left and right contact portions 21b and 22b in order to equalize the height positions. The vertical width of the contact member 26 of the slider 21 is longer. Further, when the left end portion of the guided member 25 of the right slider 22 arranged above the guided member 25 of the left slider 21 moves to the leftmost side, it does not interfere with the contact member 26 of the left slider 21. As described above, a concave portion is formed on the lower side of the contact portion 21b on the right edge of the contact member 26 of the left slider 21, and is inserted when the left and right contact portions 21b and 22b are closest to each other. In order to adjust the distance between the left and right contact portions 21b and 22b from the center of the mouth 27 (the center of the turntable (not shown)), the position of the contact portion 21b of the contact member 26 of the left slider 21 is adjusted. The width is wider than the width of the position of the contact portion 22 b of the contact member 26 of the right slider 21.
[0039]
The left and right two pins 23a and 23b among the pins 23a to 23d are pins for the left slider 21 and are arranged at substantially the same height position and inserted into the guided slit 21a of the left slider 21. ing. Of the two left and right pins 23a and 23b, the right pin 23b is arranged slightly to the left of the center of the insertion slot 27, and the left pin 23a is arranged further to the left with a space from the right pin 23b. ing. Of the two left and right pins 23c and 23d inserted into the guided slit 22a of the right slider 22 at the same height, the left pin 23c is disposed slightly to the right of the center of the insertion slot 27, and the right pin 23d is further arranged on the right side with a space from the left pin 23c. At least one of the front and rear ends of the pins 23a to 23d is fixed to the disk drive chassis. The pins 23a to 23d are provided with a not-shown back-and-forth movement restricting member for restricting the back-and-forth movement of the left and right sliders 21 and 22 (movement in the disc insertion direction). In addition, you may provide the back-and-forth movement control member which controls the back-and-forth movement of the left and right sliders 21 and 22 in parts other than the pins 23a to 23d.
[0040]
Here, the relationship between the pins 23a to 23d and the left and right sliders 21 and 22 will be described.
First, in the left slider 21, the left and right width of the guided slit 21a of the guided member 25, the arrangement of the left and right pins 23a and 23b inserted into the guided slit 21a, and the contact portion of the left slider 21 The relationship with the position of 21b is as follows. That is, as shown in FIG. 1A, when the left slider 21 moves to the right and the left contact portion 21b is arranged at the position closest to the center of the predetermined insertion port 27, The left pin 23a reaches the left end of the guided slit 21a and hits the guided member 25, so that the left contact portion 21b does not approach the center of the insertion port 27 any more. Further, as shown in FIG. 1D, when the left slider 21 moves to the left and the left contact portion 21b is arranged at the position farthest from the center of the predetermined insertion port 27, The right pin 23 b reaches the right end of the guided slit 21 a and hits the guided member 25, so that the left contact portion 21 b is no longer separated from the center of the insertion port 27. That is, the left and right pins 23 a and 23 b function as a stopper that restricts the left and right movement of the left slider 21.
[0041]
On the other hand, the right slider 22 is the same as the left slider 21, and as shown in FIG. 1A, the right slider 22 moves to the left, and the right contact portion 22b is inserted in a predetermined manner. When the right pin 23d reaches the right end of the guided slit 22a and hits the guided member 25 when it is arranged closest to the center of the opening 27, the right abutment portion 22b further extends to the center of the insertion opening 27. It is supposed to keep away from. Further, as shown in FIG. 1D, when the right slider 22 moves to the right and the right contact portion 22b is arranged at a position farthest from the center of the predetermined insertion opening 27, The left pin 23c reaches the left end of the guided slit 22a and hits the guided member 25, so that the right contact portion 22b is not further away from the center of the insertion port 27. That is, the left and right pins 23c and 23d function as stoppers that restrict the right and left movement of the right slider 22.
