JP2004259416A - Disk cartridge - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To ensure a clamping effect by simplifying the structure of a clamping means for clamping disk interlocking with the opening/closing of an opening for head insertion. <P>SOLUTION: A disk clamping means 6 for clamping disk by pressing a disk 2 to a shell 3 when an opening 37 for head insertion is closed is constituted of a disk pressing member disposed in the center of the upper half 41 of the shell 3 to be vertically moved toward the disk 2 and to be brought into contact with/disconnected from the disk 2, a pressing member for pressing the disk pressing member to press the disk 2 through the disk pressing member to the shell 3, a pair of pressing releasing mechanisms for separating the disk pressing member from the disk 2 against the pressing force of the pressing member when an inner rotor 5 is moved to the position of opening the opening 37 for head insertion, and a linking mechanism. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
According to the present invention, an opening for inserting a head is provided on a side surface of a shell in which a disk-shaped recording medium is rotatably housed, and when the opening is closed, the disk-shaped recording medium is clamped in the shell by disk clamping means. The present invention relates to a disk cartridge in which the clamping of the disk-shaped recording medium by the clamp means is released when the section is opened, and the disk-shaped recording medium is rotatable.
[0002]
[Prior art]
An opening for inserting a head is provided on a side surface of the shell. When the disk is inserted into a drive (recording / reproducing apparatus), a door of the opening for inserting the head is opened, and the clamping of the disc-shaped recording medium by the disc clamping means is released. The head of the drive is inserted into the shell from the opening for inserting the head, the drive shaft of the drive is inserted from the opening for driving, the recording and reproduction is performed by rotating the disk-shaped recording medium, A disk cartridge is known in which when the disk cartridge is taken out of the drive, the opening for inserting the head is closed by a door, and the disk-shaped recording medium is clamped by the disk clamping means so as not to swing (rattle) in the shell. ing.
[0003]
In the disk cartridge, a flexible door is used as a door that opens and closes an opening for inserting a head. A rotating cam, a translation cam follower, a spring, or the like is used for the disc clamping means. When the door is closed, the rotary cam rotates in one direction via an operation wire, moves the translation cam follower to the disk side against the spring, and presses the disk against the lower shell to clamp it. When the door is opened, the rotary cam rotates in the other direction via the operation wire, and the translation cam follower is moved in a direction away from the disk by a spring to release the clamp of the disk. (For example, Patent Document 1)
[0004]
[Patent Document 1]
JP-T-2000-501218 (Claims, page 7, lines 15-21, page 10, lines 15-21, FIGS. 1-5)
[0005]
[Problems to be solved by the invention]
By the way, the disc cartridge disclosed in Patent Document 1 uses a flexible door as a door and uses a rotating cam, a translation cam follower, a spring, and the like as disc clamping means, so that the structure is complicated, and workability in assembling to a shell is improved. Bad and expensive. For this reason, in this type of disk cartridge, the opening for inserting the head can be opened and closed without using a flexible door, and the structure of the disk clamping means is simplified, and the work of assembling to the shell is performed. The biggest challenge was to improve the performance and reduce the cost.
[0006]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a disk cartridge which solves the above-mentioned problems, has a simple structure, can be easily assembled to a shell, and can securely clamp a disk in a shell.
[0007]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a head having a disk-shaped recording medium and an opening for inserting a drive shaft for rotatably accommodating the disk-shaped recording medium and allowing a hub of the disk-shaped recording medium to face the outside. A shell having an opening for insertion on the side surface, an inner rotor rotatably interposed between the upper half of the shell and the disk-shaped recording medium and opening and closing the opening for inserting the head; A disc clamping means for clamping the disc-shaped recording medium by pressing the disc-shaped recording medium against the shell when the opening for the head insertion is closed by a rotor;
A disk pressing member provided at the center of the upper half of the shell so as to be able to move up and down toward the disk-shaped recording medium, and a disk pressing member capable of coming into contact with and separating from the disk-shaped recording medium; An urging member for pressing the disk-shaped recording medium against the lower half of the shell via the disk pressing member; and an urging member for urging the urging member when the inner rotor comes to a position to open the opening for inserting the head. A pressing release member that presses the disk pressing member against the urging force to separate the disk pressing member from the disk-shaped recording medium, and that the pressing release member interlocks with the rotation of the inner rotor to the disk pressing member. With a link mechanism that moves in the direction of approaching or moving away,
When the inner rotor has moved to a position to open the head insertion opening, the pressing release member separates the disc pressing member from the disc-shaped recording medium against the urging force of the urging member. Then, the clamp of the disc-shaped recording medium by the disc pressing member is released to make the disc-shaped recording medium rotatable.
[0008]
According to a second aspect of the present invention, in the disk cartridge according to the first aspect,
By arranging the pressing release member so as to be movable in directions approaching and separating from each other with the disc pressing member interposed between the upper half and the inner rotor of the shell,
The disk pressing member can be reliably pressed and released from both sides of the disk pressing member.
