JP3799068B2 - Recording and / or reproducing device for recording disk - Google Patents

Description

[0001]
[Industrial application fields]
  The present invention provides a magneto-optical disk and an optical disk.Recording discRecord the information signal to the disc and play back the information signal recorded on the recording diskRecording discThe present invention relates to a recording and / or reproducing apparatus.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a recording and / or reproducing apparatus that records an information signal on a recording medium such as an optical disk such as a magneto-optical disk and reproduces the information signal recorded on the recording medium has been proposed. As a recording medium used in this type of recording and / or reproducing apparatus, a magneto-optical disk or optical disk housed in a cartridge and configured as a disk cartridge is used.
[0003]
A recording and / or reproducing apparatus using an optical disk such as a magneto-optical disk as a recording medium serves as a recording / reproducing means for recording an information signal on the recording medium or reproducing an information signal recorded on the recording medium. And an optical pickup and a magnetic head. These optical pickup and magnetic head are disposed on the chassis to constitute a recording and / or reproducing unit. In this recording and / or reproducing apparatus, the recording medium is mounted at a mounting position where the relative position with respect to the recording and / or reproducing unit is a predetermined position. By mounting the recording medium at the mounting position, the information signal can be recorded or reproduced by the optical pickup and the magnetic head.
[0004]
The recording and / or reproducing apparatus is provided with a recording medium mounting mechanism for mounting the recording medium at the mounting position. Some recording medium mounting mechanisms are disposed so as to be movable with respect to the disk drive unit, and include a member for holding the recording medium. That is, in this recording medium mounting apparatus, a cartridge holder configured to hold a disk cartridge is rotatably attached to the chassis. The disc cartridge is held by the cartridge holder, and is mounted at a mounting position that is a predetermined position with respect to the recording and / or reproducing unit by rotating the cartridge holder toward the chassis. The disk cartridge mounted at the mounting position is brought into a state where it can be removed from the cartridge holder by rotating the cartridge holder in a direction away from the chassis.
[0005]
[Problems to be solved by the invention]
By the way, the recording and / or reproducing apparatus as described above may damage the recording medium if the recording medium is taken out while the information signal is recorded or reproduced on the recording medium.
[0006]
In particular, in recording an information signal to a magneto-optical disk, after writing the information signal, catalog information (so-called user's stock) about the written information signal is written to the magneto-optical disk. This list information displays information such as an address indicating the recording position of the information signal on the magneto-optical disk, and is information necessary for reading the recorded information signal. An information signal for which the corresponding list information is not recorded cannot be read thereafter. Therefore, if the recording medium is taken out during the writing of the information signal or when the writing of the information signal is not completed even if the writing of the information signal is completed, the information The signal cannot be read out.
[0007]
In a recording and / or reproducing apparatus using a recording medium such as a magneto-optical disk, recording / reproduction in which an information signal is written to the recording medium, an information signal recorded on the recording medium is read, or catalog information is written In the state where the mode is selected, it is necessary to lock the recording medium to the mounting position in the main body so that the recording medium is not accidentally taken out from the recording and / or reproducing unit. As this type of locking mechanism, it is detected whether or not an information signal recording or reproducing operation is being performed, and based on the detection result, a cartridge holder for holding a disk cartridge is moved by an electromagnetic holding means such as a plunger. A holding mechanism has been proposed.
[0008]
Such a mechanism equipped with electromagnetic holding means complicates the configuration of the recording and / or reproducing apparatus, and further increases the power consumption.
[0009]
  Therefore, the present invention has been proposed in view of the above-described circumstances, and during the recording or reproducing operation of an information signal without incurring a complicated configuration and an increase in power consumption.Recording discIt was made possible to prevent the removal ofRecording discIt is an object of the present invention to provide a recording and / or reproducing apparatus.
[0010]
[Means for Solving the Problems]
  In order to solve the above problems and achieve the above object, a recording and / or reproducing apparatus for a recording disk according to the present invention comprises:A recording and / or reproducing unit provided on the main body and having a drive unit for rotationally driving the recording disk; an upper lid part provided with a locked part and rotatably attached to the main body; and holding the recording disk; The main body is provided so as to be able to rotate in accordance with the rotation operation of the upper lid portion, and an upper position where the upper lid portion is opened and a position where the recording disk is mounted on the recording and / or reproducing portion. A holder that is rotated between the main body and the main body. The eject slider is slid in a predetermined direction when the eject operation unit is operated, and the eject slider engages with the eject slider. The eject transmission piece which is moved in a predetermined direction by sliding the slider and the movable body is movably provided on the main body, and the upper lid portion is closed by engaging with the locked portion. A lock member that is held in a state, moved in contact with the moved eject transmission piece and released from engagement with the locked portion to open the upper lid portion, and the upper lid portion When the lock member is moved to a position where the lock member is engaged with the locked portion, the lock member is operated, and when the engagement between the lock member and the locked portion is released. A lid lock detection switch that can be operated by the lock member, and a mounting detection that is operated when the recording disk is held in the holder and the recording disk is set to the recording and / or reproducing unit. A switch, the lid lock detection switch and the mounting detection switch are connected, and the lid lock detection switch is not operated by the lock member or When it is detected that the wearing detection switch is not operated, the operation of the recording and / or reproducing unit is prohibited, the state where the lid lock detection switch is operated by the lock member, and the mounting detection switch A control circuit for starting the operation of the recording and / or reproducing unit when it is detected as being operated, and transmitting the eject when the recording and / or reproducing unit is set to a recording mode or a reproducing mode. The movement of the lock member due to the operation of the eject operation unit by releasing the contact of the piece with the lock member is prevented so that the opening operation of the upper cover unit is not performed.
[0013]
[Action]
  According to the present inventionRecording discIn the recording and / or reproducing apparatus, the lid lock detection switch is not operated by the lock member by the control circuitState or state where the wearing detection switch is not operatedIs detected,Of the recording and / or playback sectionProhibits the start of operation,When the control circuit detects that the lid lock detection switch is operated by the lock member and the mounting detection switch is operated, the operation of the recording and / or reproducing unit is started.
[0014]
【Example】
Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.
[0015]
In this example, the present invention is applied to a recording / reproducing apparatus that performs recording and reproduction of an information signal on a magneto-optical disk that enables re-recording of an information signal, and reproduction of an information signal recorded on a reproduction-only optical disk. Is.
[0016]
The present invention will be described below in the following order.
[1] Overall configuration of recording / reproducing apparatus
[2] Configuration of disk cartridge
[3] Housing configuration
[4] Configuration on mechanical chassis (configuration of disk drive unit)
[5] Configuration for supporting the magnetic head
[6] Configuration of cartridge holder
[7] Disc cartridge ejection mechanism
[8] Configuration to move the magnetic head up and down
[9] Configuration to support the mechanical chassis
[10] Configuration of upper lid
[11] State in stop mode
[12] Mounting disc cartridge
[13] State in playback mode
[14] State in recording mode
[15] Disk cartridge removal operation
[0017]
[1] Overall configuration of recording / reproducing apparatus
A recording / reproducing apparatus according to the present invention will be described with reference to FIGS. As shown in FIG. 8, the recording / reproducing apparatus according to the present invention includes a main frame 1 and a mechanical chassis 2 that is supported so as to be floating with respect to the main frame 1 via a plurality of damper members 14. A battery case 8, an outer cover 5 and a lower cover 6 are fixedly attached to the main frame 1. Further, an upper lid portion composed of the upper cover 7 and the cover support plate 4 is rotatably attached to the battery case 8. That is, in the recording / reproducing apparatus according to the present invention, the upper lid portion is rotatably attached to the casing constituting the apparatus main body including the main frame 1, the battery case 8, the outer cover 5, and the lower cover 6. . The upper lid portion is rotated to open and close the upper surface side of the housing as shown in FIGS. 9 and 12. A cartridge holder 3 is rotatably attached to the upper surface of the mechanical chassis 2.