[0042]
As shown in FIG. 1A, when the left and right contact portions 21b and 22b are closest to the center of the insertion port 27, the distance from the center of the insertion port 27 of the left and right contact portions 21b and 22b. Are substantially equal, and the distance between the left and right contact portions 21b and 22b is as close as possible (for example, the largest diameter) within a range that does not hinder smooth insertion of the largest diameter disk among the inserted disks. The distance is shorter than the diameter of the small disk). Note that the distance (first predetermined distance) from the center portion of the insertion opening to the left and right contact portions 21b and 22b at this time is the largest diameter of the discs used in consideration of the disc displacement tolerance. It is preferable that the distance is smaller than the distance obtained by the radius of the small disk and the allowable range. Further, as shown in FIG. 1B, when the left and right contact portions 21b and 22b are farthest from the center of the insertion port 27, the distance from the center of the insertion port 27 of the left and right contact portions 21b and 22b. Are substantially equal, and the distance between the left and right contact portions 21b, 22b is wider than the diameter of the largest disk.
[0043]
Next, the relationship between the contact portions 21b and 22b and the pins 23a to 23d that support the sliders 21 and 22 when the contact portions 21b and 22b are pushed by the disk to be inserted will be described. When the disc inserted into the abutting portion 21b of the left slider 21 abuts and the left slider 21 is pushed to the left by the disc, the abutting portion 21b is located below the abutting portion 21b. On the right side, the left slider 21 is supported by the pins 23a and 23b, so that a counterclockwise rotational torque is applied to the left slider 21. As a result, when the restriction of rotation by the two left and right pins 23a and 23b is released, the right portion of the guided member 25 of the left slider 21 is guided by the right slider 22 as shown in FIG. It moves upward toward the member 25.
[0044]
On the other hand, when the disc inserted into the abutting portion 22b of the right slider 22 abuts and the right slider 22 is pushed to the right by the disc, the abutting portion 22b is located below the abutting portion 22b. Since the pins 23c and 23d support the right slider 22 on the left side of the portion 22b, a clockwise rotational torque is applied to the right slider 22. As a result, when the restriction of rotation by the two left and right pins 23c and 23d is released, the right portion of the guided member 25 of the right slider 22 is guided by the left slider 21 as shown in FIG. It moves downward toward the member 25.
[0045]
Next, the relationship between the positions of the recesses 21c and 22c of the guided slits 21a and 22a of the guided member 25, the position of the contact portion 21b, and the positions of the pins 23a and 23d far from the center portion of the insertion port 27. Will be described.
In the left slider 21, the distance from the center of the insertion port 27 of the left abutting portion 21b that is pushed by the inserted disk and moves to the left is larger than the first predetermined distance described later. A recess 21c is formed so as to be disposed on the position of the left pin 23a inserted into the guided slit 21a of the left slider 21 when the predetermined distance is reached.
In the state where the rotational torque is applied as described above, when the left pin 23a overlaps with the recess 21c, the left pin 23a is relatively recessed with respect to the recess 21c except when a rotation prevention means described later functions. By being able to move so as to enter, the left slider 21 can rotate counterclockwise about the right pin 23b. As a result, the left pin 23a is fitted into the recess 21c, and movement in the direction away from the center of the insertion port 27 of the left slider 21 is restricted.
[0046]
On the other hand, in the right slider 21, the distance from the center of the insertion port 27 of the right contact portion 22b that is moved to the right by being pushed by the disk to be inserted is larger than the first predetermined distance described later. A concave portion 22c is formed so as to be disposed above the position of the right pin 23d inserted into the guided slit 22a of the right slider 22 when the second predetermined distance is reached.
In the state where the rotational torque is applied as described above, when the right pin 23d overlaps the recess 22c, the right pin 23d can move relatively so as to enter the recess 22c except in the case described later. As a result, the right slider 22 can rotate clockwise around the left pin 23c. As a result, the right pin 23d is fitted into the recess 22c, and movement in a direction away from the center of the insertion port 27 of the right slider 22 is restricted. That is, the insertion of the disc is restricted when the center of the disc into which the pins 23a to 23d, the guided slits 21a and 22a, and the recesses 21c and 22c are inserted is greatly shifted from the center of the insertion port 27 to the left and right. It is a regulatory measure.
[0047]
The second predetermined distance is, for example, a disc having the smallest diameter among the discs to be inserted, and a positional deviation from the center of the insertion port 27 at the center of the disc to the left or right is beyond the limit or limit of the allowable range. When the disc is brought into contact with one of the contact portions 21b and 22b by being inserted into the insertion port 27 in a slightly small state, and the one contact portion 21b and 22b is pushed away from the center of the insertion port 27. Further, the distance from the center of the insertion opening 27 of the contact portions 21b and 22b at a stage before the disk is pulled by a disk transport roller (not shown).