[0009]
According to a third aspect of the present invention, in the disk cartridge according to the first aspect,
The link mechanism includes a protrusion provided on the upper surface of the inner rotor and a protrusion provided on the pressing release member, the protrusion being displaceably engaged and rotating the inner rotor to rotate the protrusion in a radial direction of the inner rotor. By making the long groove to move to
When the inner rotor is rotated in one direction, the pair of pressing release members are moved in a direction away from each other while the projections move in the long groove, and the disk-shaped recording medium is pressed against the lower half by the disk pressing member. When the inner rotor is rotated in the other direction, the pair of pressing release members are moved in a direction approaching each other, and the disc pressing member is moved to the upper half side against the urging force of the urging member. Then, the clamp of the disc-shaped recording medium by the disc pressing member was released.
[0010]
According to a fourth aspect of the present invention, in the disk cartridge of the third aspect,
A first long groove for moving the press releasing member in a direction approaching or away from the disc pressing member by a displacement of the projection with the rotation of the inner rotor; And second and third long grooves extending continuously in the circumferential direction of the inner rotor at both ends.
The pressing release member is moved in a direction approaching or away from the disc pressing member in the first long groove portion, and in the second and third long groove portions, the pressing release member is released even when the inner rotor is rotated. The member was not moved.
[0011]
The invention according to claim 5 is the disk cartridge according to claim 4, wherein
By forming the first long groove portion by continuously forming a plurality of linear groove portions,
The load at the time of moving the press release member from the clamp position to the clamp release position is made substantially constant, so that the press release member can be smoothly moved by the rotation of the inner rotor.
[0012]
According to a sixth aspect of the present invention, in the disk cartridge of the second aspect,
The disk pressing member is formed in a substantially truncated cone shape, and a divergent inclined surface is provided on an outer peripheral portion thereof, and a flange portion is provided at a root portion of the inclined surface.
The inclined surface is pressed by the pressing release member, and the disc pressing member is pressed down against the urging force of the urging member. Further, the position of the disc pressing member moving to the lower half side is regulated by the flange.
[0013]
According to a seventh aspect of the present invention, in the disk cartridge of the second aspect,
By providing a recess at the tip of the disc pressing member to insert the upper part of the hub of the disc-shaped recording medium, by fitting the lower end of the hub of the disc-shaped recording medium into the recess,
At the time of clamping the disc-shaped recording medium, the upper portion of the hub of the disc-shaped recording medium is fitted into the recess so that the disc-shaped recording medium can be securely clamped without shaking.
The invention according to claim 8 is the disk cartridge according to claim 2, wherein
By using a coil spring for the biasing member,
With the coil spring interposed between the upper half of the shell and the inner rotor, the disk pressing member was urged toward the disk-shaped recording medium.
[0014]
According to a ninth aspect of the present invention, in the disk cartridge according to the sixth aspect,
The pressure release member, a base portion that slides along the inner surface of the upper half of the shell, and a disk pressing member operating portion provided at an end of the base portion on the disk pressing member side,
When the pressing release member is slid in a direction approaching the disk pressing member, the inclined surface of the disk pressing member is pressed by the disk pressing member operating section, and the disk pressing member is pressed against the urging force of the urging member. It is moved in a direction away from the disk-shaped recording medium in opposition. When the pressing release members were slid in a direction away from each other, the disk pressing member operating section was engaged with the flange of the disk pressing member, and further movement of the disk pressing member was prevented.
[0015]
The invention according to claim 10 is the disk cartridge according to claim 9, wherein
The disc pressing member operation section has a tip portion in contact with an inclined surface or a flange portion of the disc pressing member, and keeps a non-contact state with respect to the inclined surface or the flange portion of the disc pressing member except for the tip portion. So
The contact surface between the disc pressing member operating section and the inclined surface of the disc pressing member is reduced, and the pressing release member can be moved smoothly.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described (1) a schematic configuration of a disk cartridge, (2) a configuration of a disk-shaped recording medium, (3) a configuration of a shell, (4) a configuration of a shutter, (5) a configuration of an inner rotor, and (6) a clamp. The configuration of the means, (7) schematic configuration of the drive, (8) operation, and (9) other embodiments will be described in this order.
[0017]
(1) Schematic configuration of disk cartridge
FIG. 1 is a perspective view of the disk cartridge, FIG. 1 is a perspective view of the disk cartridge as viewed from the back side, and FIG. 3 is an exploded perspective view of the disk cartridge.
[0018]
The disc cartridge 1 has a disc-shaped recording medium 2 and an opening 36 for inserting a drive shaft for rotatably storing the disc-shaped recording medium 2 and allowing the hub 22 of the disc-shaped recording medium 2 to be exposed to the outside. A shell 3 having an opening 37 for inserting a head on the side surface; and a shutter 4 slidably mounted on the outer surface of the lower half 42 of the shell 3 for opening and closing the opening 36 for inserting the drive shaft. And an inner rotor 5 rotatably interposed between the upper half 41 of the shell 3 and the disk-shaped recording medium 2 to open and close the opening 37 for inserting the head, and by rotating the inner rotor 5 A disc clamp for pressing the hub 22 of the disc-shaped recording medium 2 against the lower half 42 of the shell 3 when the head insertion opening 37 is closed, Is provided with a stage 6, a.
[0019]
When the disc cartridge 1 is inserted into a drive (recording / reproducing apparatus) described later, a position at which the shutter 4 is opened from a position where the shutter 4 closes the drive shaft insertion opening 36 by a shutter opening / closing mechanism provided in the drive. Slide. The inner rotor 5 rotates in conjunction with the sliding of the shutter 4, and the notch 75 provided on the peripheral wall 74 of the inner rotor 5 overlaps the head insertion opening 37, and the head insertion opening When the portion 37 is opened, the disk clamping means 6 is operated in conjunction with the rotation of the inner rotor 5, and the disk-shaped recording medium 2 is released from being clamped by the disk-clamping means 6. It becomes rotatable.