[0018]
An electronic board (not shown) is built in between the upper cover 7 and the cover support plate 4 of the upper lid part. This electronic board is connected to a key input unit 15 and a display unit 16 provided on the upper surface of the upper cover 7. As shown in FIG. 1, the key input unit 15 includes a play (play) button 28, a forward track jump button 31, a reverse track jump button 30, a pause (pause) button 32, a stop (stop) button 29, and Output volume (volume) adjustment buttons 33 and 34 are provided. The display unit 16 is constituted by a flat display device such as a liquid crystal display device, and displays various information related to the operation mode of the recording / reproducing apparatus. The other push button switch 27 constituting the key input unit 15 is configured such that the slide cover 26 slidably mounted on the upper cover 7 is slid forward in the direction of arrow A in FIG. 26.
[0019]
An electronic board (not shown) is also stored in the housing. On this electronic board, as shown in FIG. 36, a CPU 338 constituting a control circuit of the recording / reproducing apparatus is provided. A key input unit 15 is connected to the CPU 338. The CPU 338 controls the operation of a disk drive unit 339 serving as a recording and / or reproducing unit configured on the mechanical chassis 2 as described later, according to an operation mode input by operating the key input unit 15.
[0020]
[2] Configuration of disk cartridge
In the recording / reproducing apparatus according to the present invention, a magneto-optical disk is used as a recording medium for information signals. This magneto-optical disk is constructed by attaching a signal recording layer made of a magnetic material to a disk substrate made of a transparent synthetic resin material such as polycarbonate having a diameter of 64 mm. This signal recording layer is locally heated to a temperature above the Curie temperature by means such as irradiation of a focused laser beam, and an information signal is written by applying an external magnetic field to the heated portion. . The information signal written on the magneto-optical disk is read out by irradiating the signal recording layer with a linearly polarized light beam such as a laser beam and detecting the rotation of the polarization direction due to the so-called Kerr effect in the signal recording layer of the reflected light beam of this light beam. It is.
[0021]
The recording / reproducing apparatus according to the present invention uses an information signal recording medium and a reproduction-only optical disc. In this optical disk, a reflective layer made of a metal material such as aluminum is deposited on a disk substrate similar to the disk substrate of a magneto-optical disk. On the disk substrate of this optical disk, fine pit rows corresponding to information signals are formed by means such as injection molding. The information signal written on the optical disk is read out by irradiating a light beam such as a laser beam onto the pit row and detecting a change in the light amount due to diffusion or interference in the signal recording layer of the light beam irradiated on the optical disk. .
[0022]
As shown in FIGS. 38 to 41, the magneto-optical disk and the optical disk used in the recording / reproducing apparatus according to the present invention are rotatably accommodated in cartridges 205 and 216 to constitute a disk cartridge. A cartridge 205 constituting a disk cartridge 220 for housing a magneto-optical disk capable of recording information signals is formed as a rectangular thin casing whose side length substantially corresponds to the diameter of the magneto-optical disk. . As shown in FIG. 38, the cartridge 205 is provided with an opening 223 for a magnetic head for allowing a part of the signal recording surface of the magneto-optical disk to face outward on the upper surface side. As shown in FIG. 40, the cartridge 205 is provided with an optical pickup opening 222 at a position on the lower surface facing the magnetic head opening 223, and further with a chucking opening 213 at the center on the lower surface. ing. The disc cartridge 220 is attached to the recording / reproducing apparatus with the direction of arrow E in FIGS.
[0023]
A shutter member 206 for opening and closing the magnetic head opening 223 and the optical pickup opening 222 is movably attached to the cartridge 205 of the disk cartridge 220 containing the magneto-optical disk. The shutter member 206 has a pair of shutter plates facing each other in parallel and having a size sufficient to close the openings 223 and 222, and a connecting portion that connects one end sides of the shutter plates. It is integrally formed of a resin material or a metal material. The shutter member 206 is slidably supported by engaging a connecting portion side with a support groove 207 formed on one side portion of the cartridge 205. That is, when the shutter member 206 is slid rearward along one side of the cartridge 205 to open the openings 223 and 222, and is slid forward from the rear and returned to the initial position, The openings 223 and 222 are closed by the shutter plate.
[0024]
The cartridge 216 constituting the read-only disk cartridge 221 containing an optical disk is formed as a rectangular thin casing whose length of one side substantially corresponds to the diameter of the optical disk. As shown in FIG. 39, the cartridge 216 has a flat surface on the upper surface side without having an opening. As shown in FIG. 41, the cartridge 216 is provided with an optical pickup opening 222 on the lower surface side, and further with a chucking opening 213 in the central portion on the lower surface side. A disc cartridge 221 containing a read-only optical disc is attached to the recording / reproducing apparatus with the arrow E direction in FIGS. 39 and 41 as the insertion direction.
[0025]
A shutter member 217 for opening and closing the optical pickup opening 222 is movably attached to the cartridge 216 of the read-only disk cartridge 221. The shutter member 217 includes a shutter plate large enough to close the optical pickup opening 222 and a support portion provided on one end side of the shutter plate, and is made of a synthetic resin material or a metal material. It is integrally formed. The shutter member 217 is slidably supported by engaging the support portion side with a support groove portion 207 formed on one side portion of the cartridge 216. That is, the shutter member 217 slides backward along one side of the cartridge 216 to open the optical pickup opening 222 and slides forward from the rear to return to the initial position. Thus, the optical pickup opening 222 is closed.
[0026]
In each of the shutter members 206 and 217, a shutter closing hole 208 is formed at a central position of the connecting portion or the supporting portion toward the side. The shutter closing hole 208 is for engaging a member for closing the shutter members 206 and 217 provided in the recording / reproducing apparatus.
[0027]
A circular chucking hole 204 is formed at the center of the magneto-optical disk and the optical disk. The chucking hole 204 is closed by the chucking plate 202 from the upper surface side. The chucking plate 202 is formed in a disk shape having a size sufficient to cover the chucking hole 204 with a magnetic metal material such as iron or stainless steel. The chucking hole 204 and the chucking plate 202 face the outside of the cartridges 205 and 216 through the chucking opening 213.
[0028]
As shown in FIGS. 40 and 41, a pair of front and rear positioning holes 209, 210 are formed on the lower surface side of each cartridge 205, 216. The front-side positioning hole 209 is formed in an oval shape on one side of the optical pickup opening 222 and in the vicinity of the edge on the front side of the cartridges 205 and 216, with the major axis direction being the front-rear direction. The rear-side positioning hole 210 is formed in a circular shape on the other side of the optical pickup opening 222 and in the vicinity of the rear edge of the cartridges 205 and 216.
