JP4250789B2 - Magnetic head lifting control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a magnetic head used for recording and / or reproducing an information signal on a disk-shaped recording medium capable of recording an information signal such as a magneto-optical disk, and a lower position adjacent to the disk-shaped recording medium. The present invention relates to a lift control device for a magnetic head that moves up and down between a raised position separated from a recording medium.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a disk recording / reproducing apparatus that uses an optical disk capable of recording an information signal by the action of a light beam emitted from an optical pickup device and an external magnetic field applied from a magnetic head as a recording medium has been used.
[0003]
In this type of disk recording / reproducing apparatus, when an information signal is recorded on an optical disk, the magnetic head is brought close to the main surface provided with the signal recording area of the optical disk. Further, when reproducing the information signal recorded on the optical disk, it is not necessary to apply an external magnetic field from the magnetic head, so the magnetic head is moved to a position separated from the main surface of the optical disk. Thus, by separating the magnetic head from the optical disk when it is not necessary to use the magnetic head, the magnetic head and the optical disk are prevented from being worn due to the relative sliding contact between the magnetic head and the optical head. In addition, the durability of the optical disk can be improved.
[0004]
In a disk recording / reproducing apparatus using an optical disk capable of recording information signals as a recording medium, a holder rotatably supported by an apparatus main body in which an optical pickup device constituting a disk rotation driving mechanism and recording / reproducing means is arranged. The disk cartridge used is loaded into a recording / reproducing position on the apparatus main body side. This disk recording / reproducing apparatus is configured to attach a magnetic head to the tip of a head support arm extended on a holder and to rotate the head support arm in conjunction with the rotation of the holder.
[0005]
Thus, in the disk recording / reproducing apparatus in which the head support arm that supports the magnetic head is extended on the holder that is rotatably supported by the apparatus main body, when the information signal is recorded, The magnetic head is slidably brought into contact with the optical disk loaded at the recording / reproducing position where the magnetic head is inserted into the holder through the provided opening for inserting the magnetic head. In this disk recording / reproducing apparatus, if the disk cartridge is inserted and removed while the magnetic head is still inserted into the holder, the disk cartridge collides with the magnetic head and damages the magnetic head.
[0006]
Therefore, this type of disk recording / reproducing apparatus reproduces an information signal recorded on the optical disk in order to reliably prevent the disk cartridge from colliding with the magnetic head when the disk cartridge is inserted into and removed from the holder. It is moved to a raised position that escapes further outward from the position where it is performed.
[0007]
Incidentally, a disc recording / reproducing apparatus that uses an optical disc capable of recording an information signal as a recording medium has a recording mode for recording the information signal on the optical disc, a reproduction mode for reproducing the information signal recorded on the optical disc, and a recording / reproducing position. The position of the magnetic head is controlled to be raised or lowered in accordance with an ejection mode for ejecting the loaded optical disk.
[0008]
The lifting control of the magnetic head is configured to be performed by moving a lifting control lever for lifting / lowering a lifting / lowering operation member for lifting / lowering the magnetic head by a drive motor. In addition, the raising / lowering operation member and the raising / lowering control lever are connected by the connection member.
[0009]
In order to control the raising / lowering position of the magnetic head according to each operation mode, the position of the raising / lowering operation lever is detected to detect the position of the magnetic head, and the drive motor is driven and controlled according to the detected position of the magnetic head. Thus, the position of the magnetic head is controlled.
[0010]
[Problems to be solved by the invention]
The conventional disk recording / reproducing apparatus is configured to detect the position of the magnetic head by providing a detection switch at a position corresponding to each of the recording mode position, the reproducing mode position, and the ejecting position.
[0011]
As described above, when the detection switches are provided according to the positions in order to detect each position of the magnetic head, not only the number of detection switches is increased, but the installation space for the detection switches is increased, and the disk recording / reproducing apparatus is further increased. It becomes difficult to reduce the size.
[0012]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a magnetic head lifting control device that can further reduce the size of a disk recording / reproducing device.
[0013]
Another object of the present invention is to further reduce the size of the disk recording / reproducing apparatus by simplifying the mechanism for detecting the position of the magnetic head that is moved up and down to a plurality of positions according to the operation mode. An object of the present invention is to provide a lift control device for a magnetic head.
[0014]
Still another object of the present invention is to provide a magnetic head lift control device capable of reliably protecting a magnetic head.
[0015]
[Means for Solving the Problems]
  In order to achieve the above-described object, the magnetic head lifting control apparatus according to the present invention is lifted and lowered between a lowered position close to the disk-shaped recording medium and a raised position separated from the disk-shaped recording medium. RuSupported by the head support armA magnetic head;Located on the lower surface side of the head support arm, the head support arm has a lifting operation plate for lifting and lowering the head support arm, and a cam piece for lifting and lowering the lifting operation plate. When engaged with the lifting operation plate, the head support arm is moved to the raised position by the lifting operation plate, and the engagement state between the cam piece and the lifting operation plate is released by moving in the other direction. The operation lever that moves the head support arm to the lowered position by the elevating operation plate and the operation lever are connected to each other, and the operation lever is moved in one direction at the first position to perform the operation. While engaging the cam piece of the lever with the lifting operation plate and moving the operation lever in the other direction at the second position, the engagement state between the cam piece of the operating lever and the lifting operation plate To releaseElevation control lever and the elevation control leverMove between the first position and the second positionOf the drive unit and the elevation control leverpositionSingle detection to detectmechanismAndThe elevating control lever has a detection piece detected by the detection mechanism, and when the power is turned on, the elevating control lever is moved to the first position by rotating the drive unit in one direction. The magnetic head is moved to the raised position, and the detection mechanism is in a state in which the detection piece is not detected. When the magnetic head is moved to the lowered position, the drive unit is rotated in the other direction. The lifting control lever is moved from the first position to the second position, and the detection mechanism detects the detection piece when the lifting control lever moves from the first position to the second position. Passes through the detection mechanism as the elevating control lever moves, so that the detection piece is detected from the state where the detection piece is not detected, and the detection piece is not detected again. By on purpose it becomes possible to detect that the lift control lever is moved to the second position from the first position.
[0016]
  And a base on which the disc-shaped recording medium is mounted on the upper surface side, and a holder that is rotatably attached to the base on the upper surface side of the base. The drive unit and the detection mechanism are disposed on the bottom side, and the magnetic head is attached to the holder. A supporting head supporting arm extends on the upper surface, the lifting operation plate is supported on the upper surface side so as to be rotatable with respect to the holder, and the operation lever is movable on the upper surface side in the one direction and the other direction. Supported by
[0017]
  Further, by rotating the drive unit in one direction for a predetermined time when the power is turned on, the detection mechanism detects the position of the elevation control lever, and the detection mechanism detects the second position and the second position. The elevation control lever that is detected to be located between the position 1 and the second position is moved to the first position.
[0018]
  DetectionmechanismThe optical detection elementHave.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a holder device according to the present invention and a disk recording / reproducing apparatus using the holder device will be described with reference to the drawings.
[0020]
First, the disk cartridge inserted and held in the holder device according to the present invention will be described. As shown in FIGS. 1 and 2, the disk cartridge 1 is a cartridge formed by abutting and joining a pair of upper and lower halves 2 and 3 together. An optical disk 5 capable of recording an information signal is rotatably stored in the main body 4. As shown in FIG. 2, a central opening 7 is provided at the center of the lower surface side of the cartridge body 4 so that the disk hub 6 attached to the center of the optical disk 5 accommodated in the cartridge body 4 faces outward. It has been. In addition, recording is performed so that a part of the signal recording area formed on the main surface of the optical disk 5 accommodated in the cartridge body 4 is exposed to the outside over the inner and outer circumferences at opposite positions on the upper and lower surfaces of the cartridge body 4. An opening 8 for recording and an opening 9 for recording and reproduction are provided. These openings 8 and 9 are located at the center in the left-right direction of the cartridge body 4 and are formed from the vicinity of the center of the cartridge body 4 to one side surface.
[0021]
Further, a shutter member 10 for opening and closing the recording opening 8 and the recording / reproducing opening 9 is movably attached to the cartridge body 4. The shutter member 10 is formed by bending a thin metal plate into a U-shaped cross section, is attached so as to be fitted from one side of the cartridge body 4, and is moved to the cartridge body 4 along one side. When the shutter member 10 is in a position where the openings 8 and 9 are closed, the shutter member 10 is locked by the shutter lock member 11 provided in the cartridge main body 4 and the movement is restricted. The shutter member 10 is shuttered by a shutter opening member provided on the holder device side that enters a shutter opening member entry groove 12 formed on one side of the cartridge body 4 when the disk cartridge 1 is inserted into the holder device. The lock by the lock member 11 is released, and a movement operation is performed in a direction to open the openings 8 and 9.
[0022]
A movement restricting member provided on the holder device side is associated with the central portion of the connecting piece 10c that connects the shutter portions 10a and 10b that respectively close the recording opening 8 and the recording / reproducing opening 9 of the shutter member 10. A mating engagement hole 13 is provided.
[0023]
The shutter opening member entry groove 12 is formed with a side surface orthogonal to one side surface of the cartridge body 4 in which the shutter member 10 moves as an open end.
[0024]
The disc cartridge 1 formed in this way is inserted into the holder device with the side surface side where the open end of the shutter opening member entry groove 12 faces as the insertion end.
[0025]
Further, as shown in FIG. 2, a pair of positioning pins engaged with positioning pins provided on the disc recording / reproducing apparatus side so as to be positioned on both sides of the recording / reproducing opening 9 are provided on the lower surface side of the cartridge body 4. Holes 14 and 15 are provided. Further, as shown in FIG. 2, the cartridge body 4 has an erroneous recording detection hole 16 for identifying whether or not information signals can be recorded on the optical disc 5 and an erroneous recording preventing member 17 for opening and closing the erroneous recording detection 16. Is provided.
[0026]
The disc recording / reproducing apparatus to which the holder device according to the present invention, into which the disc cartridge 1 constructed as described above is inserted and held, is mounted on the recording / reproducing device as shown in FIGS. The disk rotation drive mechanism for rotating the optical disk 5 that enables recording of the information signal stored in the disk cartridge 1 to be recorded, and the information signal recording / reproduction with respect to the optical disk 5 rotated by the disk rotation drive mechanism are performed. An apparatus main body 21 housing an optical pickup device constituting a recording / reproducing mechanism, a lid body 22 for opening and closing a cartridge mounting portion configured on the upper surface side of the apparatus main body 21, and between the apparatus main body 21 and the lid body 22 The disk cartridge is loaded into the cartridge mounting portion that is located on the main body 21 side and is rotated in conjunction with the lid 22. And a holder 23 that graying.
[0027]
The apparatus main body 21 is formed as a substantially rectangular casing, and as shown in FIGS. 3 and 4, the lock of the lid 22 locked at the position where the upper surface side of the apparatus main body 21 is closed on the front side is released. A lid opening operation button 24 for performing recording, a recording mode selecting button 25 for selecting a recording mode, a remote controller connecting portion 26 to which a remote controller for remotely operating the disk recording / reproducing apparatus is connected, and the like are provided. Further, as shown in FIG. 4, input / output jack portions 27 and 28 for connecting external devices, a microphone connection jack portion 29, and the like are provided on one side surface of the apparatus main body 21. Further, on the back side of the apparatus main body 21, a battery storage unit 30 is provided in which a battery for supplying power for driving the disk recording / reproducing apparatus is stored. The battery is inserted into and removed from the battery storage unit 30 through a battery insertion / removal port provided on the other side of the apparatus main body 21. The battery insertion / removal port is opened and closed by a battery lid 32 attached to the apparatus main body 21.
[0028]
On the upper surface side of the lid 22, as shown in FIG. 3, a plurality of operation mode selection buttons 33 for selecting an operation mode of the disc recording / reproducing apparatus, and a display and an operation state indicating the contents of information signals to be recorded / reproduced Etc., a display unit 34 using a liquid crystal display panel is provided.