It should be noted that the allowable range of lateral displacement from the center of the insertion slot 27 at the center of the disk is a range in which the disk can be set on a turntable (not shown) by a centering mechanism (not shown) of the disk drive when the disk is inserted. It is.
[0048]
Next, the relationship between the restricting means as described above, the protruding portion 21d of the left slider 21 and the cutout portion 22d of the right slider 22 will be described.
As described above, when one of the left and right contact portions 21b and 22b reaches the second predetermined distance from the center of the insertion port 27, one of the contact portions 21b and 22b. The sliders 21 and 22 provided with are rotated. At this time, as shown in FIGS. 2 and 3, the protrusion 21d provided at the upper part of the right end of the guided member 25 of the left slider 21 and the lower part of the guided member 25 of the right slider 22 are provided. It is arranged at a position facing the notch 22d provided on the right side, and the protrusion 21d enters the notch 22d relatively so that the rotation of the sliders 21 and 22 is allowed. .
[0049]
On the other hand, when one of the left and right contact portions 21b and 22b reaches a second predetermined distance from the center of the insertion port 27, the other contact portions 21b and 22b are also shown in FIG. As shown in (c), when the second predetermined distance is almost reached, the notch 22d moves to the right (in the direction away from the center of the insertion port 27) and protrudes. The portion 21d faces the lower edge of the guided member 25 of the right slider 22 on the left side (outside) of the notch portion 22d. At this time, the projecting portion 21d and the lower edge of the guided member 25 are close to each other, and when the sliders 21 and 22 try to rotate in this state, the lower edge of the guided member 25 The protruding portion 21d comes into contact with.
[0050]
Here, when the left and right contact portions 21b and 22b reach the second predetermined distance at the same time, a rotational torque is applied so that the left and right sliders 21 and 22 rotate in opposite directions. When the protruding portion 21d comes into contact with the lower edge of the guided member 25, the rotational torques cancel each other, and the rotation of the left and right sliders 21 and 22 is prevented. Further, when one of the left and right contact portions 21b and 22b reaches the second predetermined distance slightly first, only the sliders 21 and 22 provided with the one contact portion 21b and 22b rotate. However, since the other sliders 21 and 22 are prevented from rotating by the left and right pins 23a to 23d, the protruding portion 21d is also provided at the lower edge of the guided member 25 in this case. By contacting, the left and right sliders 21 and 22 are prevented from rotating. And even if the contact portions 21b and 22b reach the second predetermined distance, the rotation of the sliders 21 and 22 is prevented, so that the pins 23a and 23d do not enter the recesses 21c and 22c of the guide member 25, The sliding movement of the sliders 21 and 22 is not restricted. Accordingly, when the disc is inserted so that the center of the disc passes through the substantially central portion of the insertion slot 27, the contact portions 21b and 22b move substantially evenly to the left and right. However, the disc is continuously inserted, and the disc is pulled in by the disc transport roller as it is.
[0051]
From the above, when the difference in distance (movement amount) from the center of the insertion port 27 of the left and right contact parts 21b and 22b is within a predetermined range, one of the contact parts 21b and 22b is connected to the insertion port 27. The insertion of the disk is not restricted even when the second predetermined distance is reached from the center, and the protrusion 21d and the notch 22d prevent the sliders 21 and 22 from rotating when the disk is inserted from the center. Rotation prevention means. The permissible range of the difference in movement amount is basically determined based on the permissible range of displacement from the center of the above-described disc center to the left and right from the center of the insertion slot 27 and the diameter of the disc. Then, by changing the position of the right end of the notch 22d in the guided member 25 of the right slider 22, the allowable range of the difference in movement amount can be changed.
[0052]
Next, the operation when the disc is inserted from the left side, the right side, and the center with respect to the insertion slot 27 in the disc reproducing apparatus having the disc insertion restriction device 2 will be described.
First, as shown in FIG. 1A, in a standby state where the contact portions 21b and 22b are closest to the central portion of the insertion port 27, the disc is inserted so that the center of the disc passes through the approximate center of the insertion port 27. In this case, the left and right of the front edge in the disc insertion direction come into contact with the left and right contact portions 21b and 22b, respectively. When the disc is inserted, the left and right contact portions 21b and 22b are pushed left and right as shown in FIG. 1B, and the left and right sliders 21 and 22 move away from the center of the insertion slot 27. Move left and right.