[0020]
Then, the drive shaft of the drive is introduced from the drive shaft insertion opening 36, and the hub 22 of the disk-shaped recording medium 2 is chucked by the drive shaft. On the other hand, the head of the drive is inserted from the head insertion opening 37, so that recording and reproduction are possible.
[0021]
When the disk cartridge 2 is ejected from the drive, the shutter 4 slides from a position where the drive shaft insertion opening 36 is opened to a position where the shutter 4 is closed by a shutter opening / closing mechanism or a shutter spring provided in the drive. The inner rotor 5 rotates in conjunction with the slide of the shutter 4, and the notch 75 provided on the peripheral wall 74 of the inner rotor 5 moves to a non-overlapping position with respect to the head insertion opening 37. The head insertion opening 37 is closed, and the disk clamp means 6 is operated in conjunction with the rotation of the inner rotor 5, so that the hub 22 of the disk-shaped recording medium 2 is shelled by the disk clamp means 6. 3 is pressed against the lower half 42 to be clamped.
[0022]
(2) Configuration of disk-shaped recording medium
As shown in the exploded view of FIG. 3, the disk-shaped recording medium 2 includes a disk body 21 and a hub 22 attached to the center of the disk body 21. The disk body 21 is formed by laminating a magnetic layer and a protective layer on a hard disk substrate.
[0023]
A center hole (not shown) is provided in the center of the disk main body 21, and the hub 22 is attached to the center hole. The hub 22 is made of a magnetic material, and is magnetically chucked to a drive shaft (turntable) 209 of the drive 201 described later. On one surface (the upper surface in FIG. 3) of the hub 22 is provided a convex portion 23 that fits into the opening 36 for inserting the drive shaft, and on the other surface (the lower surface in FIG. 3). Is provided with a convex portion 24 that fits into a concave portion 93 provided at the distal end portion of a disk pressing member 82 described later.
[0024]
(3) Shell configuration
As shown in FIGS. 1 and 2, the shell 3 is formed in a flat box shape in which a front end face 31 is a substantially arcuate face, and a rear end face 32 and left and right end faces 33 and 34 are straight faces.
[0025]
The shell 3 has a drive shaft insertion opening 36 on the bottom surface 35, and the drive shaft insertion opening 36 is opened and closed by a shutter 4 slidably mounted on the bottom surface 35 of the shell 3. It has become.
[0026]
The shell 3 has an opening 37 for inserting a head on the front end face 31. The opening 37 for inserting the head is opened and closed by an inner rotor 5 rotatably housed in the shell 3. It has become so.
[0027]
The front end face 31 of the shell 3 has an arcuate surface 31a having substantially the same curvature as the outer diameter of the disk 2, a first flat surface 31b continuing to one end of the arcuate surface 31a, and continuing to the other end of the arcuate surface 31b. It has a second flat surface 31c.
[0028]
The first flat surface 31b and the second flat surface 31c are formed in a direction perpendicular to a direction of insertion into the drive 201, which will be described later, and the first flat surface 31b is provided on the drive 201. It is in contact with the cartridge positioning member 203. The head insertion opening 37 is provided on the first flat surface 31 b side of the arc-shaped surface 31.
[0029]
The shell 3 is composed of an upper half 41 and a lower half 42 that are injection-molded with a thermoplastic resin such as a plastic such as polycarbonate (PC) or acrylic butylene styrene (ABS).
[0030]
As shown in FIG. 3, the upper half 41 includes an arc-shaped surface forming wall 41 a forming an arc-shaped surface 31 a of the front end face 31, a first flat surface forming wall 41 b forming the first flat surface 31 b, A second flat surface forming wall 41c that forms the second flat surface 31c, and a cutout 41d that forms the head insertion opening 37 is provided in the arcuate surface forming wall 41a. Have been. The upper half 41 includes a rear end surface forming wall 41e forming the rear end surface 32 and left and right end surface forming walls 41f, 41g forming the left and right end surfaces 33, 34. Inside the left and right end surface constituting walls 41f and 41g, there is provided a substantially arc-shaped inner wall 44 which forms a circular inner rotor accommodating portion 43 together with the arc-shaped front end surface 31 and the like, and inside the inner wall 44, A rotation guide groove 45 that guides rotation of the inner rotor 5 is provided by fitting an annular rotation guide protrusion 75 provided on the inner rotor 5 described later.
[0031]
Bosses 46 for screwing are provided on both sides inside the second flat surface constituting wall 41c and inside the rear end surface constituting wall 41e. Further, on the inner surface of the upper half 41, there is provided a concave portion 47 for assembling a pressure releasing member in which the pressure releasing members 73 of the disk clamp means 6 described later are movably arranged. A shaft portion 48 for mounting a disk pressing member 81 of the disk clamping means 6 described later so as to be able to move up and down is provided at the (center portion of the inner rotor storage portion 43), and a pressing release member is provided at a point symmetrical position of the shaft portion 48. Shafts 49, 49 for guiding the slides of the 83, 83 are provided.