[0029]
Although not shown, the lid 22 is rotatably attached to the apparatus main body 21 by fixing the base end side to a support member that is rotatably supported on the back side of the apparatus main body 21. The upper surface side of the apparatus main body 21 is opened and closed. Further, a rotation arm 35 is connected between the middle part of the side of the lid body 22 and the apparatus main body 21 in order to realize stable rotation of the lid body 22 as shown in FIG.
[0030]
A base 36 to which a disk rotation driving mechanism and an optical pickup device constituting a recording / reproducing unit of the disk recording / reproducing apparatus are attached is disposed inside the apparatus main body 21. As shown in FIGS. 6 and 7, the base 36 is formed in a flat rectangular shape having a size sufficient to be housed in the apparatus main body 21 using a highly rigid metal plate.
[0031]
On the upper surface side of the base 36, a cartridge mounting portion 37 on which the disk cartridge 1 used in the disk recording / reproducing apparatus is positioned and mounted is provided. As shown in FIG. 6, a pair of positioning pins 38, 39 that engage with the positioning holes 14, 15 provided in the disk cartridge 1 protrude from the upper surface side of the base 36 constituting the cartridge mounting portion 37. Yes. The disk cartridge 1 is mounted in the cartridge mounting portion 37 by positioning the mounting holes 14 and 15 with the pair of positioning pins 38 and 39 to position the mounting position. Further, on the upper surface side of the base 36, a cartridge detection switch 40 for detecting that the disk cartridge 1 is mounted in the cartridge mounting portion 37 is provided.
[0032]
As shown in FIG. 6, a disk rotation driving mechanism 41 that rotates the optical disk 5 stored in the disk cartridge 1 mounted in the cartridge mounting section 37 is attached to a substantially central portion of the base 36. As shown in FIGS. 6 and 7, the disk rotation drive mechanism 41 includes a spindle motor 42 and a disk table 44 that is integrally attached to the spindle 43 of the spindle motor 42. The spindle motor 42 has a spindle 43 protruding from the upper surface side of the base 36 as shown in FIG. 6, and is attached to the lower surface side of the base 36 via a motor mounting plate 45 as shown in FIG. As shown in FIG. 6, the disk table 44 is integrally attached to the tip end side of the spindle 43 that protrudes from the upper surface side of the base 36.
[0033]
The optical disk 5 accommodated in the disk cartridge 1 is placed on the disk table 44 of the disk rotation drive mechanism 41 when the disk cartridge 1 is mounted on the cartridge mounting portion 37, and the disk is mounted by a magnet provided on the disk table 44 side. When the hub 6 is sucked, centering is achieved, and the hub 6 is clamped so as to be rotatable together with the disc table 44.
[0034]
Further, an optical pickup device 48 that emits a light beam that scans a signal recording area of the optical disk 5 that is clamped to the disk table 44 and is driven to rotate together with the disk table 44 is attached to the base 36. The optical pickup device 48 includes a semiconductor laser that is a light source that emits a light beam that scans a signal recording area of the optical disc 5, a light detection element that detects a return light beam reflected from the optical disc 5, and light emitted from the semiconductor laser. An optical block 49 incorporating an optical element such as a beam splitter that separates the beam and the return light beam reflected from the optical disk, and an objective lens that converges and irradiates the light beam emitted from the semiconductor laser onto the signal area of the optical disk 5 50 and the objective lens 50 so that the light beam applied to the optical disc 5 through the objective lens 50 is focused on the signal recording area of the optical disc and follows a recording track formed on the optical disc. A biaxial actuating drive displacement in the optical axis direction of the lens 50 and the plane direction orthogonal to the optical axis direction. And a mediator.
[0035]
As shown in FIG. 6, the optical pickup device 48 is configured so that the objective lens 50 faces the main surface of the optical disk 5 on the disk table 44 through the pickup opening 51 formed in the base 36. Arranged on the side. As shown in FIG. 7, the optical pickup device 48 has a shaft insertion hole 52 provided on one end side of the optical block 49 inserted through a guide shaft 53 attached to the lower surface side of the base 36, and the other end side of the optical block 49. The guide support portion 54 formed on the base plate 36 is engaged with a guide piece 55 formed by bending one side of the base 36 parallel to the guide shaft 53, so that the guide support portion 54 is supported so as to be movable toward and away from the disk table 44. .
[0036]
The optical pickup device 48 is moved by a pickup feeding mechanism 56 disposed on the lower surface side of the base 36, thereby moving in the direction of approaching and separating from the disk table 44 while being guided by the guide shaft 53 and the guide piece 55. Is done. The pickup feed mechanism 56 includes a feed screw 57 attached to the lower surface side of the base 36 in parallel with the guide shaft 53, and a feed motor 58 that rotationally drives the feed screw 57. The feed screw 57 is connected to the drive shaft of the feed motor 58 via a connecting gear mechanism 59. The optical pickup device 48 is connected to the pickup feeding mechanism 56 by engaging a screw engaging piece 60 attached to one end of the optical block 49 with a feed screw 57. Here, when the feed motor 58 of the pickup feed mechanism 56 is driven and the feed screw 57 is rotationally driven, the optical pickup device 48 is moved while the screw engagement piece 60 is guided by the thread of the feed screw 57. As a result, the feed operation is performed in the directions indicated by the arrows A and B in FIG. 6, which are guided by the guide shaft 53 and the guide piece 55 and approach and separate from the disk table 44.
[0037]
The optical pickup device 48 is supported by the guide shaft 53 and the guide piece 55 so that the optical axis of the objective lens 50 is positioned on the center line of the disc table 44, and therefore, the light irradiated through the objective lens 50 The signal recording area of the optical disk 5 can be accurately scanned over the inner and outer circumferences by the beam.
[0038]
As shown in FIG. 8, a holder 23 for mounting the disc cartridge 1 on the cartridge mounting portion 37 is rotatably attached to the upper surface side of the cartridge mounting portion 37 of the base 36. The holder 23 is formed by bending a thin metal plate such as stainless steel and is sized to accommodate and hold the disc cartridge 1. As shown in FIGS. 8 and 9, the holder 23 has a top plate portion 62 formed in a substantially rectangular shape having a size sufficient to cover the upper surface side of the disk cartridge 1. First and second cartridge holding portions 63 and 64 for supporting both sides of the disk cartridge 1 into which the holder 23 is inserted are provided on both sides facing each other. The cartridge holding portions 63 and 64 are configured such that the side walls 65 and 66 of the holder 23 formed by vertically bending both sides of the top plate portion 62 and the front ends of these side walls 65 and 66 are parallel to the top plate portion 62. The cartridge support pieces 67 and 68 are formed by bending them into two.
[0039]
An open portion between the first and second cartridge holding portions 63 and 64 on the front side perpendicular to both sides formed on the first and second cartridge holding portions 63 and 64 of the holder 23 is inserted into the cartridge. The disk cartridge 1 is inserted between the first and second cartridge holding portions 63 and 64 through the cartridge insertion / removal opening 69. At this time, the disc cartridge 1 is inserted into the holder 23 with the side facing the open end of the shutter opening member entry groove 12 orthogonal to one side surface to which the shutter member 11 is attached as the insertion end. The disk cartridge 1 inserted into the holder 23 is supported by the first and second cartridge holding portions 63 and 64 on one side surface to which the shutter member 11 is attached and the other side surface opposite to the one side surface.
[0040]
Note that the cartridge detection switch 40 provided on the base 36 side is connected to the holder 23 at the tip end side of the cartridge support piece 68 constituting the second cartridge holding portion 64 when the holder 23 is rotated to the cartridge mounting portion 37 side. A switch insertion hole 70 is formed so as to project inward.
[0041]
As shown in FIGS. 10 and 11, the holder 23 includes first and second shafts formed on the base end side of the side walls 65 and 66 constituting the first and second cartridge holding portions 63 and 64. As shown in FIG. 6, the joint holes 71 and 72 can be rotated to the base 36 by engaging with first and second shaft portions 73 and 74 formed on both sides of the base end side of the base 36. Supported.
[0042]
Here, a notch 75 communicating with the first shaft engagement hole 71 is provided on the base end side of the side wall 65 in which the first shaft engagement hole 71 is formed. This notch 75 is for inserting the first shaft 73 and engaging with the first shaft insertion hole 71 when the holder 23 is attached to the base 36. The notch 75 is formed so as to be inclined from the first shaft engagement hole 71 toward the top plate 62 side.
[0043]
As shown in FIGS. 6 and 12, the first shaft portion 73 with which the first shaft engaging hole 71 engages is the tip of a rising piece 76 that is formed on one side of the base end portion side of the base 36. It is formed at the tip of a bent portion 77 that is bent toward the inside of the base 36. As shown in FIGS. 12 and 13, the first shaft portion 73 has bulged portions 78 a having arcuate circumferential surfaces on opposite short sides orthogonal to the longitudinal direction in the direction perpendicular to the base 36. 78b is formed. The first shaft portion 73 is formed such that the width W1 on the short side where the bulging portions 78a and 78b are formed is smaller than the width W2 of the notch portion 75 communicating with the first shaft engagement hole 71. The width W3 is slightly smaller than the inner diameter R1 of the first shaft engagement hole 71 and larger than the width W2 of the notch 75. In order to engage the first shaft engaging hole 71 from the direction orthogonal to the first shaft portion 73 by forming the shaft portion 73 first in this way, the notch portion 75 is made to bulge portion 78a. After the first shaft portion 73 is engaged with the first shaft engaging hole 71 through the notch portion 75, the holder 23 is rotated toward the base 36 side. When the notch 75 is moved to oppose the first shaft 73 in the longitudinal direction, the first shaft engagement hole 71 is prevented from coming off from the first shaft 73.
[0044]
The 1st axial part 73 comprised in this way is manufactured through the following processes.
[0045]
First, on one side of the back side of the base 36, as shown in FIG. 14, a projecting piece 80 having a rectangular cross-sectional shape with the height direction serving as the base material of the first shaft portion 73 as the longitudinal direction on the tip side. A rising piece 76 having a substantially L shape provided with is formed. Next, the leading end side of the rising piece 76 provided with the protruding piece 80 is bent 90 ° toward the inside of the base 36 as shown in FIG. Next, as shown in FIG. 16, from a short side opposite to the longitudinal direction of the projecting piece 80, a constant pressure is applied using a pair of molds 81, 82 having arc surfaces as the molding surfaces 81a, 82a. As a result, the first shaft portion 73 in which the bulging portions 78a and 78b whose peripheral surfaces are arcuate surfaces is formed in the short side portion of the projecting piece 80 is formed.
[0046]
As described above, the first shaft portion 73 is integrally formed by press-molding the protruding piece 80 provided at the tip of the rising piece 76 formed by bending a part of the base 36. The shaft can be easily formed without reducing the number of components. Further, since the peripheral surfaces of the bulging portions 78a and 78b are formed as arcuate surfaces, when the circular first shaft engaging hole 71 is engaged with the first shaft portion 73, the shaft engaging hole 71 is used. Smooth rotation is guaranteed.
[0047]
Further, as shown in FIG. 6, the second shaft portion 74 with which the second shaft engagement hole 72 engages is formed at the distal end side of the rising piece 83 that is formed on the other side of the base end portion side of the base 36. Is formed by bending a part of the base plate toward the outside of the base 36. The second shaft portion 74 is formed to have a diameter sufficient to allow the second shaft engagement hole 72 to be inserted therethrough. As with the first shaft portion 73, the second shaft portion 74 also has opposite surfaces of the projecting pieces that form a rectangular cross-sectional shape provided on the tip end side of the rising piece 83, and the molding surface is an arc surface. A bulging portion having a circular arc surface as a peripheral surface may be provided by deforming by applying a certain pressure using the pair of molds. By forming such a bulging portion, smooth rotation of the second shaft engagement hole 72 having a circular shape that engages with the second shaft 74 is ensured.