[0029]
As shown in FIGS. 40 and 41, a plurality of identification holes 224 are formed on the lower surface side of each cartridge 205, 216 and in the vicinity of the other side edge on the rear side. These identification holes 224 are used to identify the type and state of the disks stored in these cartridges 205 and 216, for example, whether or not information signals can be recorded. In the cartridge 205 of the recording / reproducing disc cartridge 220, a save notch 214 is provided on the rear side surface corresponding to the identification hole 224. When the save notch 214 is moved, the save notch 214 moves back and forth inside one of the identification holes 224, changes the depth of the identification hole 224, and switches the identification state of whether or not the information signal can be recorded. Further, an engaged recess 212 is formed on the front side edge of the lower surface side of each of the cartridges 205 and 216.
[0030]
In the cartridge 205 of the recording / reproducing disk cartridge 220 containing the magneto-optical disk, a magneto-optical disk identification recess 211 is formed at the front edge on the lower surface side. In the cartridge 216 of the disk cartridge 221 on the reproduction-only side, an optical disk disc identifying recess 218 is formed on the front side edge on the lower surface side. The magneto-optical disc identification concave portion 211 and the optical disc identification concave portion 218 have different depths from the lower surface, and due to the difference in depth, a recordable type in which the stored disc can record information signals. It is possible to distinguish between a magneto-optical disk and a read-only optical disk.
[0031]
[3] Housing configuration
As shown in FIGS. 21 and 22, the main frame 1 of the recording / reproducing apparatus is formed in a frame shape that constitutes a peripheral wall portion of a casing constituting the apparatus main body, as shown in FIGS. As shown in FIGS. 20 and 21, an eject slider 116, a lock slider 115 serving as a lock member, and a recording slider 186 are slidably attached to the front surface of the main frame 1. As shown in FIGS. 4 and 8, the battery case 8 is formed in a size that can accommodate the battery 225 by a material such as synthetic resin, and is screwed to the rear portion of the main frame 1. The battery case 8 is provided with a lid portion 25 that can be opened and closed on one side surface. By opening the lid portion 25, the battery 225 can be inserted and removed. The battery 225 is configured by housing a rechargeable secondary battery such as a lithium ion battery, a lithium hydrogen battery, or a nickel-cadmium (Ni-Cd) battery in a cover, and is provided with positive and negative electrode terminals on the outer surface. . Inside the battery case 8, power terminals that are in contact with the electrode terminals of the battery 225 are disposed.
[0032]
The outer cover 5 is made of a material such as synthetic resin in a frame shape as shown in FIGS. 23 and 24, and is attached to the main frame 1 so as to cover the outer peripheral surface of the main frame 1. The front surface of the outer cover 5 is in contact with an ejecting knob 17 that engages with an engaging protrusion 175 provided on one end of the eject slider 116 and an abutting protrusion 341 provided on the other end of the recording slider 186. The recording knobs 18 that are in close contact with each other are slidably attached. The eject knob 17 slides the eject slider 116 by being slid. The recording knob 18 is slid to slide the recording slider 186. The recording knob 18 forms a part of the key input unit 15 and presses a recording start switch (not shown) connected to the CPU 338 via the recording slider 186. The lower cover 6 is made of a material such as metal and is formed in a substantially flat plate shape as shown in FIG. 7, and is screwed to the lower side of the main frame 1 to form the lower surface of the casing constituting the apparatus main body. Parts.
[0033]
As shown in FIGS. 1 and 4, connection jack portions 36, 37, 38, 39, and 40 for inputting and outputting information signals are provided on the outer peripheral surface of the housing. These connection jack portions 36, 37, 38, 39, and 40 are connected to an electronic circuit configured on an electronic substrate in the housing.
[0034]
[4] Configuration on mechanical chassis (configuration of disk drive unit)
As shown in FIGS. 15 to 17, the mechanical chassis 2 is formed in a flat plate shape from a material such as metal. A disk drive unit 339 is configured on the mechanical chassis 2. That is, as shown in FIG. 12, the spindle motor 89 is attached to the lower surface portion of the central portion of the mechanical chassis 2 with the drive shaft facing upward. The spindle motor 89 has a drive shaft protruding above the mechanical chassis 2 through a through hole provided in the center of the mechanical chassis 2. A disk table 11 is attached to the drive shaft of the spindle motor 89. The disk table 11 is formed in a disk shape from a material such as a synthetic resin, and has a truncated cone-shaped protrusion that engages with the chucking hole 204 of the magneto-optical disk or optical disk on the upper surface. The disk table 11 is provided with a magnet for attracting the chucking plate 202 at the upper end portion of the protrusion. When the central portion of the magneto-optical disk or optical disk is placed, the disk table 11 engages the protrusion with the chucking hole 204 and sucks the chucking plate 202 with a magnet to position the magneto-optical disk or optical disk. And hold. At this time, the magneto-optical disk or optical disk is centered so that the center of the chucking hole 204 coincides with the center of the drive shaft of the spindle motor 89. When the spindle motor 89 is driven in this state, the magneto-optical disk or optical disk is rotated integrally with the disk table 11.
[0035]
An optical pickup 10 is attached to the mechanical chassis 2 as shown in FIG. The optical pickup 10 has an optical block unit. The optical block unit includes a laser diode as a light source, a light receiving element such as a phototransistor, and various optical devices for guiding a light beam emitted from the laser diode. An objective lens 130 for condensing and irradiating the light flux on a magneto-optical disk or optical disk mounted on the disk table 11 is provided. The optical pickup 10 collects and irradiates a light beam emitted from a laser diode on a signal recording layer of a magneto-optical disk or an optical disk via an optical device and an objective lens 130. The optical pickup 10 detects the reflected light beam of the light beam irradiated on the magneto-optical disk or the optical disk by the light receiving element via the objective lens 130 and the optical device. The optical pickup 10 detects the light amount of a reflected light beam irradiated on a magneto-optical disk or an optical disk and reflected from the disk, and the rotation angle in the polarization direction.
[0036]
As shown in FIG. 15, the optical pickup 10 is positioned on one side of the spindle mode 89 and supported by a pair of guide shafts 122 and 123 attached to the lower surface of the mechanical chassis 2 in parallel with each other. It is attached so as to be movable in the direction of approaching and separating. The optical pickup 10 is located on the lower surface side of the mechanical chassis 2, and the objective lens 130 faces the upper side of the mechanical chassis 2 through a through hole provided in the mechanical chassis 2. The objective lens 130 is opposed to the signal recording surface of the magneto-optical disk or optical disk held on the disk table 11. That is, the optical pickup 10 irradiates a light beam for writing an information signal to the magneto-optical disk held and rotated by the disk table 11, and detects a reflected light beam from the magneto-optical disk or the optical disk to detect the information signal. Is read out.
[0037]
The optical pickup 10 is fed along the guide shafts 122 and 123 by a pickup feed motor 124 attached to the lower surface of the mechanical chassis 2. A drive gear 125 is attached to the drive shaft of the pickup feed motor 124. The drive gear 125 meshes with a reduction transmission gear 126 that is rotatably supported on the lower surface portion of the mechanical chassis 2, and rotates the reduction transmission gear 126. The reduction transmission gear 126 meshes with a driven gear 127 attached to one end of a screw shaft 121 that is rotatably mounted on the lower surface side of the mechanical chassis 2 in parallel with the guide shafts 122 and 123. The screw shaft 121 is rotated via 127. The screw shaft 121 has a screw screw formed on the outer peripheral surface thereof, and the screw screw is engaged with the optical block portion of the optical pickup 10. That is, when the pickup feed motor 124 is driven, the screw shaft 121 is rotated, and the optical pickup 10 is moved along the guide shafts 122 and 123.