[0032]
The concave portion 47 for assembling the pressing release member is provided at a position avoiding the cutout portion 41d constituting the opening portion 37 for inserting the head so as not to hinder the insertion and movement of the magnetic head of the drive. In the rotation range of the inner rotor 5 including the notch 41d, a recess 50 for inserting a step portion 75 for inserting a head of the inner rotor 5 described below is provided.
[0033]
In the inner rotor storage portion 43, an inner rotor 5 that rotatably stores the disk 2 is rotatably stored.
[0034]
The lower half 42 includes an arc-shaped surface forming wall 42a that forms the arc-shaped surface 31a together with the arc-shaped surface forming wall 41a of the upper half 41, and a first flat surface together with a first flat surface forming wall 41b of the upper half 41. 31b, and a flat surface forming wall 42c that forms the second flat surface 31c together with the second flat surface forming wall 41c, and the arc-shaped surface forming wall 42c includes A notch 42d which forms the head insertion opening 37 together with the notch 41d of the upper half 41 is provided. In addition, the lower half 42 is formed by the left and right end surfaces 33 together with the rear end surface forming wall 42e forming the rear end surface 32 together with the rear end surface forming wall 41e of the upper half 41 and the left and right end surface forming walls 41f and 41g of the upper half 41. , 34 are provided with left and right end surface configuration walls 42f, 42g.
[0035]
The lower half 42 has a recess 51 for dropping a shutter, which defines a sliding range of the shutter 4 on the outer surface side. Further, as shown in FIG. 4, the lower half 42 includes an inner wall 52 located inside the peripheral wall 74 of the inner rotor 5. A so-called labyrinth dust-proof wall is formed by the peripheral walls such as the front end face 31, the rear end face 32, the left and right end faces 33, 34, the inner wall 52 of the inner rotor 5, and the inner wall 52 of the lower half 42. It is configured to prevent dust and the like from entering from outside the shell 3.
[0036]
The upper half 41 and the lower half 42 are joined to each other by the boss 46 and the like by screws 53 and the like, and the shell 3 is formed. A shutter guide 54 for preventing the free end of the shutter 4 from rolling up is attached to the outer surface of the lower half 42 of the shell 3. A shutter lock member 55 and an erroneous erasure prevention member 56 are mounted inside the shell 3.
[0037]
(4) Configuration of shutter
The shutter 4 is formed by punching a thin plate having a thickness of about 0.1 to 0.5 mm, such as stainless steel or aluminum, into a rectangular shape. The shutter 4 has a slider mounting portion 4a at one end in the longitudinal direction, and is attached to the shell 3 via a slider 61 mounted on the slider mounting portion 4a.
[0038]
The slider 61 is formed in a rack shape having a gear 62 on one side surface, and has a pair of pin-shaped protrusions 63 on the other side surface. Then, the pair of protrusions 63 are inserted into a pair of pin insertion holes 4b provided in the slider mounting portion 4a of the shutter 4, and the distal ends of the protrusions 63 are swaged to increase the diameter, thereby to increase the slider mounting portion of the shutter 4. 4a.
[0039]
The slider 61 is sandwiched between the upper half 41 and the lower half 42 in a state where the shutter 4 is overlapped with the recess 51 for dropping the shutter of the lower half 42, and the gear 62 is attached to the inner rotor housing portion. 43, the shutter 4 is slidably mounted along the one end surface 33 and moves the shutter 4 between a position at which the drive shaft insertion opening 36 is closed and a position at which it is opened. It is made to let. The shutter 4 is set at a position where the opening 36 for inserting the drive shaft is closed by the spring force of a shutter spring (not shown).
[0040]
(5) Structure of inner rotor
The inner rotor 5 includes a disk-shaped substrate 72 having a hole 71 facing the hub 22 of the disk-shaped recording medium 2 at the center, and a peripheral edge of one surface (a lower surface in FIG. 3) of the substrate 72. An annular rotation guide convex portion 73 provided in the vicinity of the portion, and a cylindrical peripheral wall 74 erected on the peripheral portion of the other surface (the upper surface in FIG. 3) of the substrate 72, The disk-shaped recording medium 2 is rotatably housed in the peripheral wall 74.
[0041]
On one surface of the substrate 72 (the lower surface in FIG. 3) inside the annular rotation guide convex portion 73, a projection 85 constituting a link mechanism 84 of the disk clamp means 6 described below is provided. ing.
[0042]
The inner rotor 5 is rotatably housed in the inner rotor housing 43 by fitting the annular rotation guide convex portion 73 into the rotation guide groove 45 provided in the upper half 41. The head insertion opening 37 is closed from the inside of the shell 3.
[0043]
A cutout portion 75 is provided in a part of the peripheral wall 74 of the inner rotor 5, and the cutout portion 75 is overlapped with the opening portion 37 for inserting the head, whereby the opening portion 37 for inserting the head is formed. It is designed to be open.
[0044]
A head insertion portion and a moving portion connected to the head insertion opening 37 of the substrate 72 of the inner rotor 5 are provided to prevent interference with the head when the head is inserted and to facilitate the insertion and movement of the head. A stepped portion 76 is provided, and a lower end of the stepped portion 76 is inserted into a concave portion 50 for inserting a stepped portion provided on the inner surface of the upper half 41.
[0045]
The inner rotor 5 is provided with a gear 77 that meshes with the gear 62 of the slider 61 on the outer peripheral surface of the peripheral wall 74, and rotates in conjunction with the slide of the shutter 4.