[0048]
A support mechanism comprising the first and second shaft engaging holes 71 and 72 formed as described above, and the first and second shaft portions 73 and 74 with which the shaft engaging holes 71 and 72 are engaged. As shown in FIG. 17, the holder 23 is arranged substantially perpendicular to the base 36 to support the holder 23 rotatably on the base 36. At this time, the cutout portion 75 communicating with the first shaft engagement hole 71 is opposed to the short side where the bulging portion 78 a of the first shaft portion 73 is formed, and is inserted into the first shaft portion 73. It becomes possible. Here, the second shaft engaging hole 72 is inserted into the second shaft portion 74, and then the first shaft engaging hole 71 is engaged with the first shaft portion 73 through the notch portion 75. The holder 23 is supported by the base 36 in a rotatable state via the first and second shaft portions 73 and 74.
[0049]
When the holder 23 is rotated toward the base 36 after the first and second shaft engaging holes 71 and 72 are engaged with the first and second shaft portions 73 and 74, respectively, as shown in FIG. The notch 75 is opposed to the longitudinal direction perpendicular to the short side where the bulging portions 78a and 78b of the first shaft 73 are formed, and the first shaft portion of the first shaft engagement hole 71 is formed. 73 to prevent the first and second shaft engaging holes 71 and 72 from being engaged with the first and second shaft portions 73 and 74.
[0050]
When the holder 23 is rotated in the direction of the arrow C1 in FIG. 18 until it reaches the state shown in FIG. 18 on the base 36 side, the base end of the side wall 65 in which the notch 75 is formed is on the base end side of the base 36. The first and second shaft portions 73, 74 are restricted from moving in the axial direction by facing one side of the movable locking piece 85 formed upright at the first and second shaft portions 73, The stopper from 74 is prevented.
[0051]
By the way, when the holder 23 is rotated in the direction of the arrow C1 until it reaches the state shown in FIG. 18 on the base 36 side, the engagement piece 86 formed on the base end side of the side wall 65 is provided on the base 36 side. The state where the rotation in the direction of the arrow C2 in FIG. When the engaging piece 86 is engaged with the locking portion 87, the holder 23 is rotated by a certain amount from the base 36 around the first and second shaft portions 73 and 74. As shown in FIG. 5, the cartridge insertion / removal port 69 on the front side faces the outside of the apparatus main body 21 and is placed at a position where the disk cartridge 1 can be inserted / removed.
[0052]
When the holder 23 is rotated in the direction of arrow C1 in FIG. 18, the locking portion 87 locks the engagement piece 86 on the holder 23 side, and restricts further rotation of the holder 23 in the direction of arrow C2 in FIG. The holder 23 is allowed to rotate in the direction toward the base 36 in the direction of arrow C1 in FIG. 18 from the state shown in FIG. The holder 23 is rotated in the direction of arrow C1 in FIG. 18 around the first and second shaft portions 73 and 74, and is rotated to a position parallel to the base 36 as shown in FIG. That is, the holder 23 can be rotated between a raised position shown in FIG. 18 separated from the base 36 and a lowered position shown in FIG. 19 adjacent to the base 36 side.
[0053]
In the state shown in FIG. 19 in which the holder 23 is rotated to the lowered position close to the base 36, the disk cartridge 1 inserted and held in the holder 23 is positioned and mounted on the cartridge mounting portion 37 formed on the base 36. In this state, the optical disk 5 accommodated in the disk cartridge 1 is mounted on the disk rotation driving mechanism 41 and rotated to drive recording and reproduction of information signals.
[0054]
The engagement piece 86 provided in the holder 23 is a part of the distal end side of the elastic displacement piece 88 formed by making a cut 88a on the proximal end side of the side wall 65 constituting the first cartridge holding portion 63. It is formed by folding back toward the outside of the holder 23. The engaging portion 87 for engaging the engaging piece 86 is formed by bending a protruding piece formed by providing a notch in the central portion of the rising piece 89 that is formed to rise on one side of the base 36 inward of the base 36. Is formed.
[0055]
As shown in FIGS. 5 and 18, the holder 23 rotatably attached to the base 36 disposed in the apparatus main body 21 rotates in conjunction with the lid body 22 as shown in FIGS. 5 and 18. Rotating interlocking piece 90 formed on the front end side of side wall 65 constituting 63 is engaged with engagement hole 107 formed in connecting piece 106 provided on one side of the front end side of lid 22. Thus, by engaging the rotation interlocking piece 90 with the connecting piece 106 on the lid body 22 side, the holder 23 can be rotated in conjunction with the rotation of the lid body 22.
[0056]
Here, since the engaging hole 107 provided in the connecting piece 106 with which the connecting piece 91 engages is formed with an opening larger than the thickness of the connecting piece 91, the lid 22 is engaged. Further, it can be rotated in the direction of arrow C2 in FIG. In this way, the lid 22 can be rotated in a direction further away from the holder 23, thereby forming a shape that covers the cartridge insertion / extraction opening 69 on the front side from the periphery of the holder 23. In addition, when the holder 23 is rotated to a position at which the disk cartridge 1 can be inserted and removed, the lid 22 is further rotated in the direction of the arrow C2 in FIG. The cartridge insertion / removal opening 69 can be greatly opened. Since the cartridge insertion / removal port 69 is largely opened, the disk cartridge 1 can be reliably inserted / removed.
[0057]
By the way, when the holder 23 is rotated to a position where the holder 23 is lifted away from the base 36 and allows the disk cartridge 1 to be inserted and removed as shown in FIG. A pair of first and second lid body rotation urging plates 91 and 92 constituting a first elastic displacement portion for further rotation in a direction away from 23 is provided. As shown in FIG. 9, the first and second lid body rotation urging plates 91 and 92 are formed by punching U-shaped cuts 91a and 92a in the top plate portion 62 of the holder 23, respectively. It is formed integrally with the part 62. As shown in FIG. 9, the first and second lid rotation urging plates 91 and 92 have first and second cartridge holding portions 63 and 64, respectively, with the central portion side of the top plate portion 62 as a connecting portion. It is formed to extend toward the side. The first and second lid body rotation urging plates 91 and 92 are arranged so that the free end side is the top plate so as to press and urge the inner surface side of the lid body 22 disposed so as to cover the top plate portion 62. It is displaced so as to protrude above the portion 62. That is, as shown in FIG. 20, the first and second lid rotation urging plates 91 and 92 are inclined so as to protrude upward from the connecting portion side to the top plate portion 62 toward the free end side. Is formed. On the free end sides of the first and second lid rotation urging plates 91 and 92, lid pressing projections 93 and 94 protrude upward so as to surely press the inner surface of the lid 22. It is formed as follows.
[0058]
In addition, the first and second lid rotation urging plates 91 and 92 are integrally formed with first and second cartridge pressing pieces 95 and 96 constituting a second elastic displacement portion. The cartridge pressing pieces 95 and 96 are formed by branching a part of the first and second lid rotation urging plates 91 and 92, and the lid rotation urging plates 91. 92, the free end side is formed by making cuts 95a and 95b toward the base end side. The first and second cartridge pressing pieces 95 and 96 are arranged such that when the holder 23 holding the disk cartridge 1 is rotated together with the lid 22 to the recording / reproducing position close to the base 36 as shown in FIG. 1 is pressed and supported on the cartridge mounting portion 37 side, and is displaced toward the holder 23 side with respect to the first and second lid rotation urging plates 91 and 92 as shown in FIG. Yes. That is, the first and second cartridge pressing pieces 95 and 96 are configured such that the lid 22 is rotated to the closing position of the apparatus main body 21 and the holder 23 is rotated to the recording / reproducing position, as shown in FIG. When the first and second lid rotation urging plates 91 and 92 are pressed by the lid 22 and are elastically displaced toward the top plate 62 side, they move toward the holder 23 so as to enter the holder 23. The first and second lid rotation urging plates 91 and 92 are formed with different initial displacement amounts in the thickness direction of the holder 23.
[0059]
The first and second cartridge pressing pieces 95 and 96 also protrude toward the holder 23 side so as to reliably press the upper surface side of the disk cartridge 1 mounted on the cartridge mounting portion 37. Pressing protrusions 97 and 98 are formed.
[0060]
Further, at the substantially central portion in the longitudinal direction of the side wall 65 constituting the first cartridge holding portion 63 of the holder 23, as shown in FIGS. 9 and 10, one side surface side of the disc cartridge 1 inserted into the holder 23 is provided. The shutter opening member entry groove 12 is formed, the shutter lock member 11 is elastically deformed to unlock the shutter member 10, and the shutter member 10 is inserted into the holder 23 with respect to the cartridge body 4. A shutter opening member 99 that is moved in the direction of opening the recording opening 8 and the recording / reproducing opening 9 by relative movement is folded back toward the inside of the holder 23.
[0061]
As shown in FIGS. 9 and 10, the disk inserted in the holder 23 is positioned closer to the cartridge insertion / removal opening 69 than the position where the shutter opening member 99 is provided on the side wall 65 constituting the first cartridge holding portion 63. The shutter member 10 attached to the cartridge 1 is held at a position where the recording and reproducing openings 8 and 9 are opened, and when the disk cartridge 1 is ejected from the holder 23, it is moved in a direction protruding from the holder 23. A shutter member holding piece that constitutes a third elastic displacement portion that holds the shutter member 10 with respect to the cartridge body 4 and moves the shutter member 10 in a direction to close the recording opening 8 and the recording / reproducing opening 9. 101 is provided. The shutter member holding piece 101 is formed integrally with the side wall 65 by making a U-shaped cut 101 a in the side wall 65. As shown in FIG. 10, the shutter member holding piece 101 is formed so as to extend from the proximal end portion of the side wall 65 toward the distal end portion side, and the engagement provided on the connecting piece 10 c of the shutter member 10 on the distal end portion side. An engagement protrusion 102 that engages with the hole 13 is formed. The engagement protrusion 102 is formed by bending a part of the shutter member holding piece 101 on the front end side so as to protrude inward of the holder 23.
[0062]
On the base end side of the side wall 66 constituting the second cartridge holding portion 64 of the holder 23, as shown in FIG. 11, an erroneous insertion preventing piece 103 for preventing erroneous insertion of the disk cartridge 1 is provided. The erroneous insertion preventing piece 103 is formed by bending a part of the side wall 66 inward of the holder 23. The erroneous insertion prevention piece 103 is used when the disc cartridge 1 is 90 ° different from the normal insertion direction, for example, when the shutter member 10 is attached and inserted into the holder 23 with one side as an insertion end. The insertion into the holder 23 is restricted to prevent erroneous insertion.
[0063]
Further, as shown in FIG. 9, the top plate portion 62 of the holder 23 includes a third elastic displacement portion that presses and supports the upper surface on the insertion end side of the disk cartridge 1 inserted into the holder 23. A cartridge pressing piece 104 is integrally formed. The third cartridge pressing piece 104 is integrated with the top plate portion 62 so as to extend in the insertion direction into the holder 23 of the disk cartridge 1 by making a U-shaped cut 104 a in the top plate portion 62. Is formed. The third cartridge pressing piece 104 has the tip side of the holder 23 so that the disk cartridge 23 inserted in the holder 23 is pressed toward the cartridge support pieces 67 and 68 of the first and second cartridge holding portions 62 and 63. It is displaced so as to protrude inward. A protruding portion 105 that protrudes inward of the holder 23 is provided on the distal end side of the third pressing piece 104.
[0064]
Thus, by providing the top cartridge 62 with the third cartridge pressing piece 104 for pressing the disk cartridge 1 inserted into the holder 23, the disk cartridge 1 is prevented from being lifted from the cartridge support pieces 67 and 68. It can be inserted into the holder 23 in a stable state. When the holder 23 is moved to the recording / reproducing position lowered to the base 36 side as shown in FIG. 19, the third cartridge pressing piece 104 moves the disc cartridge 1 held by the holder 23 to the cartridge mounting portion 37 side. Press and support.