When the disc is further inserted, as shown in FIG. 1C, the left and right contact portions 21b and 22b reach the second predetermined distance almost simultaneously, and the pins 23a inserted into the guided slits 21a and 22a, The recessed portions 21c and 22c of the guided slits 21a and 22a overlap with the upper side of 23d. In this state, the inhibition of the rotation of the sliders 21 and 22 by the left and right pins 23a to 23d is released.
[0053]
However, at this time, as shown in FIG. 1C, the protruding portion 21 d of the left slider 21 is on the right side of the notched portion 22 d of the guided member 25 of the right slider 22, and the left and right sliders 21 and 22. When the rotation of the slider 21 is about to rotate, the protruding portion 21d of the left slider 21 hits the lower edge of the guided member 25 of the right slider 21, and the rotation of the left and right sliders 21 and 22 is suppressed, and the pins 23a and 23d are recessed 21c. 22c, the left and right sliders 21 and 22 move further away from the central portion of the insertion port 27 without engaging.
Then, the disk reaches a disk transport roller (not shown) and is set on the turntable of the disk drive drawn by the disk transport roller.
[0054]
On the other hand, when the disc is inserted with the center shifted from the center of the insertion slot, as shown in FIGS. 2 and 3, one of the left and right contact portions 21b and 22b is contacted with one of the contact portions 21b and 22b. Is pushed more by the disc, so that only one of the contact portions 21b and 22b moves so as to be far away from the central portion of the insertion slot.
When the disc is further inserted, the one abutting portion 21b, 22b reaches the second predetermined distance previously, and the guided slit 21a is located above the pins 23a, 23d inserted into the guided slits 21a, 22a. , 22a overlap each other. In this state, the inhibition of the rotation of the sliders 21 and 22 by the left and right pins 23a to 23d is released.
[0055]
At this time, as shown in FIGS. 2 and 3, since the protrusion 21d and the notch 22d, which are rotation preventing means, are arranged at positions that face each other vertically, the protrusion 21d enters the notch 22d. Thus, the rotation of the sliders 21 and 22 is not prevented, and the pins 23a and 23d enter and engage with the recesses 21c and 22c in the sliders 21 and 22 that have moved greatly. As a result, the movement of one of the sliders 21 and 22 is restricted, and the abutting portions 21b and 22b move even if a disk in a state of abutting against the abutting portions 21b and 22b of the one slider 21 and 22 is further inserted. Therefore, the insertion of the disc is prevented, and the disc cannot be inserted unless the disc is brought close to the center of the insertion slot 27.
[0056]
As described above, according to the disc insertion restriction device of this example, it is possible to insert a disc so that the center of the disc passes through the central portion of the insertion port 27.
Further, the basic members constituting the disk insertion restriction device are the left and right sliders 21 and 22, the spring 24, and the pins 23a to 23d, and can be configured with very few members, so that the manufacturing cost can be reduced. Can do.
[0057]
In addition, the left and right sliders 21 and 22 are connected to the spring 24, but since the movable member is not joined to the left and right sliders 21 and 22, other than the left and right sliders joined directly to the spring when there is vibration. In addition, since there is no vibrating member, the rattle noise can be reduced.
The left and right sliders 21 and 22, the spring 24, and the pins 23 a to 23 d are disposed in the vicinity of the insertion opening in the disk drive, and other mechanical parts such as a disk transport roller as in the past. And the position does not overlap vertically. Accordingly, the disk drive having the disk insertion restriction device 2 can be thinned. Needless to say, the present invention is not limited to the above embodiment. The guided portion of the present invention may be a groove instead of a slit, and a pin serving as the guided portion may be a protruding portion.
[0058]
【The invention's effect】
According to the present invention, the disc insertion restricting device of the present invention can restrict the center of the disc from being greatly shifted from the center of the insertion slot to the left and right. Further, it can be placed only in the vicinity of the insertion slot inside the disc reproducing apparatus. Therefore, it is not necessary to place the disc insertion restricting device and the other mechanical parts in the thickness direction in order to arrange them at substantially the same position, and the disc reproducing device can be made thinner.