[0046]
The inner rotor 5 closes the opening 37 for inserting the head with the peripheral wall 74 when the shutter 4 is at the position for closing the opening 36 for inserting the drive shaft. The notch 75 of the peripheral wall 74 overlaps the opening 37 for inserting the head when the sliding opening 36 is slid to the position where the opening 36 is opened, so that the opening 37 for inserting the head is opened. I have.
[0047]
(6) Configuration of disc clamping means
As described above, the disk clamp means 6 presses the disk-shaped recording medium 2 against the upper half 41 when the inner rotor 5 is rotated to a position where the inner rotor 5 closes the opening 37 for inserting the head, thereby holding the disk-shaped recording medium 2. It clamps and releases the clamp of the disk-shaped recording medium 2 when the inner rotor 5 rotates to a position where the opening 37 for head insertion is opened.
[0048]
The disk clamping means 6 is mounted on a shaft 48 provided at the center of the inner surface of the upper half 41 so as to be able to move up and down, and is capable of coming and going to and away from the hub 22 of the disk-shaped recording medium 2; An urging member 82 for urging the pressing member 81 to press and clamp the hub 22 of the disk-shaped recording medium 2 against the lower half 42 via the disk pressing member 81, and an inner rotor 5 for opening the head insertion opening 37. When the disk-shaped recording medium 2 is moved to the open position, the disk pressing member 81 is separated from the disk-shaped recording medium 2 against the urging force of the urging member 82 to release the clamp of the disk-shaped recording medium 2. The pressing release members 83, 83 and the pair of pressing releasing members 83, 83 are moved in a direction to approach or separate from each other in conjunction with the rotation of the inner rotor 5. Is provided with a link mechanism 84, the to.
[0049]
The pair of pressing release members 83, 83 are movably disposed in the direction of approaching and separating from each other in the diametrical direction with the disc pressing member 81 interposed between the upper half 41 and the inner rotor 5. The disc pressing member 81 is pressed against the urging force of the urging member 82 when the disc pressing member 81 is moved in the direction in which the disc pressing member 81 is moved away from the hub 22 of the disc-shaped recording medium 2. The clamp of the disk-shaped recording medium 2 by the member 81 is released, and the pressing of the disk pressing member 81 is gradually released when the disk-shaped recording medium 2 moves in the direction away from each other, and the disk pressing member 81 is pressed by the urging force of the urging member 82. Are projected to the disk-shaped recording medium 2 side.
[0050]
The link mechanism 84 is provided on one surface (the lower surface in FIG. 3) of the inner rotor 5, and is provided on the pressing release members 83, 83 so that the protrusion 85 can be displaced. And a long groove 86 to be engaged.
[0051]
As shown in an enlarged manner in FIG. 5, the long groove 86 moves linearly in a direction in which the pair of pressing release members 83, 83 approach or separate from each other due to displacement of the projection 85 accompanying rotation of the inner rotor 5. The pair of pressing release members 83, 83 are moved even if the projection 85 is displaced with the rotation of the inner rotor 5 following the first long groove 87 to be made and both ends of the first long groove 87. And the second and third long groove portions 88 and 89 without any problem.
[0052]
The first long groove portion 87 is configured by connecting two linear grooves 87a, 87b in order to smoothly move the pressing release members 83, 83 substantially in proportion to the rotation angle of the inner rotor 5. . The second and third long groove portions 88 and 89 are formed in arc shapes having different center points C1 and C2 in the rotation direction of the inner rotor 5 and having the same curvature.
[0053]
As shown in FIG. 3, the disc pressing member 81 is formed in a substantially truncated cone shape, has a divergent inclined surface 91 on the outer peripheral portion, and has a flange portion 92 at the root of the inclined surface 91. .
[0054]
The disc pressing member 81 has a concave portion 93 at the tip end for inserting and holding the lower end of the hub 22 of the disc-shaped recording medium 2, and the convex portion 24 provided on the hub 22 fits in the concave portion 93. Are adapted to each other.
[0055]
The biasing member 82 uses a coil spring and is interposed between the upper half of the shell and the inner rotor.
[0056]
The pair of pressing release members 83, 83 includes a base 101 that slides along the inner surface of the upper half 41, and a disk pressing member operating portion 102 that is bent at one end of the base 101. Have. The base portion 101 is provided with a moving guide groove 101a in the approaching and separating directions, and the shaft portion 49 provided on the inner surface of the upper half 41 is inserted into the guide groove 101a.
[0057]
When the shutter 4 and the inner rotor 5 are in the positions where the opening 36 for inserting the drive shaft and the opening 37 for inserting the head are closed, as shown in FIGS. Reference numeral 85 is located on the side of the second groove 88 of the long groove 86 provided in the pair of press release members 83, 83, and is in a state in which the pair of press release members 83, 83 are most separated. Therefore, the disc pressing member 81 protrudes toward the disc-shaped recording medium 2 until the flange portion 92 engages (abuts) with the pair of press releasing members 83, 83 by the urging force of the urging member 82. Then, the hub 22 of the disk-shaped recording medium 2 is pressed against the lower half 42 to clamp the disk-shaped recording medium 2.