[0065]
As described above, when the holder 23 is moved to the raised position separated from the base 36 that allows the disk cartridge 1 to be inserted and removed together with the lid 22, the lid 22 is rotated in the direction away from the holder 23. First and second lid rotation urging plates 91 and 92 for urging, and first and second cartridge pressing pieces 95 for pressing and supporting the disk cartridge 1 held by the holder 23 toward the cartridge mounting portion 67, 96, an elastically displaced member provided in the holder 23, such as the shutter member holding piece 101 and the third cartridge pressing piece 104 for pressing and supporting the disk cartridge 1 inserted in the holder 23, is formed integrally with the holder 23. Therefore, the number of parts can be reduced, and the assembly of the holder 23 becomes easy.
[0066]
In the disc recording / reproducing apparatus according to the present invention, when the holder 23 is rotated from the lowered position toward the cartridge mounting portion 37 to the raised position, the disc cartridge 1 inserted and held in the holder 23 is ejected from the holder 23. An eject mechanism 110 is provided. As shown in FIG. 6, the eject mechanism 110 is disposed on one side of the back side of the base 36, and is inserted into a holder 23 that is rotatably supported on the base 36. And an eject lever 111 that is elastically displaced by the insertion end.
[0067]
The eject lever 111 is formed using an elastically displaceable metal leaf spring, and as shown in FIG. 22, a mounting piece 112 serving as a fixed end to the base 36 is provided on the base end side. On one end side of the attachment piece 112, a shaft insertion hole 114 is formed as a fixed end that is inserted into a caulking shaft 113 projecting from the base 36. From one side of the other end side of the mounting piece 112, a pressing operation portion 115 that is pressed by the insertion end of the disk cartridge 1 inserted into the holder 23 is extended toward the shaft insertion hole 114 side. The pressing operation portion 115 is connected to the attachment piece 112 so as to be bent vertically, and is extended so as to be inclined from the connection portion side to the attachment piece 112 toward the distal end side. That is, when the eject lever 111 is mounted on the base 36, the pressing operation unit 115 is inclined and extended from the mounting piece 112 so that the tip end side is separated from the base 36. In addition, the pressing operation unit 115 is bent in a substantially U-shape along bent portions 116 and 117 provided at a connection portion to the attachment piece 112 and a middle portion thereof. That is, as shown in FIG. 23, when the eject lever 111 is mounted on the base 36, the pressing operation unit 115 is deformed following the direction in which the disc cartridge 1 inserted into the holder 23 is ejected from the holder 23. . In addition, the bending part 117 provided in the middle part of the pressing operation part 115 is provided obliquely so that the front end side of the pressing operation part 115 is deformed upward away from the base 36 as shown in FIG. Yes.
[0068]
Further, as shown in FIG. 9, a locking piece 119 that engages with a locking hole 118 provided on the back side of the top plate portion 62 of the holder 23 protrudes from the upper edge side of the distal end side of the pressing operation portion 115. Has been. The locking piece 119 engages with the locking hole 118 when the pressing operation unit 115 is pressed by the disk cartridge 1 inserted into the holder 23 and elastically displaced, and moves to the back side of the holder 23. The pressing operation unit 115 is held at a position elastically deformed by the disk cartridge 1 by the locking piece 119 being locked in the locking hole 119, and can press the disk cartridge 1 held by the holder 23. Be regulated.
[0069]
On the other end side of the attachment piece 112, an engagement piece 121 that is inserted through a rotation restricting hole 120 formed in the base 36 and protrudes to the lower surface side of the base 36 is provided. When the holder 23 rotatably supported by the base 36 is rotated to the recording / reproducing position side which is the lowered position, the engaging piece 121 is, as shown in FIG. The cartridge is relatively engaged with a disengagement piece 122 formed by folding a part of the cartridge support piece 68 constituting the holding portion 64 so as to hang down.
[0070]
Further, a notch hole 123 is formed between one end side where the shaft insertion hole 114 serving as a fixed end of the attachment piece 112 is formed and a connecting portion of the pressing operation unit 115, and a pair of notches 123 are formed on both sides of the notch hole 123. Elastic displacement portions 124 and 124 are formed. These elastic displacement portions 124 and 124 enable the attachment piece 112 to be elastically displaced in the direction of the arrow D1 in FIG. 22 orthogonal to the extending direction of the pressing operation portion 115.
[0071]
As shown in FIG. 24, the eject lever 111 formed as described above is positioned so that the pressing operation portion 115 extends to the back side of the base 36, and the engagement piece 121 is inserted through the rotation restricting hole 120. The shaft insertion hole 114 is inserted into the caulking shaft 113, and the tip end portion of the caulking shaft 113 is turned back, so that the shaft 36 is pivotally mounted on the base 36. At this time, the eject lever 111 is rotatable about the caulking shaft 113 within a range in which the engagement release piece 121 moves within the rotation restricting hole 120.
[0072]
As shown in FIG. 25, when the disc cartridge 1 is inserted into the holder 23 that has been turned to the raised position that allows the disc cartridge 1 to be inserted and removed, the eject lever 111 is pushed into the holder 23. The portion 115 is pressed by the insertion end of the disc cartridge 1, and is rotated in the direction of arrow E1 in FIG. 24 about the crimping shaft 113 so that the engagement piece 121 is in contact with one side of the rotation restricting hole 120. When the disk cartridge 1 is further inserted into the holder 23 from the state where the engagement piece 121 is in contact with one side of the rotation restriction hole 120 and the rotation is restricted, the pressing operation portion 115 is inserted into the insertion end of the disk cartridge 1. Is elastically displaced in the direction of arrow E1 in FIG. As shown in FIG. 27, when the disc cartridge 1 is inserted to the holding position of the holder 23, the pressing operation unit 115 is elastically deformed along the back side of the holder 23. At this time, the pressing operation portion 115 is inclined so that the tip end side is directed toward the top plate portion 62 side of the holder 23. Therefore, the locking piece 119 provided on the tip end side of the pressing operation portion 115 is as shown in FIG. The engaging hole 118 formed on the back side of the top plate portion 62 of the middle holder 23 is inserted and engaged from the lower surface side of the top plate portion 62. When the locking piece 119 is locked to the locking hole 118 on the holder 23 side, the eject lever 111 is elastically deformed and held at the position so that the pressing operation unit 115 is along the back side of the holder 23. To press the disk cartridge 1 held in the disk is restricted.
[0073]
A support provided on the base 36 so that the holder 23 is lowered to the recording / reproducing position side close to the base 23 in a state where the disc cartridge 1 is held and the eject lever 111 is locked to the back side of the holder 23 which is elastically displaced. When the shafts 73 and 74 are rotated in the direction of arrow F1 in FIG. 25 and rotated to the recording / reproducing position close to the base 36 as shown in FIG. 122 engages with an engagement piece 121 provided on the eject lever 111.
[0074]
When the holder 23 is rotated to the recording / reproducing position, the disk cartridge 1 held by the holder 23 is positioned and mounted on the cartridge mounting portion 37, and the optical disk 5 stored in the disk cartridge 1 is the disk of the disk rotation drive mechanism 41. It is clamped by the table 44 and the optical disk 5 is rotationally driven so that the information signal can be recorded and reproduced.
[0075]
In order to eject the disk cartridge 1 mounted on the cartridge mounting portion 37, when the holder 23 is rotated together with the lid 22 in the upward direction in the direction of arrow F2 in FIG. It pushes in the direction of arrow G1 in FIG. When the engagement piece 121 is pressed in the direction of the arrow G1 in FIG. 29, the attachment piece 112 is rotated in the direction E2 in FIG. 27 about the caulking shaft 113, and the base 36 is centered on the elastic displacement portions 124, 124. 23, 28, and 29, which are separated from each other, are rotationally displaced in the direction of arrow H1. When the mounting piece 112 is rotationally displaced in the direction of arrow H1 in FIG. 23, the pressing operation portion 115 is rotationally displaced in the direction of arrow J1 in FIG. When the pressing operation unit 115 is rotationally displaced in the direction of the arrow J1 in FIG. 28, the engagement of the locking piece 119 with the locking hole 118 is released as shown in FIG. When the engagement of the locking piece 119 with the locking hole 118 is released, the pressing operation portion 115 of the eject lever 111 that has been elastically displaced by the insertion of the disk cartridge 1 into the holder 23 and accumulated the elastic displacement force is used as the holder. 26 and 27, the disk cartridge 1 inserted and held in the holder 23 protrudes outward from the holder 23 so that it can be taken out from the holder 23. .
[0076]
By the way, when the holder 23 is rotated in the ascending direction away from the base 36, the attachment piece 112 is rotated in the direction of arrow E2 in FIG. In a state of being separated from 122. At this time, the caulking shaft 113 supports the attachment piece 112 by applying a pressing force to the extent that the attachment piece 112 is fixed. Therefore, the attachment piece 112 is held at the position where it is temporarily rotated, and the engagement piece 121 is disengaged. It is placed in a state of being separated from the piece 122. In this way, when the disc cartridge 1 is ejected, the engaging piece 121 is separated from the disengaging piece 122, so that the holder 23 into which the disc cartridge 1 is not inserted is on the recording / reproducing position side in FIG. When the holder 23 is rotated in the direction or when the holder 23 is rotated from the recording / reproducing position side toward the raised position side, the contact between the engagement piece 121 and the engagement release piece 122 is avoided. Generation of an unpleasant collision sound can be prevented.
[0077]
The eject mechanism 110 configured as described above can configure a mechanism for ejecting the disk cartridge 1 inserted into the holder 23 with only the eject lever 111 formed of a metal plate or the like that can be elastically displaced. Can be reduced, and the configuration can be extremely simple.
[0078]
The eject mechanism 110 described above is configured to lock the eject lever 112 on the holder 23 side when the disc cartridge 1 is held by the holder 23. However, the pressing operation portion 115 of the eject lever 112 is arranged on the base 36 side. By forming the locking piece 119 on the base 36 side, the eject lever 112 can be locked on the base 36 side.
[0079]
Further, as shown in FIG. 8, the disk recording / reproducing apparatus according to the present invention includes a magnetic head device 131 for recording information signals on the optical disk 5 that is rotationally driven by a disk rotation drive mechanism 41. Since the magnetic head device 131 records information signals on the optical disc 5 in cooperation with the optical pickup device 48, as shown in FIG. 31, the optical disc 5 that is rotationally driven by the disc rotational drive mechanism 41 is sandwiched. Thus, the optical pickup device 48 is disposed opposite to the optical pickup device 48. Also. The magnetic head device 131 applies an external magnetic field modulated based on an information signal to be recorded at a position irradiated with a light beam emitted from the optical pickup device 48 of the optical disk 5. In synchronization with the movement, the optical disk 5 is moved in the radial direction. Therefore, the magnetic head device 131 is connected to the optical block 49 of the optical pickup device 48 via a connecting member 132 as shown in FIG. As shown in FIGS. 31 and 32, the connecting member 132 that connects the magnetic head device 131 to the optical block 49 is formed by bending a highly rigid metal plate into a U shape, and the lower surface side of the optical block 49 on the lower end side. A fixed piece 133 is provided to be fixed to the fixed piece 133, and a rising piece 134 bent vertically is provided on one end side of the fixed piece 133, and is bent so as to face the fixed piece 133 on the tip side of the rising piece 134. A support arm mounting piece 135 serving as a support base is provided. The connecting member 132 is connected to the optical pickup device 48 by fixing the fixing piece 133 to the lower surface side of the optical block 49 so that the support arm attachment piece 135 faces the top plate portion 62 of the holder 23. The fixing piece 133 is fixed to the optical block 49 by screwing fixing screws 138 and 138 inserted into screw insertion holes 136 and 137 formed in the fixing piece 133 into the lower surface side of the optical block 49.