[0038]
In the vicinity of the spindle motor 89, when the optical pickup 10 is closest to the spindle motor 89 within the movable range, that is, the optical pickup 10 is the innermost circumferential position of the magneto-optical disk or the optical disk. An inner circumference detection switch 128 that is pressed by the optical block portion of the optical pickup 10 is attached.
[0039]
A pair of front and rear positioning pins 70 and 342 are planted on the upper surface of the mechanical chassis 2 at one side near the front edge and the rear edge. As shown in FIG. 20, the front side positioning pin 70 is a pin having a conical shape with a reduced diameter on the tip side. The rear positioning pin 342 is a frustoconical pin. These positioning pins 70 and 342 engage with the positioning holes 209 and 210 when the disk cartridge 220 or the disk cartridge 221 is placed on the mechanical chassis 2, and the cartridges 205 and 216 are attached to the mechanical chassis 2. Perform position positioning. A height positioning convex portion 71 is formed on the other side portion in the vicinity of the front edge portion of the mechanical chassis 2 as shown in FIGS. The height positioning convex portion 71 is formed by bulging a part of the mechanical chassis 2 upward. The height positioning convex portion 71 abuts on the lower surface of each cartridge 205, 216 of each disk cartridge 220, 221 placed on the mechanical chassis 2 and positions the cartridge 205, 216 in the height direction. The height positioning convex portion 71 is provided with a through hole in the upper surface portion. A cartridge mounting detection switch 72 is disposed below the height positioning convex portion 71. The cartridge mounting detection switch 72 causes the pressing element 73 to protrude above the upper surface portion of the height positioning convex portion 71 through the through hole of the height positioning convex portion 71. That is, when the lower surface of each of the cartridges 205 and 216 is brought into contact with the upper surface portion of the height positioning convex portion 71, the cartridge mounting detection switch 72 is pressed by the lower surface, and the disk cartridges 220 and 221 are pressed. It is detected that either one is installed. A plurality of identification switches 107 and 108 for detecting a plurality of identification holes 224 are attached in the vicinity of the cartridge mounting detection switch 72 of the mechanical chassis 2. These identification switches 107 and 108 are pressed when the corresponding identification hole 224 is shallow, and are not pressed when the identification hole 224 is deep.
[0040]
In the mechanical chassis 2 constituting the recording / reproducing apparatus according to the present invention, when the disk cartridges 220 and 221 are placed, the cartridges 205 and 216 are positioned by the positioning pins 70 and 342 and the height positioning projection 71. At the same time, the magneto-optical disk or optical disk is positioned and held on the disk table 11, that is, chucked. At this time, the magneto-optical disk and the optical disk can be rotated in the respective cartridges 205 and 216 without slidingly contacting the inner walls of the cartridges 205 and 216. At this time, the mounting of the disk cartridges 220 and 221 is detected by the cartridge mounting detection switch 72, and the state of each identification hole 224 is identified by each identification switch 107 and 108. As shown in FIG. 36, the cartridge mounting detection switch 72 is connected to the CPU 338 as a switch (A).
[0041]
[5] Configuration for supporting the magnetic head
As shown in FIGS. 12, 14, 18, and 19, the optical pickup 10 includes a magnetic head 13 constituting a head device via a connecting arm 12, a magnetic head support plate 132, and a magnetic head support arm 77. It is attached.
[0042]
That is, the connecting arm 12 is bent substantially in an L shape, and as shown in FIGS. 13 and 14, one end side is attached to the optical block portion of the optical pickup 10 by set screws 119 and 119, and the other end side is optically attached. It faces upward on the rear side of the block. The other end portion of the connecting arm 12 is located further rearward than the rear edge of the mechanical chassis 2 and is moved and operated together with the optical pickup 10 without contacting the mechanical chassis 2. The other end of the connecting arm 12 protrudes above the upper surface of the mechanical chassis 2. As shown in FIGS. 18 and 19, the rear edge of the magnetic head support plate 132 is rotatably attached to the other end of the connecting arm 12, that is, in the vicinity of the upper end, via a support shaft 74. It has been. The magnetic head support plate 132 is configured such that the front side edge portion is directed forward, and the front end side portion is rotatable in the vertical direction, that is, in the contact / separation direction with respect to the mechanical chassis 2. On the magnetic head support plate 132, positioning protrusions 87 are provided so as to protrude sideways. On the other hand, a positioning arm 75 projects from the vicinity of the other end of the connecting arm 12 toward the front side. The positioning projecting piece 87 is positioned above the positioning arm 75, and when it comes into contact with the vicinity of the tip of the positioning arm 75, its movement downward is restricted and positioned. The base end side of the magnetic head support arm 77 is attached to the magnetic head support plate 132. The magnetic head support arm 77 is supported with the tip side facing forward, and the vicinity of the tip is bent sideways. The base end side of the gimbal spring 79 is attached to the magnetic head support plate 132. The magnetic head 13 is attached to the tip end side of the gimbal spring 79, and a part of the gimbal spring 79 is bent to form a suspending portion 117. The suspending portion 117 is suspended by being engaged with a bent portion near the tip of the magnetic head support arm 77.
[0043]
The magnetic head 13 supported in this manner is positioned above the objective lens 130 of the optical pickup 10 and faces the objective lens 130. The magnetic head 13 is movable in the vertical direction contacting and separating from the mechanical chassis 2 by rotating the magnetic head support plate 132 with respect to the connecting arm 12, and the positioning protrusions 87 and the positioning arm 75. The lower position is determined by the contact. A torsion coil spring 76 is wound around one end side of the support shaft 74. The torsion coil spring 76 interposes the coil portion between the base end side portion of the positioning arm 75 and the magnetic head support plate 132 and locks each arm portion to the positioning arm 75 and the magnetic head support plate 132, The head support plate 132 is pressed against the connecting arm 12 in the other end direction to position the magnetic head support plate 132 in the lateral direction, and the magnetic head 13 is moved downward with respect to the connecting arm 12. It is biased to rotate in the direction toward the side. The power supply to the magnetic head 13 is performed through a flexible substrate 133 attached between the magnetic head 13 and the base end side of the magnetic head support arm 77.
[0044]
[6] Configuration of cartridge holder
A cartridge holder 3 is disposed on the upper surface of the mechanical chassis 2. As shown in FIGS. 12, 14, 18, and 19, the cartridge holder 3 is designed so that the disk cartridges 20 and 221 are inserted from the front side and can hold the inserted disk cartridges 220 and 221. It has a plate, left and right side walls 149, 150 suspended downward from both side edge portions of the top plate, and support pieces 151, 152 bent inward from the lower end portions of these side walls. The cartridge holder 3 is integrally formed by bending a metal plate material. In this cartridge holder 3, the disk cartridges 220 and 221 are inserted between the side walls 149 and 150 on the lower side of the top plate from the front side, and supported on both sides of the lower surface by the support pieces 151 and 152. The At this time, the disk cartridges 220 and 221 face almost the entire bottom surface downward, and the chucking opening 213, the optical pickup opening 222, the positioning holes 209 and 210, and the identification hole 224 are arranged in the cartridge. It faces the lower side of the holder 3.