[0058]
When the shutter 4 and the inner rotor 5 are at positions where the opening 36 for inserting the drive shaft and the opening 37 for inserting the head are opened, the shutter 4 and the inner rotor 5 are provided on the inner rotor 5 as shown in FIGS. The projection 85 is located on the third groove 89 side of the long groove 86 provided in the pair of press release members 83, 83, and makes the pair of press release members 83, 83 closest to each other. Therefore, the disc pressing member 81 is pressed against the inclined surface 91 by the disc pressing member operation portion 102 of the pair of pressing release members 83, 83, and the disc pressing member 81 resists the urging force of the urging member 82. The clamp 81 of the disc-shaped recording medium 2 is released by moving the disc 81 away from the hub 22 of the disc-shaped recording medium 2.
[0059]
As shown in FIG. 12, the disc pressing member operating section 102 has a tip 102a in contact with the inclined surface 91 or the flange 92 of the disc pressing member 81, and a portion 102b other than the tip 102a is formed by the disc pressing member. 81 is not in contact with the inclined surface 91 or the flange portion 92.
[0060]
(7) Schematic configuration of drive
As shown in FIG. 13, the recording / reproducing apparatus 201 includes a cartridge insertion section 202 into which the disk cartridge 1 is inserted. The cartridge insertion section 202 includes a cartridge positioning member 203 on one side thereof, which is in contact with the first flat surface 31b of the disk cartridge 1.
[0061]
When the disc cartridge 1 has entered a predetermined position, the cartridge positioning member 203 comes into surface contact with the first flat surface 31b to prevent further entry of the disc cartridge 1 and position the disc cartridge 1. It has become.
[0062]
The cartridge insertion portion 202 has a shutter opening / closing member 204 that abuts on one end of the slider 61 or the shutter 4 on the other side and slides the slider 61 and the shutter 4 in a direction to open the drive shaft insertion opening 36. It has.
[0063]
Further, the cartridge insertion section 202 includes a magnetic head device 205 on the back end side. The magnetic head device 205 is configured by providing a magnetic head 208 at the tip of a rotating arm 207 that rotates around a shaft 206. The magnetic head 208 is moved from the head insertion opening 36 to the disk. The disc-shaped recording medium 2 is inserted into the cartridge 1 and chucked on the drive shaft (turntable) 209 to perform recording and reproduction on the disc-shaped recording medium 2.
[0064]
(8) Description of operation
Next, the operation of the disk cartridge 1 and the drive 201 will be described.
[0065]
As shown in FIG. 13, when the disk cartridge 1 is inserted into the cartridge insertion portion 202 of the drive 201 in a normal posture, the shutter 4 is unlocked by the shutter lock member 55 by the shutter opening / closing member 204, and the shutter 4 and the slider 61 are moved. Slide at the same time. Then, while the shutter 4 opens the opening 36 for inserting the drive shaft, the slide of the slider 61 rotates the inner rotor 5, and the notch 75 provided on the peripheral wall 74 overlaps with the opening 37 for inserting the head. The opening 37 for inserting the head is opened, and the rotation of the inner rotor 5 causes the projection 85 provided on the inner rotor 5 to move into the long groove provided on the pressing release member 83 as shown in FIGS. The inside of the inner groove 86 is shifted from the second long groove portion 88 side to the third long groove portion 89 side via the first long groove portion 87, and the pair of pressing release members 83, 83 slide in the direction approaching each other. The distal end portion 102a of the disk pressing member operating section 102 provided on the pair of pressing release members 83, 83 presses the inclined surface 91 of the disk pressing member 81, and the disk pressing section The disc pressing member 81 is moved toward the upper half 41 against the urging force of the urging member 82 to release the clamping of the hub 22 of the disc-shaped recording medium 2 by the disc pressing member 81, and the disc-shaped recording medium 2 In a freely rotatable state.
[0066]
When the drive cartridge insertion opening 36 and the head insertion opening 37 are opened and the disk cartridge 1 is inserted to a position where the clamp of the disk-shaped recording medium 2 is released, as shown in FIG. The first flat surface 31b of the cartridge 1 comes into surface contact with the cartridge positioning member 203 to prevent further intrusion of the disk cartridge 1 and position the disk cartridge 1.
[0067]
It is detected that the disk cartridge 1 is inserted to a predetermined position, the opening 36 for inserting the drive shaft and the opening 37 for inserting the head are opened, and the clamp of the disk-shaped recording medium 2 is released. Then, the drive shaft 209 of the drive 201 is introduced into the disc cartridge 1 through the drive shaft insertion opening 36, the hub 22 of the disk-shaped recording medium 2 is magnet chucked by the drive shaft 209, and the head insertion The magnetic head 208 is introduced into the disk cartridge 1 from the opening 37 of the disk cartridge 1 so that the disk 2 can be recorded and reproduced.
[0068]
When the disk cartridge 1 is ejected from the drive 201 after the end of recording and reproduction, the shutter 4 slides in the closing direction to close the opening 36 for inserting the drive shaft, and the inner rotor 5 rotates to rotate the peripheral wall 74. Is not overlapped with the opening 37 for inserting the head, and the opening 37 for inserting the head is closed by the peripheral wall 74 of the inner rotor 5.
[0069]
Due to the rotation of the inner rotor 5, the protrusion 85 provided on the inner rotor 5 moves through the first long groove 87 from the third long groove 89 side through the first long groove 87 inside the long groove 86 provided on the pressing release member 83. The pair of pressing members 83 is moved toward the groove portion 88, and the pair of pressing members 83, 83 are slid in a direction away from each other, so that the pressing of the disc pressing member 81 by the pair of pressing members 83, 83 is gradually alleviated.