[0080]
As shown in FIGS. 8 and 32, the magnetic head device 131 supported on the support arm mounting piece 135 of the connecting member 132 connected to the optical pickup device 48 has a head support that supports the magnetic head element 140 on the tip side. The arm 141, the arm support plate 142 that restricts excessive displacement of the head support arm 141, and the support piece 143 formed on the base end side of the head support arm 141 are clamped together with the support arm attachment piece 135 to attach the support arm. The arm fixing member 144 fixed to the piece 135 is provided.
[0081]
The head support arm 141 that supports the magnetic head element 140 on the front end side is formed by punching a thin metal plate having elasticity such as phosphor bronze. The magnetic head element 140 is supported on the distal end side of the elastically displaceable head support arm 141, so that when the signal recording area of the optical disk 5 is scanned, the optical disk 5 is driven to rotate due to surface vibration. Since the head support arm 141 is elastically deformed, the signal recording area can be scanned accurately by preventing the head support arm 141 from lifting from the main surface of the optical disk 5.
[0082]
Positioning holes 147 and 148 are formed in the support piece 143 formed on the base end side of the head support arm 141 to engage with the positioning protrusions 145 and 146 provided on the support arm attachment piece 135. One positioning hole 147 is formed with a major axis in a direction perpendicular to the extending direction of the head support arm 141 so that the position of engagement with one positioning projection 145 can be adjusted. The head support arm 141 is supported on the support arm attachment piece 135 by engaging the positioning holes 147 and 148 with the positioning protrusions 145 and 146, thereby positioning the attachment position with respect to the support arm attachment piece 135. Further, a screw insertion hole 150 through which a fixing screw 149 for fixing the arm fixing member 144 to the support arm attachment piece 135 is inserted is formed between the positioning holes 147 and 148 of the support piece 143.
[0083]
As shown in FIG. 32, the arm support plate 142 is provided with an arm support portion 151 bent in an L shape that supports the lower surface on the distal end side that supports the magnetic head element 140 of the head support arm 141 on the distal end side. A pair of support protrusions 152 and 153 mounted on the support arm attachment piece 135 are provided on the base end side. Engagement protrusions 152a and 153a that engage with engagement holes 154 and 155 formed in the support arm attachment piece 135 are bent at the distal ends of the support protrusions 152 and 153. The arm support plate 142 is overlapped on the head support arm 151 with the arm support portion 151 facing the lower surface side of the head support arm 151, and a part of the overlapped portion on the head support arm 151 is welded. The head support arm 151 is integrally attached. At this time, the support protrusions 152 and 153 are positioned on both sides of the head support arm 141 and extended to the base end side of the head support arm 141.
[0084]
The arm fixing member 144 is formed by using a thin metal plate having elasticity, and as shown in FIG. 32, a fixing portion 156 to the support arm attachment piece 135 is provided on the base end side. The fixing portion 156 has positioning holes 157 and 158 which are engaged with positioning protrusions 145 and 146 provided on the support arm attachment piece 135. One positioning hole 157 is orthogonal to the extending direction of the arm fixing member 144 so that the engagement position with the one positioning projection 145 can be adjusted similarly to the one positioning hole 147 provided in the head support arm 141. The direction is formed with a major axis. The arm fixing member 144 is supported on the support arm attachment piece 135 by engaging the positioning holes 157 and 158 with the positioning projections 145 and 146, thereby positioning the attachment position with respect to the support arm attachment piece 135. Further, a screw insertion hole 160 through which a fixing screw 149 for fixing the arm fixing member 144 to the support arm attachment piece 135 is inserted is formed between the positioning holes 157 and 158.
[0085]
In addition, as shown in FIG. 32, the attachment position restricting pieces 161 and 161 are bent on both sides of the fixed portion 156 so as to sandwich both sides of the support arm attaching piece 135. Engagement holes 163 and 163 that are engaged with engagement protrusions 162 and 162 projecting on both sides of the support arm attachment piece 135 are formed in the bent base portions of the attachment position restricting pieces 161 and 161. The arm fixing member 144 is attached to the support arm attachment piece 135 by sandwiching both sides of the support arm attachment piece 135 by the attachment position restricting pieces 161 and 161 and engaging the engagement holes 163 and 163 with the engagement protrusions 162 and 162. As a result, movement in the rotational direction about the fixing screw 149 is reliably restricted.
[0086]
The arm fixing member 144 is provided with a pressing support portion 165 that is extended from the head support arm 141 onto the arm support plate 142 that is mounted on the head support arm 141 on the distal end side of the fixing portion 156. It has been. The pressing support 165 moves the head support arm 141 toward the optical disk 5 in the direction of the arrow K1 in FIG. 31 so that the magnetic head element 140 contacts the optical disk 5 with a constant contact pressure when recording information signals. The head support arm 141 is bent and deformed so as to press and urge the head support arm 141 toward the optical disk 5 when attached on the support arm attachment piece 135. On the distal end side of the pressing support portion 165, an engagement protrusion 167 that is engaged with an engagement hole 166 that is formed in communication with the arm support plate 142 and the head support arm 141 is bent. Further, on both sides of the pressing support portion 165, pressing support pieces 168 and 169 that press and support the supporting protrusions 152 and 153 formed on the base end side of the arm support plate 142 are projected.
[0087]
The head support arm 141 of the magnetic head device 131 configured as described above is attached to the support arm attachment piece 135 by engaging the positioning holes 147 and 148 provided in the support piece 143 with the positioning protrusions 145 and 146. Is positioned and supported on the support arm mounting piece 135. At this time, the support protrusions 152 and 153 provided on the arm support plate 142 integrally attached so as to be superimposed on the head support arm 141 drill the engagement protrusions 152a and 153a on the distal end side in the support arm attachment piece 135. It is placed on the support arm attachment piece 135 by engaging with the engagement holes 154, 155.
[0088]
As shown in FIG. 33, an arm fixing member 144 is attached on the support arm attachment piece 135 on which the head support arm 141 is supported. The arm fixing member 144 is engaged with positioning projections 145 and 146 protruding from positioning holes 147 and 148 provided in the head support arm 141 supported on the support arm attachment piece 135 by positioning holes 157 and 158 provided in the fixing portion 156. By combining, the attachment position with respect to the support arm attachment piece 135 is positioned. At this time, the attachment position restricting pieces 161 and 161 are bent to both sides of the support arm attaching piece 135, and the engaging protrusions 162 and 162 are engaged with the engaging holes 163 and 163 as shown in FIG.
[0089]
When the arm fixing member 144 is overlaid on the head support arm 141 and supported on the support arm mounting piece 135, the pressing support portion 165 is moved from the head support arm 141 to the arm support plate 142 as shown in FIG. The head support arm 141 is pressed and urged toward the optical disk 5 in the direction of arrow K1 in FIGS. At this time, the engagement protrusion 167 provided on the distal end side of the pressing support portion 165 engages with the engagement hole 166 formed in communication with the arm support plate 142 and the head support arm 141. Further, the pressing support pieces 168 and 169 protruding from both sides of the pressing support portion 165 press and support the supporting protrusions 152 and 153 formed on the base end side of the arm support plate 142.
[0090]
Thus, the arm fixing member 144 superimposed on the head support arm 141 and supported on the support arm attachment piece 135 is formed in the screw insertion hole 160 and the head support arm 141 formed in the arm fixing member 144. A fixing screw 149 communicated with the screw insertion hole 105 is screwed into a screw hole 170 formed in the support arm attachment piece 135, thereby holding the support piece 143 of the head support arm 141 together with the support arm attachment piece 135. The support arm 141 is fixed to the support arm attachment piece 135.
[0091]
The magnetic head device 131 configured as described above is provided with a pressing support portion 165 on an arm fixing member 144 that holds the head support arm 141 together with the support arm attachment piece 135 and fixes the support arm attachment piece 135 to the head support arm 141. Is pressed and urged toward the optical disk 5 side, so there is no need to use an independent spring member or the like for displacing the head support arm 141 toward the optical disk 5 side. It becomes easy.
[0092]
Further, the head support arm 141 formed using a fragile leaf spring is supported by the arm fixing member 144 by the engagement mechanism in which the engagement protrusion 167 provided on the arm fixing member 144 is engaged with the engagement hole 166. Even if an impact is applied by dropping the disk recording / reproducing device, it is possible to reliably prevent deformation of the elastic displacement portion on the support arm attachment piece 135 side that functions as a hinge portion.
[0093]
Further, support protrusions 152 and 153 formed on the base end side of the arm support plate 142 superimposed on the head support arm 141 are supported by press support pieces 168 and 169 protruding from both sides of the press support part 165. Therefore, the displacement of the head support arm 141 in the twisting direction is restricted, and the magnetic head element 104 supported on the tip side can be brought into sliding contact with the optical disc 5 in a stable state.
[0094]
In the magnetic head device 131 described above, as an engagement mechanism for preventing the deformation of the head support arm 141, an engagement protrusion 167 is provided on the arm fixing member 144, and an engagement hole 166 is provided on the head support arm 141 side. Although configured, the engagement protrusion 167 and the engagement hole 166 may be provided in reverse. That is, as shown in FIG. 34, a part of the arm support plate 142 superimposed on the head support arm 141 is cut and raised to provide an engagement protrusion 171, and the engagement protrusion 171 is engaged on the arm fixing member 144 side. An engaging hole 172 may be provided.
[0095]
Further, as shown in FIG. 35, the base of the arm support plate 142 superimposed on the head support arm 141 is provided at the front end side of the press support pieces 168 and 169 protruding on both sides of the press support portion 165 of the arm fixing member 144. You may make it provide a pair of engaging protrusion 174,174 which each engages with a pair of engaging recessed part 173,173 formed in the both sides by the side of an edge part.
[0096]
The head support arm 141 used here is formed of an elastic leaf spring so that the entire arm 141 can be elastically deformed. However, the middle portion of the elastic leaf spring is synthesized. The elastic displacement portion may be configured by molding with resin and projecting a part of the leaf spring to the fixing portion side to the support arm attachment piece 135 and the tip side supporting the magnetic head element 104. .
[0097]
As described above, the magnetic head device 131 that is connected to the optical pickup device 48 via the connecting member 132 and is disposed to face the optical pickup device 48 with the optical disk 5 that is rotationally driven by the disk rotation drive mechanism 41 interposed therebetween. As shown in FIG. 8, the head support arm 141 is extended on the top plate portion 62 of the holder 23. The head support arm 141 extended on the top plate portion 62 of the holder 23 has the elastic displacement portion as the hinge portion with the fixed portion side to the support arm attachment piece 135 as the holder 23 rotates. It is rotationally displaced.
[0098]
By the way, the magnetic head element 140 supported at the tip of the head support arm 141 applies an external magnetic field to the signal recording area of the optical disc 5 with a large magnetic field strength when recording an information signal on the optical disc 5. It approaches so that it may slide. At this time, as shown in FIGS. 8 and 9, the head support arm 141 enters the holder 23 through the head insertion opening 180 provided in the top plate portion 62 of the holder 23. The magnetic head element 140 supported on the distal end side of the head support arm 141 that has entered the holder 23 moved to the recording / reproducing position is held by the holder 23 and mounted on the cartridge 36 on the base 36 as shown in FIG. It enters the cartridge main body 4 of the disc cartridge 1 mounted on the portion 37 and comes into sliding contact with the main surface of the optical disc 5 that is driven to rotate within the cartridge main body 4.
[0099]
In addition, when reproducing the information signal recorded on the optical disk 5, it is not necessary to apply an external magnetic field from the magnetic head device 131, and the signal recording area of the optical disk 5 is set by the light beam emitted from the optical pickup device 48. Since scanning is sufficient, the magnetic head element 140 is separated from the main surface of the optical disk 5 in order to prevent wear caused by sliding contact between the magnetic head element 140 and the optical disk 5 and damage due to wear. When the rotation of the optical disk 5 is stopped, the magnetic head element 140 is separated from the main surface of the optical disk 5 and the head support arm 141 is moved to the outside of the holder 23.