[0045]
A shutter opening piece 136 protrudes in the middle of the side wall 150 on one side of the cartridge holder 3 toward the inner side of the cartridge holder 3. When the disk cartridges 220 and 221 are inserted into the cartridge holder 3, the shutter opening piece 136 abuts on the connecting portion or the front end portion of the support portion of the shutter members 206 and 217, and the disk cartridges 220 and 221 are placed in the cartridge holder 3. When stored, the shutter members 206 and 217 are opened. Further, a shutter closing spring 135 is disposed on the front side portion of one side wall 150 so as to bulge toward the inner side of the cartridge holder 3. When the disk cartridges 220 and 221 are inserted into the cartridge holder 3, the shutter closing spring 135 engages with the shutter closing holes 208 of the shutter members 206 and 217, and the disk cartridges 220 and 221 are extracted from the cartridge holder 3. The shutter members 206 and 217 are positioned at the closed position.
[0046]
A pair of holding springs 134 and 137 are attached to the top plate of the cartridge holder 3 on both sides of the rear portion. These holding springs 134 and 137 are fixed at the base end side to the upper surface portion of the top plate, and the front end side is directed backward. The front end portions of the holding springs 134 and 137 enter the lower side of the top plate, that is, the inward side of the cartridge holder 3 through the through holes 138 and 139 provided on both sides of the rear edge side of the top plate. Yes. When the disc cartridges 220 and 221 are inserted into the cartridge holder 3, the holding springs 134 and 137 press and support the rear edge portions of the upper surfaces of the cartridges 205 and 216 of the disc cartridges 220 and 221.
[0047]
The cartridge holder 3 is provided with a pair of left and right support shafts 86 and 86 with the axial direction parallel to the rear edge of the cartridge holder 3 on both sides on the rear side. As shown in FIG. 8, these support shafts 86, 86 are inserted into a pair of left and right bearing members 89, 90 attached near the rear edge of the mechanical chassis 2, and the cartridge holder 3 is connected to the shafts of the support shafts 86, 86. It is supported so that it can rotate around. As shown in FIG. 12, the cartridge holder 3 is rotated upward and separated from the mechanical chassis 2. After the disk cartridges 220 and 221 are inserted and the disk cartridges 220 and 221 are held, As shown in FIG. 13, when the disk cartridges 220 and 221 are pivoted downward and placed on the mechanical chassis 2, the held disk cartridges 220 and 221 are mounted at predetermined positions on the mechanical chassis 2. The disk cartridges 220 and 221 mounted on the mechanical chassis 2 are pressed and supported on the mechanical chassis 2 side by the holding springs 134 and 137, respectively.
[0048]
The magnetic head support plate 132 and the magnetic head support arm 77 are located above the cartridge holder 3. In the top plate of the cartridge holder 3, an opening 140 is formed corresponding to the movable area associated with the movement of the optical pickup 10 of the magnetic head support arm 77 and the gimbal spring 79. That is, the magnetic head 13 faces the upper surface side of the disk cartridges 220 and 221 held in the cartridge holder 3 through the opening 140.
[0049]
As shown in FIGS. 28 to 30, the base end side of the first click stop link 24 is rotated via a support shaft 318 on one side surface of the cartridge holder 3, that is, on the outer side surface of one side wall 150. It is attached as possible. The front end side of the first click stop link 24 is directed to the front side, and is rotatably attached to a click stop slider 23 that is slidably attached to the vicinity of one side edge of the upper surface of the mechanical chassis 2. Yes. That is, the click stop slider 24 has a longitudinal direction as the front-rear direction, and the support pin 322 planted on the mechanical chassis 2 is inserted into a long hole 323 formed along the longitudinal direction so that the click stop slider 24 can slide in the front-rear direction. Has been made. The click stop slider 23 has a support piece 320 that is bent upward. The distal end side of the first click stop link 24 is attached to the support piece 320 via a support shaft 328. A click stop protrusion 319 protrudes further on the tip side than the support shaft 328 of the first click stop link 24. On the other hand, a click stop groove 321 is formed in the support piece 320.
[0050]
When the cartridge holder 3 is rotated upward as indicated by an arrow in FIG. 29, the click stop slider 23 is moved in the direction indicated by the arrow in FIG. 29 via the first click stop link 24. It is slid backward. Then, the click stop protrusion 319 moves from the upper side of the support piece 320 to the side of the support piece 320 while elastically deforming the distal end side of the first click stop link 24 as indicated by an arrow in FIG. When the cartridge holder 3 is rotated to a predetermined angle, it engages with the click stop groove 321. At this time, the cartridge holder 3 is held at a position separated from the mechanical chassis 2. When the cartridge holder 3 is rotated to the mechanical chassis 2 side in the direction indicated by the arrow C in FIG. 29, the click stop protrusion 319 is disengaged from the click stop groove 321, and the click stop slider 23 is indicated by the arrow in FIG. It slides forward in the direction to return to the initial position.
[7] Disc cartridge ejection mechanism
On the upper surface side of the mechanical chassis 2, a disk cartridge discharge mechanism is provided on the rear side for discharging the disk cartridges 220 and 221 held by the cartridge holder 3 to the front side. As shown in FIG. 28, the disk cartridge discharge mechanism includes a cartridge discharge lever 302 that is pivotally attached to the vicinity of the rear edge of the mechanical chassis 2 and a cartridge discharge lever 302 at a rear side position. And a discharge lever lock slider 309 to be locked.
[0051]
The cartridge discharge lever 302 has a base end that enters a lower side of the mechanical chassis 2 through a through hole 304 formed in the vicinity of the rear edge of the mechanical chassis 2. The end side is rotatably supported via a support shaft 303. On the lower edge of the middle part of the cartridge discharge lever 302, an engagement protrusion 307 is provided so as to protrude downward. The engaging protrusion 307 enters an arcuate slit 308 formed in the mechanical chassis 2. The cartridge discharge lever 302 has a range in which the cartridge can be rotated by a slit 308, and is placed along the rear edge of the mechanical chassis 2 with the tip side facing sideways from a position where the tip side is inclined forward. It can be rotated over a position. A tension coil spring 129 is stretched between a spring locking piece 305 provided on the base end side portion of the cartridge discharge lever 302 and a spring locking projection 306 provided on the lower surface portion of the mechanical chassis 2. The tension coil spring 129 urges the cartridge discharge lever 302 to rotate in a direction in which the tip end side in the direction indicated by arrow A in FIG.
[0052]
The discharge lever lock slider 309 is slidably supported laterally by support pins 310 and 311 planted on the upper surface of the mechanical chassis 2. The discharge lever lock slider 309 has one end facing the rear end of a lock release spring 324 attached to the click stop slider 23 and extending to the rear of the click stop slider 23, and the other end being engaged. The mating piece 307 faces the rear end portion of the slit 308 into which it has entered. On one end side of the discharge lever lock slider 309, a lock release pin 317 is planted toward the upper side. The lock release spring 324 is elastically displaceable on the rear end side upward, and the vicinity of the rear end portion is positioned on the upper surface of the discharge lever lock slider 309. The lock release spring 324 has a taper portion 325 whose rear end portion is inclined toward one side, a notch portion 326 opened toward one side and a notch portion at the rear end side portion. 326 and an inclined edge portion 327 provided at the rear edge portion. The other end of the discharge lever lock slider 309 is a tapered portion 316 that is inclined toward the engaging protrusion 307. The discharge lever lock slider 309 has a direction indicated by an arrow C in FIG. 28 by a tension coil spring 315 stretched between a spring locking piece 312 provided in the middle portion and a spring locking projection 313 provided on the mechanical chassis 2. Is biased toward the other end side, that is, toward the slit 308.