Further, the disk insertion restriction device can be configured such that the slider is directly urged by the urging means, and does not require a component that is indirectly urged by the urging means via the slider. It becomes possible to suppress the rattling, and it is possible to reduce rattle noise during vibration.
In addition, the component parts are basically left and right sliders, springs that serve as urging means, and parts that serve as restricting means, and the number of parts can be reduced compared to the conventional one, resulting in cost reduction. Is possible.
[Brief description of the drawings]
FIG. 1 shows a disk insertion restriction device according to an embodiment of the present invention and is a diagram for explaining the operation of the disk insertion restriction device when a disk is inserted from substantially the center of an insertion port of a disk drive.
FIG. 2 is a diagram for explaining an operation when a disc is inserted into the disc insertion restriction device from the left side.
FIG. 3 is a diagram for explaining an operation when a disc is inserted into the disc insertion restriction device from the right side.
FIG. 4 is a plan view showing a conventional disc insertion restriction mechanism.
FIG. 5 is a diagram for explaining the operation of a conventional disk loading mechanism.
[Explanation of symbols]
2 Disc insertion restriction device
21 Left slider
21a Guided slit
21b Contact part
21c recess
21d Protrusion
22 Right slider
22a Guided slit
22b Contact part
22c recess
22d Notch
23a-23d pin
24 Spring
27 insertion slot

Claims (3)

When inserting a disc into an insertion port of a disc drive, a disc insertion restricting device for restricting the center of the disc from being shifted left and right from the center of the insertion port,
It is arranged near the insertion slot in the disk drive, has a right abutting part that abuts on the right side of the disk inserted from the insertion slot, and is provided substantially parallel to the front plate of the chassis of the disk drive, A plate-like right slider that is slidable left and right along the width direction of the insertion opening;
The right slider is disposed in the vicinity of the insertion slot in the disk drive and has a left abutting portion that abuts on the left side of the disk inserted from the insertion slot, and is above or below the right slider. And a plate-like left slider that is slidable to the left and right along the width direction of the insertion slot,
An urging means for urging the left and right sliders to approach a first predetermined distance;
One of the lower part of the slider provided on the upper side and the upper part of the slider provided on the lower side is provided with a protrusion in contact with or close to the other part, and the protrusion is provided on the other part. A cutout portion provided so as to be separated from the portion, and when the contact portion of at least one of the sliders reaches a second predetermined distance from the center portion of the insertion port, the protrusion portion and the cutout portion Are arranged at positions facing each other, the slider can be rotated and moved, the projecting part and the notch part do not face each other, and the projecting part faces the outer part of the notch part, A rotation preventing means for restricting the rotational movement of the slider when the protrusion abuts against the other part;
By inserting the disk into the disk drive, the disk comes into contact with at least one of the left and right contact parts, and at least one of the left and right sliders is pushed by the disk. The slider is provided so that a rotational torque is applied to one of the sliders, and a difference in the amount of movement of the left and right sliders from the center of the insertion port is such that the protruding portion and the notch portion face each other. And when the abutting portion of one slider reaches a second predetermined distance that is longer than a first predetermined distance from the center portion of the insertion slot, Restriction means for restricting movement away from the center of the insertion port;
A disc insertion restricting device comprising: The restricting means includes a guided portion provided on the left and right sliders so as to extend to the left and right along the width direction of the insertion port, and at least two left and right locations on the guided portion for each of the left and right sliders. A guide portion that slidably guides the slider in the left-right direction in a state in which rotation of the slider is suppressed by engaging with the engagement position relatively freely to the left and right,
When the contact portion reaches the second predetermined distance, a part of the guide portion enters one of the two engagement positions in the guided portion, 2. The disc insertion restricting device according to claim 1 , wherein a concave portion that is recessed toward the direction of the rotational torque is formed so as to allow the slider to rotate in the rotational torque direction . The guided portion is formed as a groove or a slit, and the concave portion is provided by widening the width of the groove or slit, and the guide portion is inserted into the groove or the slit at two left and right positions, respectively. The left and right pins engage with the guide part,
The left and right pins guide the slider to be slidable to the left and right, and the left and right pins reach the end of the groove or slit, thereby restricting the moving range of the slider. The disc insertion restriction device according to claim 2 .

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