[0100]
Further, when the disk cartridge 1 held by the holder 23 is ejected or when the disk cartridge 1 is inserted into the holder 23, the magnetic head element 140 is prevented from colliding with the disk cartridge 1 and being damaged. Therefore, the head support arm 141 is moved outward from the holder 23.
[0101]
In the disk recording / reproducing apparatus according to the present invention, a head elevating mechanism 181 for elevating and lowering the head support arm 141 is provided to bring the magnetic head element 140 close to and away from the optical disk 5 in accordance with the operation mode. As shown in FIGS. 8 and 9, the head elevating mechanism 181 is supported on the top plate portion 62 of the holder 23 so as to be rotatable, and an elevating operation plate 182 for elevating and lowering the head support arm 141, and an elevating operation plate 182. As shown in FIG. 7, the rotation operation lever 183 is disposed on the lower surface side of the base 36, and the rotation of the elevating operation plate 182 is controlled by rotating the rotation operation lever 183. And a drive motor 185 that moves the lift control lever 184.
[0102]
As shown in FIGS. 9 and 36, the elevation operation plate 182 has a rotation operation unit 186 that is located on the lower surface side of the head support arm 141 and rotates the head support arm 141. A pair of support arms 187 and 187 protrude from both sides of the base end side of 186. The lifting operation plate 182 is disposed so as to pass through the head insertion opening 180, and the support shafts 188, 188 projecting from the base end side of the support arms 187, 187 are cut off a part of the top plate portion 62. The head support arm 141 is pivotally supported by the raised support pieces 189 and 189 formed so as to be pivotable about the support shafts 188 and 188 so as to move up and down. When the lifting operation plate 182 is supported on the top plate portion 62, the elastic support arm is formed by protruding from one side of the rotation operation portion 186 and the protrusion 190 is formed by cutting out a part of the top plate portion 62. By being pressed and supported by 191, it is urged to rotate toward the top plate 62 side.
[0103]
The rotation operation lever 183 is provided with a rotation operation piece 193 that is formed by raising a cam piece 192 that rotates the lifting operation plate 182 on one end side. As shown in FIG. 37, on the other end side of the rotation operation lever 183, a lift control lever 184 that hangs down along the second cartridge holding portion 64 of the holder 23 and is disposed on the lower surface side of the base 36. The connecting piece 193 to be connected is bent. As shown in FIG. 36, the rotation operation lever 183 is rotatably supported by a support shaft 195 attached to the top plate portion 62 at the midway portion. On one side of the rotation operation plate 193 on which the cam piece 192 of the rotation operation lever 183 is formed, an operated piece 197 protruding from the rotation operation portion 186 of the elevation operation plate 182 is superposed. . The operated piece 197 rides on the cam piece 192 when the turning operation lever 183 is turned. The operated piece 197 is pivotally biased toward the top plate portion 92 by the elastic support arm 191 provided on the top plate portion 62 of the lifting operation plate 182, so It is in pressure contact.
[0104]
The rotation operation plate 193 is locked to an L-shaped locking piece 196 formed by cutting and raising a part of the top plate portion 62, and is prevented from floating from the top plate portion 62. As shown in FIGS. 8 and 36, when the rotation operation lever 183 is rotated to the lower position for rotating the elevating operation plate 182 to the holder 23 side, the elevating operation is performed on one side of the rotating operation piece 193. A turn restricting piece 198 is provided that engages with the operated piece 197 provided on the plate 182 and restricts the turn of the lift operation plate 182 in the ascending direction away from the top plate portion 62.
[0105]
As shown in FIGS. 7 and 40, the elevation control lever 184 is disposed on the bottom side of the base 36, and the long holes 202, 202 are inserted into the support shafts 201, 201 provided on the base 36. , 202 in the range of arrows M1 and M2 in FIG. 7 and FIG. At one end of the lift control lever 184, a connecting arm 203 to which the turning operation lever 183 is connected and a rack plate 205 having a rack gear 204 formed on one side connected to the drive motor 185 are branched. Yes. An engagement hole 206 is formed on the distal end side of the connection arm 203, and the distal end side of the connection piece 193 provided on the other end side of the rotation operation lever 183 extended to the lower surface side of the base 36 is inserted and engaged. Yes.
[0106]
The pivoting operation lever 183, in which the connecting piece 193 is connected to the elevation control lever 184, is centered on the support shaft 195 in FIG. 40 as the elevation control lever 184 is moved in the directions indicated by the arrows M1 and M2 in FIG. A rotation operation is performed in the directions of the arrow N1 and the arrow N2.
[0107]
The raising / lowering control lever 184 is connected to the drive motor 185 by engaging the rack gear 204 with the final gear of the reduction gear mechanism 208 engaged with the worm gear 207 attached to the drive shaft of the drive motor 185. When the drive motor 185 is driven, the elevation control lever 184 is moved in the direction of the arrow M1 in FIG. 40 or the direction of the arrow M2 in accordance with the rotation direction of the drive motor 185, and the rotation operation lever 183 is moved to the arrow N1 in FIG. The magnetic head element 140 supported on the tip of the head support arm 141 is moved close to and away from the optical disk 5 by rotating the lift operation plate 182 and rotating the head support arm 141 by rotating in the direction of the arrow or the arrow N2. .
[0108]
By the way, the above-described head elevating mechanism 181 detects the position of the elevating control lever 184 and controls the driving direction of the drive motor 185 based on the detected output, so that the magnetic head element 140 is in the lowered position near the optical disk 5. Alternatively, an elevating control mechanism for the magnetic head device 131 that controls to move to a raised position separated from the optical disk 5 is provided. As shown in FIG. 40, the elevation control mechanism includes one detection piece 210 protruding from one side of the other end of the elevation control lever 184, and a detection element 211 that detects the position of the detection piece 210. The detection mechanism 212 is provided. As the detection element 211 constituting the detection mechanism 212, an optical detection element such as a photocoupler provided with a light emitting element 213 and a light receiving element 214 in parallel with the moving direction of the elevation control lever 184 is used.
[0109]
In the detection mechanism 212, the elevation control lever 184 is moved to the innermost side of the base 36, and the rotation operation lever 183 is rotated about the support shaft 195 in the direction of arrow N2 in FIG. When the information signal recording mode in which the magnetic head element 140 contacts the optical disk 5 is selected, the detection piece 210 is moved to a position away from the detection element 211 as shown in FIG. . When the detection piece 210 is moved to a position away from the detection element 211, the detection mechanism 212, which is a state in which no detection output is output from the detection element 211, is turned off. That is, when the detection piece 210 is moved to a position away from the detection element 211, the detection light emitted from the light emitting element 213 is not reflected by the detection piece 210. Return light is not detected, and the detection element 211 is in an OFF state in which no detection output is output.
[0110]
When the elevation control lever 184 is moved to the position where the recording mode is selected, the holder lock piece 200 provided on one side of the elevation lever 184 holds the second cartridge of the holder 23 as shown in FIG. The engagement piece 199 formed by cutting and raising a part of the cartridge support piece 68 constituting the portion 64 is engaged as shown in FIG. 40, and the rotation of the holder 23 in the direction away from the base 36 is restricted. .
[0111]
Further, the elevation control lever 184 is moved most to the front side of the base 36, and the rotation operation lever 183 is rotated about the support shaft 195 in the direction of arrow N1 in FIG. Even when the reproduction mode or the stop mode in which the head element 140 is separated from the optical disk 5 is selected, the detection piece 210 is moved to a position away from the detection element 211 as shown in FIG. Is turned off.
[0112]
Then, the position shown in FIG. 41 is in the middle position between the position where the elevation control lever 184 is moved to the innermost side of the base 36 shown in FIG. 40 and the position where it is most moved to the front side of the base 36 shown in FIG. The detection piece 210 faces the detection element 211, the detection light emitted from the light emitting element 211 is reflected by the detection piece 210 and detected by the light receiving element 214, and a detection output is output from the detection element 211. The mechanism 212 is turned on.
[0113]
Therefore, a state will be described in which the detection mechanism 212 is used to detect that the magnetic head element 141 is in the stop mode in which the magnetic head element 141 is separated from the optical disk 5 and is raised above the holder 23.
[0114]
Since this detection mechanism 212 detects the position of the lift control lever 184 and detects the lift position of the magnetic head support arm 141, whether or not there is an output from the detection element 211 in the initial state of power-on, , Whether the detection mechanism 212 is ON or OFF is confirmed. This confirmation is performed by a control circuit unit provided in the disk recording / reproducing apparatus. Here, when it is confirmed that the detection output is output from the detection element 211, it is detected that the elevation control lever 184 is in the intermediate position shown in FIG. After detecting that the detection mechanism 212 is in the ON state, the drive motor 185 is once rotated in one direction so as to move the elevation control lever 184 in the direction of the arrow M2 in FIG. 40, and the detection mechanism 212 is turned off. 41, the elevation control lever 184 is moved to the front side of the base 36, and it is detected that the magnetic head element 140 is in the stop mode position separated from the optical disk 5.
[0115]
In addition, when it is confirmed that the detection mechanism 212 that does not output the detection output from the detection element 211 is in the OFF state in the initial state when the power is turned on, the lifting operation lever 184 is moved to the innermost side of the base 36 shown in FIG. 42. It is detected that the recording mode is in the recording mode in which the head support arm 141 is moved down, or is in the stop mode in which the head support arm 141 is moved up to the front side of the base 36 shown in FIG. Is done. Here, similarly to the above-described case, the drive motor 185 is once rotationally driven in one direction so as to move the elevation control lever 184 in the direction of the arrow M2 in FIG. When the detection mechanism 212 maintains the OFF state even after the drive motor 185 is driven to rotate in one direction for a predetermined time, the elevation control lever 184 is moved to the front side of the base 36 shown in FIG. It is detected that it has been moved. Further, after the drive motor 185 is driven to rotate in one direction for a predetermined time, when the detection mechanism 212 is once turned ON and then the OFF state is detected, the elevation control lever 184 is moved to the front side of the base 36 shown in FIG. It is detected that it has been moved to the stop mode position.
[0116]
The elevation control mechanism of the magnetic head device 131 configured as described above is a detection mechanism including one detection piece 210 provided on the elevation control lever 184 and one detection element 211 that detects the position of the detection piece 210. The position of the elevating control lever 184 is detected by 212, and the elevating control lever 184 is moved to a certain position by driving the drive motor 185 in one direction so as to move in one direction. Therefore, the position of the lift control lever 184 moved to a plurality of positions can be detected by one detection mechanism 212, the configuration of the detection mechanism 212 can be simplified, the installation space in the disk recording / reproducing apparatus can be reduced, This can contribute to the miniaturization of the device itself.
[0117]
In the above example, when the power is turned on, the elevation control lever 184 is moved most to the front side of the base 36 as shown in FIG. 42, and the head support arm 141 is moved to the raised position. Unless the mode is selected, the magnetic head element 140 can always be positioned away from the optical disk 5, so that the magnetic head element 140 and the optical disk 5 can be avoided from inadvertently sliding, and the magnetic head element 140 can be avoided. In addition, the optical disk 5 can be protected.
[0118]
In the above-described example, the detection mechanism 212 is configured using an optical detection unit including the light-emitting element 213 and the light-receiving element 214 as the detection element 211, but the detection element is pressed by the detection piece 210. A pressing operation type detection switch that detects the detection piece 210 may be used.
[0119]
Further, as shown in FIG. 42, the other end side of the elevation control lever 184 is moved by pressing the lock lever 222 and the lid opening operation button 24 for locking the lid 22 at a position where the apparatus main body 21 is closed. An unlocking transmission member 223 is provided for associating with the unlocking lever 223 to be operated. This unlocking transmission member 220 is formed by bending a linear spring into a U shape, and is supported by a support portion 224 provided on the other end side of the elevation control lever 184 on the base end side. It is attached so as to be capable of rotational displacement in a direction orthogonal to the moving direction.