[0053]
As shown in FIG. 28, in the cartridge discharge mechanism, in the initial state where the cartridge holder 3 is located on the mechanical chassis 2 side, the cartridge discharge lever 302 is located on the front side, and the lock release spring 324 is located. The click stop slider 23 is also positioned on the front side. When the cartridge holder 3 is rotated upward in the direction indicated by the arrow A in FIG. 28, the lock release spring 324 moves to the rear side in the direction indicated by the arrow F in FIG. At this time, the lock release spring 324 presses the lock release pin 317 in one direction by the tapered portion 325, and slides the discharge lever lock slider 309 in one direction against the urging force of the tension coil spring 315. When the cartridge holder 3 is rotated to a predetermined angle, the lock release spring 324 is moved to a position where the notch 326 is made to correspond to the lock release pin 317. Then, since the discharge lever lock slider 309 causes the lock release pin 317 to enter the notch 326 from the side, the discharge lever lock slider 309 returns to the initial position. That is, when the cartridge holder 3 is rotated upward, the discharge lever lock slider 309 is once slid in one side during the rotation of the cartridge holder 3 as shown by the arrow D in FIG. When the rotation of the cartridge holder 3 is completed, the cartridge holder 3 returns to the initial position.
[0054]
When the disk cartridges 220 and 221 are inserted into the cartridge holder 3, the disk cartridges 220 and 221 press the front end side of the cartridge discharge lever 302 by the front end surface portions of the cartridges 205 and 216, and As shown, the cartridge discharge lever 302 is rotated against the urging force of the tension coil spring 129. When the cartridge discharge lever 302 is rotated rearward, the engagement protrusion 307 presses the taper portion 316 which is the other end of the discharge lever lock slider 309 and slides the discharge lever lock slider 309 in the one end side direction. Let The discharge lever lock slider 309 is slid once in the direction of one end as indicated by arrow D in FIG. 28, but the cartridge discharge lever 302 is moved backward when the insertion of the disk cartridges 220 and 221 into the cartridge holder 3 is completed. When it reaches the side position, the engagement protrusion 307 reaches the rear side from the other end of the carry-out lever lock slider 309, and thus returns to the initial position by the urging force of the tension coil spring 315. At this time, the cartridge discharge lever 302 is locked at the rear side position.
[0055]
When the cartridge holder 3 is rotated to the mechanical chassis 2 side, the lock release spring 324 is elastically deformed upward by sliding the inclined edge portion 327 to the upper end portion of the lock release pin 317 as shown in FIG. While being done, it is moved to the front side. At this time, the discharge lever lock slider 309 is not slid. At this time, when the cartridge holder 3 holds the disk cartridges 220 and 221, the disk cartridges 220 and 221 are moved to the mechanical chassis 2 side while being held in the cartridge holder 3.
[0056]
When the cartridge holder 3 holding the disk cartridges 220 and 221 is moved away from the mechanical chassis 2 and rotated upward, the discharge lever lock slider 309 is rotated during the rotation of the cartridge holder 3 as described above. Once slid in the direction of one end in the direction of arrow D in FIG. When the discharge lever lock slider 309 is slid to one end in this way, the lock on the cartridge discharge lever 302 is released, and the cartridge discharge lever 302 is moved in the direction indicated by the arrow a in FIG. 28 by the urging force of the tension coil spring 129. The disk cartridges 220 and 221 are rotated forward and the disk cartridges 220 and 221 are discharged to the front side of the cartridge holder 3.
[0057]
[8] Configuration to move the magnetic head up and down
In the recording / reproducing apparatus according to the present invention, the magnetic head lifting plate 20 and the transmission slider 19 disposed on the upper surface of the cartridge holder 3 and the transmission slider 19 disposed on the lower surface of the mechanical chassis 2 are slid. The magnetic head lifting / lowering slider 94 moves the magnetic head 13 up and down.
[0058]
As shown in FIGS. 12, 14, 18, and 19, the magnetic head lifting plate 20 is positioned below the magnetic head support arm 77 and the gimbal spring 79 so as to close the rear portion of the opening 140. Arranged. The magnetic head elevating plate 20 is supported such that a rear edge side portion thereof is rotatable with respect to the top plate of the cartridge holder 3 via a support shaft 78, and the front edge side portion is movable in the vertical direction. When the magnetic head lifting plate 20 is rotated upward, as shown in FIGS. 12 and 13, the gimbal spring 79 is pushed up toward the magnetic head support arm 77, and the gimbal spring 79 and the magnetic head support arm 77 are pushed. It is rotated around the support shaft 74 and pushed upward. When the magnetic head elevating plate 20 is rotated downward, a part of the front edge side portion is brought into contact with the top plate of the cartridge holder 3 to be positioned substantially flush with the top plate. . At this time, the magnetic head support arm 77 is rotated downward to a position where the positioning protrusion 87 contacts the positioning arm 75. Further, the gimbal spring 79 descends below the magnetic head support arm 77 to a position where the suspension part 117 is suspended from the bent part on the tip side of the magnetic head support arm 77. Therefore, the distance from the lower surface portion of the magnetic head 13 to the upper surface portion of the magnetic head support arm 77 is as shown by the arrow L in FIG. 13 when the magnetic head lifting plate 20 is rotated upward. The distance from the lower surface portion of the magnetic head 13 to the upper surface portion of the magnetic head support arm 77 when the magnetic head lifting plate 20 indicated by the middle arrow M is rotated downward is shorter.
[0059]
The magnetic head elevating plate 20 is urged downward by a distal end portion of a leaf spring 141 attached to the upper surface portion of the cartridge holder 3 at the base end side by an attachment pin 142. That is, the leaf spring 141 has the tip side portion placed on the magnetic head lifting plate 20.
[0060]
The transmission slider 19 is attached to the other side portion of the upper surface of the cartridge holder 3 so as to be slidable in the front-rear direction. As shown in FIG. 18, the transmission slider 19 has support grooves 146 and 147 that are parallel to each other on both sides, and support pins 143 and 144 that protrude from the upper surface of the cartridge holder 3 in the support grooves 146 and 147. It is inserted. The transmission slider 19 is provided with a push-up projection piece 80 at one side portion, that is, at a portion that is located substantially at the center of the cartridge holder 3 and that faces the other side portion of the magnetic head lifting plate 20. The front end portion of the push-up projection piece 80 is a tapered portion 81 that is inclined upward. An inclined surface portion 82 is formed on the lower surface portion of the other side portion of the magnetic head lifting plate 20 so as to correspond to the push-up protrusion piece 80. The inclined surface portion 82 is formed as a tapered portion that is inclined rearward by bending a part of the magnetic head lifting plate 20 upward.
[0061]
When the transmission slider 19 is slid from the rear side to the front side, the push-up protrusion 80 is moved between the magnetic head elevating plate 20 and the cartridge holder 3 while the taper portion 81 is in sliding contact with the inclined surface portion 82 of the magnetic head elevating plate 20. Enter between the upper surface. Then, the magnetic head elevating plate 20 is rotated upward against the urging force of the plate spring 141. When the transmission slider 19 is slid from the front side to the rear side, the push-up protrusion 80 is moved between the magnetic head elevating plate 20 and the cartridge holder 3 while the taper portion 81 is in sliding contact with the inclined surface portion 82 of the magnetic head elevating plate 20. Retreat backward from between the upper surface. Then, the magnetic head elevating plate 20 is rotated downward by the urging force of the leaf spring 141 to return to the initial position. As shown in FIGS. 12 to 14, the transmission slider 19 has a linkage arm portion 83 suspended from the mechanical chassis 2 on the other side. The linkage arm 83 protrudes downward from the mechanical chassis 2 through a through hole 84 provided near the other side edge of the mechanical chassis 2.