[0070]
The disc pressing member 81, the pressure of which has been alleviated by the pair of pressing release members 83, 83, is moved toward the lower half 42 by the urging force of the urging member 82 to move the hub 22 of the disc-shaped recording medium 2 to the lower half. The disc cartridge 1 is clamped in the shell 3 by pressing the disc cartridge 1 in the shell 42 to reliably prevent the disc cartridge 1 from rattling in the shell 3 when the disc cartridge 1 is carried.
[0071]
(9) Another embodiment
In the embodiment shown in the drawings, the disk cartridge having the structure in which the opening 3 for inserting the drive shaft is opened and closed by the shutter 4 is shown, but the shutter 4 is omitted and the disk-shaped recording medium 2 is clamped by the disk clamping means 6. At times, a configuration in which the hub 22 of the disk-shaped recording medium 2 reliably closes the hub may be adopted. Further, in the embodiment shown in the drawings, an example is shown in which a pair of (two) pressing release members 83 are used, but the number of pressing release members 83 may be one or three or more. Further, in the embodiment shown in the drawings, the case where the first long groove 87 is formed by connecting two linear grooves 87a and 87b is shown, but three or more linear grooves are formed continuously. Or may be formed in a curved shape.
[0072]
【The invention's effect】
The disk cartridge of the present invention has the following effects.
(1) In the disk cartridge of the first aspect, the disk-shaped recording medium is easily and reliably clamped in the shell by pressing the disk-shaped recording medium against the lower half of the shell with the disk pressing member by the urging force of the urging member. be able to. Further, the clamp by the urging member and the disc pressing member is released by the pressing release member, and the disk-shaped recording medium can be made to be rotatable.
(2) In the disk cartridge according to the second aspect, when the inner rotor is rotated in a direction to open the opening for inserting the head, the link mechanism moves the pair of pressing release members toward each other to attach the disk pressing member. When the inner rotor is rotated in the direction to close the head insertion opening by moving the inner rotor toward the upper half side against the urging force of the urging member to release the clamping of the disk-shaped recording medium by the disk pressing member, the link mechanism is used. The pair of pressing members move in the direction away from each other to gradually release the pressing of the disk pressing member, and the disk pressing member moves to the disk-shaped recording medium side to move the disk-shaped recording medium to the lower half side. Press and clamp.
(3) In the disk cartridge according to the third aspect, the link mechanism includes a projection provided on the lower surface of the inner rotor and a projection provided on the pressing release member, wherein the projection is engaged and the projection is engaged by rotation of the inner rotor. Since the long groove is moved in the radial direction of the inner rotor, and the inner rotor is rotated in one direction, the pair of pressing release members are moved in a direction away from each other while the protrusions are displaced in the long groove, When the inner rotor is rotated in the other direction, the pair of pressing release members are moved in directions approaching each other.
(4) The disk cartridge according to (4), wherein the inner rotor is provided at both ends of the first long groove portion for moving the pair of pressing release members in a direction approaching or moving away from each other by the displacement of the projection accompanying rotation of the inner rotor. Since the second and third long groove portions extending in the circumferential direction are provided, even if the inner rotor rotates after the projection has been displaced in the second and third long groove portions, the pair of pressing release members is no more. Since it does not move, the pair of pressing release members can be reliably stopped at a desired position.
(5) In the disk cartridge according to the fifth aspect, since the first long groove is formed by continuously forming a plurality of linear grooves, the pressing release member is smoothly moved substantially in proportion to the rotation angle of the inner rotor. be able to.
(6) In the disk cartridge according to the sixth aspect, the disk pressing member is formed in a substantially truncated conical shape, and a divergent inclined surface is provided on the outer peripheral portion. It can be pushed down against the urging force of the urging member.
(7) In the disk cartridge according to the seventh aspect, a concave portion for inserting a lower end portion of the hub of the disk-shaped recording medium is provided at a distal end portion of the disk pressing member, and a lower end portion of the hub of the disk-shaped recording medium is fitted into the concave portion. By doing so, the disk-shaped recording medium can be reliably clamped without shaking.
(8) In the disk cartridge of the eighth aspect, since the coil spring is used as the urging member, the coil spring is interposed between the shell and the inner rotor to urge the disk pressing member toward the disk-shaped recording medium. can do.
(9) In the disk cartridge according to the ninth aspect, when the pressing release member is slid in the direction approaching the disk pressing member, the inclined surface of the disk pressing member is pressed by the disk pressing member operating section so that the disk is pressed. The pressing member is moved in a direction away from the disk-shaped recording medium against the urging force of the urging member. Further, when the pair of pressing release members are slid in a direction away from the disk pressing member, the pressing of the inclined surface of the disk pressing member by the disk pressing member operating portion is reduced, and the disk pressing member is attached to the disk pressing member. The urging force of the urging member moves the lower half of the shell to clamp the disk-shaped recording medium on the lower half of the shell.
(10) In the disk cartridge according to the tenth aspect, the distal end portion of the disk pressing member operating portion may contact an inclined surface or a flange portion of the disk pressing member, and other than the distal end portion, the inclined surface or the flange portion of the disk pressing member. , The contact surface between the disc pressing member operating portion and the inclined surface of the disc pressing member is reduced, and the pressing release member can be moved smoothly.