[0120]
As shown in FIG. 42, the unlocking transmission member 220 is moved most to the front side of the base 36 as shown in FIG. 42, and the magnetic head element 140 is moved to the stop mode position at the raised position away from the optical disk 5. When the lock release lever 223 is moved by the pressing operation of the lid opening operation button 24, the lock release lever 223 is moved by the lock release lever 223. The operation can be performed and the lid 22 can be unlocked.
[0121]
Further, in the lock release transmission member 220, the elevation control lever 184 is moved to the innermost side of the base 36 as shown in FIG. 40, and the magnetic head element 140 is in a lowered position close to the optical disk 5. In some cases, the lock lever 222 and the lock release lever 223 are withdrawn, and the lock lever 222 cannot be operated.
[0122]
By providing such an unlocking transmission member 220, when the magnetic head element 140 is in the state of being lowered to the inside of the holder 23 in a state in which the magnetic head element 140 can be slidably contacted with the optical disc 5, the opening operation of the lid 22 is prohibited. Therefore, it is possible to prevent the disc cartridge 1 from being accidentally ejected during the recording of the information signal, and to prevent the information signal from being poorly recorded.
[0123]
Next, the disc cartridge 1 is loaded into the disc recording / reproducing apparatus having the above-described configuration, and the information signal is recorded / reproduced with respect to the optical disc 5 accommodated in the loaded disc cartridge 1, and further loaded. A series of operations for ejecting the disc cartridge 1 will be described.
[0124]
In order to load the disc cartridge 1 into the disc recording / reproducing apparatus, the lid 22 at the position where the apparatus main body 21 is closed is unlocked by pressing the lid opening operation button 24.
[0125]
In the disc recording / reproducing apparatus shown here, when the recording mode is stopped, that is, when the stop button is operated, the drive motor 185 is driven and the elevation control lever 184 is located on the front side of the base 36 as shown in FIG. The magnetic head element 140 is moved to the raised position separated from the optical disk 5 and the unlocking transmission member 220 is advanced between the lock lever 222 and the unlocking lever 223 to open the lid opening operation button 24. The operation of moving the lock lever 222 is enabled by this operation.
[0126]
When the lock of the lid body 22 is released, the lid body 22 is pressed by the first and second lid body rotation urging plates 91 and 92 provided integrally with the top plate portion 62 of the holder 22, and FIG. As shown in FIG. The lock of the lid body 22 is released, and the holder 23 is rotated together with the lid body 22 to the ascending position away from the base 36, so that the cartridge insertion / extraction opening 69 on the front side faces outward as shown in FIG.
[0127]
At this time, as shown in FIG. 18, in the holder 23, the engagement piece 86 provided on the first cartridge holding portion 63 side is engaged with the engagement portion 87 provided on the base 36 side, and further in the upward direction. The rotation is restricted, and the first shaft portion 73 is prevented from being detached from the first shaft engagement hole 71 on the holder 23 side through the notch portion 75.
[0128]
Here, the disc cartridge 1 is inserted into the holder 23 via the cartridge insertion / removal port 69. At this time, the disc cartridge 1 is inserted into the holder 23 with a surface orthogonal to one side surface to which the shutter member 10 is attached as an insertion end.
[0129]
When the disc cartridge 1 is inserted into the holder 23, the shutter opening member 99 enters the shutter opening groove entry groove 12 provided on one side surface of the cartridge body 4, thereby releasing the lock of the shutter member 10 and the shutter member holding piece. An engagement protrusion 102 provided on the distal end side of 101 engages with an engagement hole 13 provided in the shutter member 10 to restrict the movement of the shutter member 10.
[0130]
When the disc cartridge 1 is further inserted into the holder 23 from here, only the cartridge body 4 is inserted into the holder 23 and moved relative to the shutter member 10, and the recording / reproducing opening 8 provided in the cartridge body 4. , 9 are opened.
[0131]
When the disc cartridge 1 is inserted into the holder 23, the pressing operation portion 115 of the eject lever 111 is elastically displaced toward the back side of the base 36 in the direction indicated by the arrow E1 in FIG. When the disc cartridge 1 is inserted to a position where it is held by the holder 23, the eject lever 111 engages the locking piece 119 provided on the pressing operation portion 115 with the locking hole 118 provided on the back side of the holder 23. The force that is stopped and held on the back side of the holder 23 in a state where the elastic displacement force is accumulated is released, and the force that pushes the disc cartridge 1 in the direction of ejecting from the holder 23 is released.
[0132]
When the disk cartridge 1 is inserted to the insertion holding position of the holder 23 and the holder 23 is rotated together with the lid body 22 to the base 36 side which is the apparatus main body 21 side, the disk cartridge 1 held by the holder 23 is moved to the positioning pin 38. 39, the positioning holes 14 and 15 are engaged with each other and the cartridge mounting portion 37 formed on the base 36 is positioned and mounted. At this time, the optical disk 5 accommodated in the disk cartridge 1 is clamped by the disk table 44 of the disk rotation drive mechanism 41 so that it can rotate integrally with the disk table 44.
[0133]
When the holder 23 is moved together with the lid body 22 to the lowered position lowered to the base 36 side, the lid body 22 is moved to the closing position for closing the apparatus main body 21 and is locked by the lock mechanism provided on the apparatus main body 21 side. 21, the first and second lid rotation urging plates 91, 92 provided on the top plate 62 of the holder 23 are pressed by the inner surface of the lid 22, so that the top plate 62 and the surface It is elastically displaced to become one. At this time, the first and second cartridge pressing pieces 95 provided integrally with the first and second lid rotating biasing plates 91 and 92 with different initial displacement amounts in the thickness direction of the holder 23. 96 is elastically displaced so as to protrude into the holder 23 and presses the disc cartridge 1 mounted on the cartridge mounting portion 37 to prevent the cartridge mounting portion 37 from being lifted. At this time, the third cartridge pressing piece 104 provided on the top plate portion 62 of the holder 23 also presses and urges the disk cartridge 1 toward the cartridge mounting portion 37. The disc cartridge 1 mounted on the cartridge mounting portion 37 is pressed and urged by the first and second cartridge pressing pieces 95 and 96 and the third cartridge pressing piece 104, so that the positioning in the height direction is accurately performed. Figured.
[0134]
When the disc cartridge 1 is mounted on the cartridge mounting portion 37, for example, when the playback button is operated and the power is turned on, the position of the elevation control lever 184 is detected by the detection mechanism 212 as described above, and the drive motor 185 is driven to rotate in one direction, and as shown in FIG. 42, it moves to the front side of the base 36 and enters the stop mode state in which the magnetic head element 140 is separated from the optical disk 5.
[0135]
Here, when the playback button is operated, the playback mode is selected, the disk rotation drive mechanism 41 is driven, the optical disk 5 is rotated, and the pickup feeding mechanism 56 starts to drive, so that the optical pickup device 48 is driven. Is moved in the radial direction of the optical disc 5, and the information signal recorded on the optical disc 5 is reproduced by scanning the signal recording area of the optical disc 5 with the light beam emitted from the semiconductor laser.
[0136]
When the recording button is operated and the power is turned on to record the information signal, the position of the elevation control lever 184 is detected by the detection mechanism 212 and the drive motor 185 is moved in one direction as described above. As shown in FIG. 42, the magnetic head element 140 is moved to the front surface side, and the magnetic head element 140 is separated from the optical disk 5 to enter the stop mode.
[0137]
When the recording button is operated and the recording mode is selected, the elevation control lever 184 is once moved to the stop mode position, and then the drive motor 185 is driven in the reverse direction in the other direction, so that the elevation operation lever 184 is shown in FIG. Move in the direction of arrow M1. When the detection mechanism 212 detects the detection piece 210 and is once turned on and then turned off again, the lifting operation lever 184 is moved to the innermost side of the base 36 shown in FIG. 141 is lowered.
[0138]
When the recording mode is selected and the elevation control lever 184 starts to move in the direction of arrow M1 in FIG. 42, the rotation operation lever 183 coupled to the elevation control lever 184 by engaging the coupling piece 193 with the engagement hole 206 is performed. It is rotated around the support shaft 195 in the direction of arrow N1 in FIG. When the turning operation lever 183 is turned in the direction of arrow N1 in FIG. 41, the cam piece 192 provided on one side of the turning operation piece 193 moves in the direction of arrow P1 in FIG. To do. When the cam piece 192 moves in the direction of arrow P1 in FIG. 38, the operated piece 197 of the lifting operation plate 182 positioned on the horizontal surface above the cam piece 192 is rotated along the inclined surface of the cam piece 192. It moves to the lower side located on 193. When the operated piece 197 is guided by the cam piece 192 and moves downward, the lifting operation plate 182 rotates around the support shafts 188 and 188 toward the top plate portion 62 side of the holder 23 in the direction of arrow R1 in FIG. Moved. That is, the lifting operation plate 182 is rotationally biased by an elastic support arm 191 provided on the holder 23 and a head support arm 141 extending on the lifting operation plate 182 and elastically displaced inward of the holder 23. Therefore, since the operated piece 197 is pressed against the cam piece 192, it is rotated around the support shafts 188 and 188 following the movement of the cam piece 192.
[0139]
When the lifting operation plate 182 is rotated to the top plate 62 side of the holder 23 in the direction of arrow R1 in FIG. 38, the head support arm 141 extending on the lifting operation plate 182 is provided on the arm fixing member 144. In response to the urging force of the pressing displacement portion 165, the pressing displacement portion 165 is rotated in a direction descending inward of the holder 23 in the direction of arrow R1 in FIGS. When the head support arm 141 is rotated inward of the holder 23, as shown in FIG. 37, the optical head element 140 attached to the tip of the head support arm 141 is clamped on the disk table 44. Touch the main surface. At this time, the head support arm 141 receives the urging force of the pressing displacement portion 165 and is urged to rotate inward of the holder 23, so that the magnetic head element 140 is brought into contact with the optical disc 5 with a predetermined contact pressure.
[0140]
The rotation operation lever 183 engages the operated piece 179 provided on the elevating operation plate 182 with the rotation restricting piece 198 when the elevating operation plate 182 is rotated to the lowered position. When the operated piece 179 is engaged with the rotation restricting piece 198, the ascending / descending operation plate 182 is restricted from turning in the upward direction in the direction of arrow R <b> 2 in FIG. Since the upward movement of the lifting operation plate 182 is restricted, the head support arm 141 is reliably maintained in the state of being rotated inward of the holder 23, and the magnetic head element 140 is separated from the optical disk 5. Thus, it is possible to accurately record an information signal by applying an external magnetic field to the optical disk 5.
[0141]
Further, when the recording mode in which the elevating operation lever 184 is moved to the innermost side of the base 36 shown in FIG. 40 is selected, the engagement piece 199 provided on the holder 23 is the holder lock piece provided on the elevating operation lever 184. 200 is engaged, and the rotation of the holder 23 in the ascending direction away from the base 23 is restricted, and the state where the disk cartridge 1 is mounted in the cartridge mounting portion 37 is securely held.
[0142]
Then, when the recording mode is selected and it is detected that the elevating operation lever 184 is moved to the innermost side of the base 36 shown in FIG. 40, the disk rotation driving mechanism 41 is driven and the optical disk 5 is rotated. At the same time, the pickup feeding mechanism 56 starts driving, and the magnetic head device 131 is moved in the radial direction of the optical disk 5 in synchronization with the optical pickup device 48 in a state where the magnetic head element 140 is slidably contacted with the optical disk 5. At this time, the signal recording area of the optical disc 5 is scanned by the light beam emitted from the semiconductor laser of the optical pickup device 48 and information to be recorded from the magnetic head element 140 at the position where the light beam of the optical disc 5 is irradiated. An information signal is recorded by applying an external magnetic field modulated based on the signal.