[0062]
As shown in FIGS. 15 to 17, the magnetic head elevating slider 94 is attached to the other side portion of the lower surface side of the mechanical chassis 2 so as to be slidable in the front-rear direction. The magnetic head elevating slider 94 has support grooves 98 and 99 which are parallel to each other, and support pins 96 and 97 projecting from the lower surface portion of the mechanical chassis 2 are inserted into the support grooves 98 and 99 correspondingly. Yes. The magnetic head elevating slider 94 is moved in the front-rear direction by a stepping motor 85 that constitutes a moving operation means controlled by the CPU 338 according to the operation mode of the recording / reproducing apparatus. That is, the stepping motor 85 is attached to the rear side portion of the lower surface portion of the mechanical chassis 2. A drive gear 91 is attached to the drive shaft of the stepping motor 85. The drive gear 91 meshes with a first transmission gear 92 that is rotatably supported on the lower surface of the mechanical chassis 2. The first transmission gear 92 has a worm gear portion, and the worm gear portion is meshed with a worm wheel portion of a second transmission gear 93 that is rotatably attached to the lower surface portion of the mechanical chassis 2. The second transmission gear 93 has a pinion gear portion, and this pinion gear portion is meshed with a rack gear portion 131 provided on the magnetic head elevating slider 94. The magnetic head elevating slider 94 is moved in the front-rear direction by the driving force of the stepping motor 85. The stepping motor 85 is driven by being supplied with drive pulses from the CPU 338, and is rotated by a rotation angle corresponding to the number of supplied pulses.
[0063]
An engagement hole 114 is provided at a position corresponding to the through hole 84 on the rear end side of the magnetic head elevating slider 94. The linkage arm 83 of the transmission slider 19 is inserted into and engaged with the engagement hole 114 through the through hole 84. That is, when the magnetic head elevating slider 94 is slid in the front-rear direction, the transmission slider 19 is slid in the front-rear direction on the cartridge holder 3 and the magnetic head elevating plate 20 is rotated. Is moved up and down. The linkage arm 83 is formed in a substantially arc shape with the support shaft 86 of the cartridge holder 3 as the center, and even when the cartridge holder 3 is rotated about the support shaft 86, the engagement hole 114 is always provided. Is inserted and engaged.
[0064]
A flat contact portion 110 directed to the front side is provided in the middle portion of the magnetic head elevating slider 94. A slider initial position detection switch 109 is disposed on the lower surface of the mechanical chassis 2 at a position corresponding to the contact portion 110. The slider initial position detection switch 109 is detected when the magnetic head elevating slider 94 is in the initial position when the magnetic head elevating slider 94 is in the initial position where the magnetic head elevating slider 94 is slid forward and is pressed by the contact portion 110. A signal is sent to the CPU 338. The CPU 338 resets the number of pulses supplied to the stepping motor 85 to 0, assuming that the magnetic head elevating slider 94 is in the initial position as an initial state. When the magnetic head elevating slider 94 is in the initial position, the transmission slider 19 is moved to the front position, so that the magnetic head 13 is held at the upper position as shown in FIG. The position of the magnetic head elevating slider 94 is determined by the number of pulses supplied to the stepping motor 85 after the slider initial position detection switch 109 outputs a detection signal, that is, after resetting the number of pulses supplied to the stepping motor 85 by the CPU 338. Can be obtained by counting.
[0065]
On the other side edge of the magnetic head lifting / lowering slider 94, a locking projection 111 is provided so as to project sideways. The locking projection 111 faces upward through a through hole 112 formed in the vicinity of the side edge on the other side of the mechanical chassis 2. A latching claw 88 projects from the lower edge position of the side wall 149 on the other side of the cartridge holder 3. The latching claw 88 is formed in a bowl shape in which a lower end side portion of a claw projecting downward is bent inward, and the cartridge holder 3 is rotated downward to mechanically. When placed on the chassis 2, it enters the lower side of the mechanical chassis 2 through the through hole 112. When the magnetic head lifting / lowering slider 94 is in the initial position when the hooked nail 88 enters the through hole 112, the hooked nail 88 is positioned behind the locking protrusion 111. When the magnetic head elevating slider 94 is moved to the rear side, the to-be-latched claw 88 enters the through-hole 112, and as shown in FIG. It comes out more and is prevented from moving upward. That is, after the cartridge holder 3 is rotated to the mechanical chassis 2 side, when the magnetic head elevating slider 94 is slid rearward, the locked claw 88 is locked by the locking projection 111, and the mechanical chassis is moved. 2 is prevented from being separated.
[9] Configuration to support the mechanical chassis
The mechanical chassis 2 is so-called floating supported with respect to the main frame 1 as described above. That is, as shown in FIG. 31, the mechanical chassis 2 has four support pieces 190, 191, 192, and 193 that protrude toward the inner side of the main frame 1, as shown in FIG. These are supported via damper members 14 respectively.
[0066]
As shown in FIG. 32, the damper member 14 has a shaft portion 330 that is planted downward from the lower surface portion of the mechanical chassis 2. The shaft portion 330 has a first flange portion 331 on the base end side (upper end side) that is the mechanical chassis 2 side, and a second flange portion 332 is attached on the distal end side (lower end side). The second flange portion 332 has a screw portion at the center, and is screwed into and attached to the tip portion of the shaft portion 330. A damper 334 is interposed between the flange portions 331 and 332. The damper 334 is formed in a substantially cylindrical shape by an elastic material such as butyl rubber, and the shaft portion 330 is inserted into the center hole, and the upper end portion and the lower end portion are in contact with the flange portions 331 and 332, respectively. The damper 334 has an engagement groove formed on the outer peripheral surface portion so as to surround the damper 334, and support holes 194, 195, 196 formed in the support pieces 190, 191, 192, and 193 in the engagement groove. , 197 are engaged with each other. The damper 334 absorbs vibration transmitted from the main frame 1 and prevents the vibration from being transmitted to the mechanical chassis 2. The damper member 14 is wound around the outer periphery of the damper 334 and has a compression coil spring 333 interposed between the lower surface portion of the mechanical chassis 2 and the upper surface portions of the support piece portions 190, 191, 192, and 193. is doing. The compression coil spring 333 presses and supports the mechanical chassis 2 upward by elastic force.
[0067]
As shown in FIG. 31, the base end side portions of the pair of leaf springs 61 and 62 are attached to the lower surface portion of the cover support plate 4 constituting the upper lid portion so that the front end side protrudes downward. It has been. As will be described later, when the cover support plate 4 is fixed to the main frame 1 in the closed state, the mechanical chassis 2 and the cartridge holder 3 include the damper members 14, 14, 14, 14 and the plate springs. 61 and 62 are supported in a state of being sandwiched from the up and down directions in the arrow direction and the arrow direction in FIG. In other words, the height position of the mechanical chassis 2 is defined by a balance position between the elastic force of the compression coil spring 333 of each damper member 14 and the elastic force of each of the leaf springs 61 and 62 and the weight of the mechanical chassis 2. .