[Brief description of the drawings]
FIG. 1 is a perspective view of a disk cartridge.
FIG. 2 is a perspective view of the disk cartridge viewed from the bottom side.
FIG. 3 is an exploded perspective view of the disk cartridge.
FIG. 4 is a sectional view of a main part.
FIG. 5 is a plan view of a pressing release member.
FIG. 6 is a plan view of a main part in a state where an opening for inserting a drive shaft and an opening for inserting a head are closed.
FIG. 7 is a side view showing a state in which an opening for inserting a drive shaft and an opening for inserting a head are closed.
FIG. 8 is a sectional view taken along the line AA of FIG. 6;
FIG. 9 is a plan view of a main part in a state where an opening for inserting a drive shaft and an opening for inserting a head are opened.
FIG. 10 is a side view showing a state where an opening for inserting a drive shaft and an opening for inserting a head are opened.
FIG. 11 is a sectional view taken along line AA of FIG. 9;
FIG. 12 is an enlarged sectional view of a main part of FIG. 10;
FIG. 13 is a schematic plan view of a disk cartridge and a recording / reproducing device.
FIG. 14 is a plan view showing a state where a disk cartridge is inserted.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Disc cartridge, 2 ... Disc-shaped recording medium, 3 ... Shell, 4 ... Shutter, 5 ... Inner rotor, 6 ... Disc clamping means, 22 ... Hub, 36 ... Opening for inserting a drive shaft, 37 ... Head insertion 41, upper half, 42, lower half, 74, peripheral wall of the inner rotor, 75, notch, 81, disk pressing member, 82, urging member, 83, pressing release member, 84, link mechanism, 85 ... projection, 86 ... long groove, 87 ... first long groove, 87a, 87b ... linear groove, 88 ... second long groove, 89 ... third long groove, 91 ... inclined surface, 92 ... flange 101: base portion, 102: disc pressing member operating portion, 102a: tip portion.

Claims (10)

A disk-shaped recording medium;
A shell having a bottom surface side for an opening for inserting a drive shaft for rotatably storing the disk-shaped recording medium and allowing a hub of the disk-shaped recording medium to face the outside, and a shell having an opening for head insertion on a side surface; ,
An inner rotor rotatably interposed between the upper half of the shell and the disk-shaped recording medium and opening and closing the head insertion opening,
Disk clamping means for pressing the disk-shaped recording medium against the shell to clamp the disk-shaped recording medium when the opening for head insertion is closed by the inner rotor,
The disk clamp means is provided at the center of the upper half of the shell so as to be able to move up and down toward the disk-shaped recording medium, and a disk pressing member capable of coming in contact with and separating from the disk-shaped recording medium, and biasing the disk pressing member An urging member for pressing the disk-shaped recording medium against the lower half of the shell via the disk pressing member; and an urging member for urging the urging member when the inner rotor comes to a position to open the opening for inserting the head. A pressing release member that presses the disk pressing member against the urging force to separate the disk pressing member from the disk-shaped recording medium, and that the pressing release member interlocks with the rotation of the inner rotor to the disk pressing member. A link mechanism for moving in a direction of approaching or moving away from the disk cartridge. 2. The device according to claim 1, wherein the pressing release member is arranged so as to be movable in directions approaching and separating from each other with the disc pressing member interposed between the upper half of the shell and the inner rotor. 3. Disk cartridge. The said link mechanism is comprised with the protrusion provided in the upper surface of the said inner rotor, and the long groove provided in the said press release member, and the said protrusion engages so that displacement is possible. 2. The disc cartridge according to 1. A first long groove for moving the pair of pressing release members in a direction toward or away from each other by a displacement of the projection accompanying rotation of the inner rotor, and both ends of the first long groove; 4. The disk cartridge according to claim 3, further comprising second and third long groove portions which are continuous with the inner rotor and extend in the circumferential direction of the inner rotor. The disk cartridge according to claim 4, wherein the first long groove is formed by connecting a plurality of linear grooves. 3. The disk pressing member according to claim 2, wherein the disc pressing member is formed in a substantially truncated conical shape, has a flared inclined surface on an outer peripheral portion, and has a flange at a root portion of the inclined surface. Disk cartridge. 5. The disk cartridge according to claim 4, wherein the disk pressing member has a concave portion at an end thereof for inserting and holding an upper portion of a hub of the disk-shaped recording medium. The disk cartridge according to claim 2, wherein the urging member is configured by interposing a coil spring between an upper half of the shell and the inner rotor. The pressing release member is provided at a base portion that slides along the inner surface of the upper half of the shell, and is provided at an end of the base portion on the disk pressing member side and slides in a direction away from the disk pressing member. Engages with the flange of the disc pressing member to prevent the disc pressing member from moving to the lower half side, and presses the inclined surface when slid in the direction approaching the disc pressing member. 7. The disk cartridge according to claim 6, further comprising: a disk pressing member operation unit that moves the disk pressing member toward the upper half side against the urging force of the urging member. The disk pressing member operation section has a tip portion in contact with the inclined surface or the flange portion of the disk pressing member, and other than the tip portion is in a non-contact state with the inclined surface or the flange portion of the disk pressing member. The disk cartridge according to claim 9, wherein:

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