[0143]
After recording a desired information signal, when a recording mode is stopped by operating a stop button of the disk recording / reproducing apparatus, a control signal such as an address of the information signal recorded on the optical disk 5 is recorded, and then the disk recording / reproducing apparatus Is in stop mode.
[0144]
In the disk recording / reproducing apparatus, when the recording mode is changed to the stop mode, the drive motor 185 is rotationally driven in one direction, and the elevation control plate 184 is moved to the front side of the base 36 in the direction of arrow M2 in FIG. When the drive motor 185 is driven until the detection mechanism 212 detects the detection piece 210 and is once turned on, and then turned off again, the lift operation lever 184 is moved to the front side of the base 36 as shown in FIG. Moved to the moved position.
[0145]
When the elevation control plate 184 is moved in the direction of arrow M2 in FIG. 40, the rotation operation lever 183 connected to the elevation control lever 184 is rotated in the direction of arrow N2 in FIG. When the turning operation lever 183 is turned in the direction of arrow N2 in FIG. 39, the cam piece 192 provided on one side of the turning operation piece 193 moves in the direction of arrow P2 in FIG. To do. When the cam piece 192 moves in the direction of arrow P2 in FIG. 37, the operated piece 197 of the elevating operation plate 182 rides on the horizontal surface above the cam piece 192 along the inclined surface of the cam piece 192. When the operated piece 197 rides on the cam piece 192, the elevating operation plate 182 rotates about the support shafts 188 and 188 in a direction away from the top plate portion 62 of the holder 23 in the direction of arrow R2 in FIG. Is done. When the lifting operation plate 182 is rotated in the direction of the arrow R2 in FIG. 37, the head support arm 141 extended on the lifting operation plate 182 resists the urging force of the pressing displacement portion 165 provided on the arm fixing member 144. Then, it is rotated in the ascending direction away from the inside of the holder 23 in the direction of arrow R2 in FIGS. When the head support arm 141 is rotated outward from the holder 23, the magnetic head element 140 attached to the tip of the head support arm 141 is separated from the main surface of the optical disk clamped on the disk table 44, As shown in FIG. 37, the disk cartridge 1 is moved out of the holder 23.
[0146]
At this time, the engagement between the engagement piece 200 provided on the holder 23 and the holder lock piece 200 provided on the elevating operation lever 184 is released, and the holder 23 can be rotated in the ascending direction away from the base 36.
[0147]
When the lifting operation lever 184 is moved to the front side of the base 36 as shown in FIG. 42, the lock release transmission member 220 is advanced between the lock lever 222 and the lock release lever 223, and the lid opening operation button. 24, the operation of moving the lock lever 222 is enabled.
[0148]
Here, when the lid 22 is unlocked by operating the lid opening operation button 24, the lid 22 is provided with the first and second lid rotation urging plates 91 provided integrally with the holder 23. , 92 is rotated in a direction away from the holder 23 by opening the front cartridge insertion / extraction port 69 of the holder 23.
[0149]
When the holder 22 is rotated in the direction of the arrow C2 in FIG. 39 together with the lid 22 in a state where the lid 22 is unlocked and separated from the holder 23, the disengagement piece 122 provided at the step 23 is ejected by the eject lever 115. 29 is pushed in the direction of the arrow G1 in FIG. When the engagement piece 121 is pressed in the direction of the arrow G1 in FIG. 29, the attachment piece 112 is rotated in the direction E2 in FIG. 27 about the caulking shaft 113, and the base 36 is centered on the elastic displacement portions 124, 124. In FIG. 23 and FIG. When the mounting piece 112 is rotationally displaced in the direction of arrow H1 in FIG. 23, the pressing operation portion 115 is rotationally displaced in the direction of arrow J1 in FIG. When the pressing operation unit 115 is rotationally displaced in the direction of the arrow J1 in FIG. 28, the engagement of the locking piece 119 with the locking hole 118 is released as shown in FIG. When the engagement of the locking piece 119 with the locking hole 118 is released, the pressing operation portion 115 of the eject lever 111 that has been elastically displaced by the insertion of the disk cartridge 1 into the holder 23 and accumulated the elastic displacement force is used as the holder. 26 and 27, the disk cartridge 1 inserted and held in the holder 23 protrudes outward from the holder 23 and can be taken out from the holder 23. .
[0150]
The holder device described above can be widely applied not only to a disk recording / reproducing apparatus but also to a recording and / or reproducing apparatus using a disk cartridge.
[0151]
【The invention's effect】
As described above, the magnetic head elevation control apparatus according to the present invention detects the moving position of the elevation control lever that controls the elevation of the magnetic head with a single detection means. Since it can be simplified and the installation space in the apparatus can be reduced, the disk recording / reproducing apparatus can be further reduced in size.
[0152]
In addition, the magnetic head detects the position of the lift control lever when the power is turned on, and is controlled to move to the lift position based on the detection output, so that the magnetic head may be damaged by subsequent operations. This can be reliably prevented, and the magnetic head can be reliably protected.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a disk cartridge used in a disk recording / reproducing apparatus according to the present invention.
FIG. 2 is a perspective view showing a lower surface side of the disk cartridge.
FIG. 3 is a perspective view showing one side of the disc recording / reproducing apparatus according to the present invention.
FIG. 4 is a perspective view showing the other edge side of the disc recording / reproducing apparatus according to the present invention.
FIG. 5 is a perspective view of the disc recording / reproducing apparatus showing a state in which a lid is opened.
FIG. 6 is an exploded perspective view showing a recording / reproducing unit of the disk recording / reproducing apparatus according to the present invention.
FIG. 7 is a perspective view showing a bottom side of a base to which a recording / reproducing unit is attached.
FIG. 8 is a perspective view showing a state in which a holder is attached to a base.
FIG. 9 is a perspective view showing a holder used in the disk recording / reproducing apparatus according to the present invention.
FIG. 10 is a side view showing one side of the holder.
FIG. 11 is a side view showing the other side of the holder.
FIG. 12 is a perspective view showing a shaft portion provided on a base that supports the holder.
FIG. 13 is a front view of the shaft portion.
FIG. 14 is a perspective view showing a rising piece provided on a base constituting the shaft portion.
FIG. 15 is a perspective view showing a state in which a projecting piece constituting a shaft portion formed on the tip side of the rising piece is bent.
FIG. 16 is a front view showing a state in which a protruding piece is formed to form a shaft portion.
FIG. 17 is a perspective view showing a state in which the holder is attached to the base.
FIG. 18 is a side view showing a state where the holder is attached to the base.
FIG. 19 is a side view showing a state in which the holder is rotated to the base side.
FIG. 20 is a front view showing a state where the lid is separated from the holder by the first and second lid rotation urging plates provided on the holder.
FIG. 21 is a front view showing a state in which the lid body is rotated to a position where the apparatus main body is closed and the first and second lid body rotation urging plates provided on the holder are elastically deformed by the lid body; .
FIG. 22 is an exploded perspective view showing an ejection mechanism used in the disk recording / reproducing apparatus according to the present invention.
FIG. 23 is a front view showing a state in which the eject lever is attached to the base.
FIG. 24 is a plan view showing an ejection mechanism disposed on the base.
FIG. 25 is a side view showing a state where the eject lever is pressed by the disc cartridge inserted into the holder.
FIG. 26 is a plan view showing a state where the eject lever is pressed by the disc cartridge inserted into the holder.
FIG. 27 is a plan view showing a state in which the disc cartridge is inserted into the holder and the eject lever is locked to the back side of the holder.
FIG. 28 is a rear view showing a state in which the eject lever is locked to the rear side of the holder. It is a top view.
FIG. 29 is a side view showing a state in which the eject lever is rotationally displaced by the holder.
FIG. 30 is a rear view showing a state in which the eject lever locked to the rear side of the holder is detached from the holder.
FIG. 31 is a side view showing a state in which a magnetic head device is connected to an optical pickup device.
FIG. 32 is an exploded perspective view showing a magnetic head device according to the present invention.
FIG. 33 is a perspective view showing a magnetic head device according to the present invention.
FIG. 34 is an exploded perspective view showing another example of a magnetic head device according to the present invention.
FIG. 35 is an exploded perspective view showing still another example of the magnetic head device according to the present invention.
FIG. 36 is a plan view showing an elevating operation mechanism that elevates and lowers a head support arm of the magnetic head device.
FIG. 37 is a side view showing a state where the head support arm is lowered.
FIG. 38 is a side view showing a state where the head support arm is raised.
FIG. 39 is a side view showing the head support arm when the holder is moved to a position where the disk cartridge can be inserted and removed.
FIG. 40 is a plan view showing a state in which the elevation control lever has moved the head support arm to a lowered position.
FIG. 41 is a plan view showing a state where the elevation control lever is in an intermediate position.
FIG. 42 is a plan view showing a state where the elevation control lever has moved the head support arm to the raised position.
[Explanation of symbols]
23 holder, 36 base, 131 magnetic head device, 140 magnetic head element, 141 head support arm, 144 arm fixing member, 181 head elevating mechanism, 182 elevating control plate, 183 rotating operation lever, 184 elevating control lever, 185 drive motor 210 detection piece, 211 detection element.

Claims (4)

A magnetic head supported by a head support arm that is raised and lowered between a lowered position close to the disk-shaped recording medium and a raised position spaced from the disk-shaped recording medium;
An elevation operation plate that is located on the lower surface side of the head support arm and that operates to raise and lower the head support arm;
A cam piece for raising and lowering the elevation operation plate is provided, and the head support arm is moved to the raised position by the elevation operation plate by moving in one direction and engaging the cam piece with the elevation operation plate. An operation lever that moves the head support arm to the lowered position by the elevating operation plate by moving in the other direction and releasing the engagement state between the cam piece and the elevating operation plate,
The operation lever is connected to the operation lever, and in the first position, the operation lever is moved in one direction so that the cam piece of the operation lever is engaged with the elevating operation plate, and in the second position, the operation lever is An elevating control lever that moves in the other direction to release the engagement state between the cam piece of the operating lever and the elevating operation plate ;
A drive unit that moves the elevation control lever between the first position and the second position ;
A single detection mechanism for detecting the position of the elevation control lever,
The elevation control lever has a detection piece detected by the detection mechanism,
When the power is turned on, the drive unit is rotationally driven in one direction, thereby moving the elevation control lever to the first position and moving the magnetic head to the lifted position. It will be in a state where no piece is detected,
When the magnetic head is moved to the lowered position, by rotating the drive unit in the other direction, the elevation control lever is moved from the first position to the second position,
The detection mechanism is configured such that when the elevation control lever moves from the first position to the second position, the detection piece passes over the detection mechanism along with the movement of the elevation control lever. When the detection piece is not detected, the detection piece is detected and the detection piece is not detected again, so that the elevation control lever is moved from the first position to the second position. A magnetic head lifting control device for detecting this . Furthermore, a base on which the disc-shaped recording medium is mounted on the upper surface side;
A holder that is rotatably attached to the base on the upper surface side of the base;
The base is provided with the elevating control lever on the bottom side so as to be movable between the first position and the second position, and the drive unit and the detection mechanism are arranged on the bottom side. And
A head support arm for supporting the magnetic head extends on the upper surface of the holder, the elevating operation plate is supported on the upper surface side so as to be rotatable with respect to the holder, and the operation lever is disposed on the upper surface side. 2. The lift control device for a magnetic head according to claim 1, wherein the lift control device is supported so as to be movable in one direction and the other direction . When the power is turned on, the detection mechanism detects the position of the elevation control lever by rotating the drive unit in one direction for a predetermined time, and the detection mechanism detects the second position and the first position. 2. The lift control device for a magnetic head according to claim 1, wherein the lift control lever detected to be located between a position and the second position is moved to the first position . The detection mechanism, the lift control device for a magnetic head according to claim 1, further comprising an optical detection element.

Images