[0068]
In addition, as shown in FIG. 23, the contact piece 198 protrudes from the inner side of the outer cover 5. When the outer cover 5 is attached to the main frame 1, the contact piece 198 enters the inner side of the main frame 1 through a through hole provided in the main frame 1. The contact piece 198 is located on the upper side of the mechanical chassis 2 and restricts the range of movement of the mechanical chassis 2 upward. Therefore, the mechanical chassis 2 is urged upward by the elastic force of the compression coil spring 333 of each damper member 14 in a state where the upper lid portion is rotated upward and moved to the open position, and the contact piece 198. It is positioned by contacting the vicinity of the side edge portion.
[0069]
[10] Configuration of upper lid
As shown in FIG. 9, the upper lid portion includes a cover support plate 4 and an upper cover 7. The cover support plate 4 is made of a plate material such as metal, and includes a main plate and an attachment plate 58 that is rotatably attached to a rear edge portion of the main plate via a support shaft 59. The attachment plate 58 is screwed to the rear surface portion of the battery case 8 together with the lower cover 6 by so-called co-tightening. The main plate of the cover support plate 4 is supported on the upper side of the mechanical chassis 2 so as to cover the upper surface of the cartridge holder 3. The main plate of the cover support plate 4 can be rotated in a direction in which the main plate of the cover holder 4 is in contact with or separated from the upper surface of the cartridge holder 3. The upper cover 7 is attached to the upper surface of the main plate of the cover support plate 4 so as to cover the main plate.
[0070]
A link attachment plate 53 is suspended from one side edge of the main plate of the cover support plate 4 as shown in FIG. A rear end portion of the second click stop link 45 is rotatably attached to the link attachment plate 53 via a support shaft 46. A front end side portion of the second click stop link 45 is engaged with an engagement hole 51 of a click stop piece 50 projecting upward from an upper edge portion on one side of the main frame 1 via a support shaft 48. Are combined. The engagement hole 51 is formed as a long hole whose longitudinal direction is the front-rear direction, and supports the front end side of the second click stop link 45 so as to be able to move and rotate in the front-rear direction. In the vicinity of the front end portion of the second click stop link 45, a click stop protrusion 49 is projected. A click stop hole 52 is formed at a position ahead of the engagement hole 51 of the click stop piece 50. When the upper lid portion closes the upper portion of the mechanical chassis 2, the click stop protrusion 49 is positioned on the front side of the click stop hole 52 as shown in FIG. 9. Then, when the upper lid is rotated in the direction of arrow B in FIG. 9 and opened, the front end side portion of the second click stop link 45 enters the engagement hole 51 in the direction indicated by arrow C in FIG. The click stop protrusion 49 is engaged with the click stop hole 52 while being rotated rearward along the support shaft 48. At this time, the upper lid portion is held in an open state.
[0071]
As shown in FIGS. 25 to 27, a locked member 301 is projected from the inner portion of the upper cover 7 near the front edge. The locked member 301 is locked by a lock slider 115 attached to the front surface portion of the main frame 1 and holds the upper lid portion in a closed state.
[0072]
The lock slider 115 has support slits 177 and 178 in the longitudinal direction, and support pins 163 and 164 implanted in the front surface portion of the main frame 1 are inserted into the support slits 177 and 178 with respect to the main frame 1. And is slidably supported in the direction of arrow X in FIG. The lock slider 115 is provided with a lock piece 181 protruding upward on one end side. The upper end portion of the lock piece 181 has a hook shape that is refracted in the other end direction, and has a locking portion 182 that faces downward. As shown in FIG. 26, the lock slider 115 engages the locking portion 182 with the upper edge portion of the locked member 301 when the upper lid portion is in the closed state, thereby preventing the upper lid portion from being opened. To do. The lock slider 115 is provided with a spring arrangement hole 179 between the support slits 177 and 178. The lock slider 115 can be urged in the other direction in the direction indicated by the arrow T in FIG. 20 by the compression coil spring 168 disposed in the spring disposition hole 179 to lock the member 301 to be locked. Positioned by position. One end of the compression coil spring 168 is engaged with the spring engagement piece 180 at the edge of the spring disposition hole 179 and the other end of the compression coil spring 168 is at the edge of the spring disposition hole 156 formed on the front surface of the main frame 1. The spring engagement piece 157 is engaged.
[0073]
The lock piece 181 has a tapered shape in which the other side portion of the upper end portion is inclined upward, and when the upper lid portion is closed, as shown by an arrow W in FIG. The taper portion is pressed while being in sliding contact with the member 301, and the lock slider 115 is moved in one direction indicated by an arrow X in FIG. When the closure of the upper lid portion is completed, the lock piece 181 moves in the direction indicated by the arrow Y in FIG. 26 by the urging force of the compression coil spring 168 because the locking portion 182 is located above the locked member 301. Then, the position returns to the initial position, and the locked member 301 is locked as shown in FIG.
[0074]
As shown in FIG. 20, the eject slider 116 has support slits 170 and 174 in the longitudinal direction, and support pins 162 and 167 implanted in the front portion of the main frame 1 are inserted through the support slits 170 and 174. The main frame 1 is supported so as to be slidable in the direction of arrow X in FIG. The eject slider 116 has an opening 171 corresponding to the lock slider 115 at substantially the center, and is formed so as not to contact the lock slider 115. An abutting portion 176 is provided at an edge portion on the other end side of the opening portion 171. The contact portion 176 faces the other end portion of the lock slider 115. The eject slider 116 has a spring disposition hole 172 between the opening 171 and the support slit 174. The eject slider 116 is urged in the other direction indicated by the arrow U in FIG. 20 by the compression coil spring 169 disposed in the spring disposition hole 172, so that the rest of the contact portion 176 and the lock slider 115 are separated. It is positioned at a position where a gap can be formed between the ends. As shown in FIG. 20, the compression coil spring 169 has one end engaged with a spring engaging piece 173 at the edge of the spring mounting hole 172 and the other end connected to a spring arrangement formed on the front surface of the main frame 1. The spring engagement piece 160 at the edge of the hole 159 is engaged.
[0075]
As shown in FIG. 25, a detection pin 183 protrudes from the rear surface portion of the front end side of the lock piece 181. A transmission arm 64 and a lid lock detection switch 60 are attached in the vicinity of the front edge of the upper surface portion of the cover support plate 4. The lid lock detection switch 60 is attached with the pressing member facing one side. The transmission arm 64 positions the pressed portion 200 on one end side above the locked member 301 and faces the pressing portion 199 on the other end side to the presser of the lid lock detection switch 60. In a state where the lock piece 181 locks the locked member 301, the detection pin 183 presses the pressed portion 200 of the transmission arm 64 as shown in FIG. 26, and the transmission arm 64 is pressed by the pressing portion 199. Then, the pressing member of the lid lock detection switch 60 is pressed. Then, as shown in FIG. 25, when the upper lid portion has not been closed, or as shown in FIG. 27, even if the upper lid portion is closed, the lock slider 115 receives the biasing force of the compression coil spring 168. When sliding against the lid lock detection switch 60, the pressing operation is not performed. That is, by detecting that the lid lock detection switch 60 is pressed, it is possible to detect that the upper lid portion is closed and the locked member 301 is locked by the lock slider 115. it can. The lid lock detection switch 60 is connected to the CPU 338 as a switch (B) as shown in FIG.
[0076]
An eject transmission member 95 is attached to the front end side of the magnetic head lifting slider 94 as shown in FIGS. The eject transmission member 95 has front and rear mounting holes 103 and 102, and front and rear support pins 101 and 100 implanted in the magnetic head elevating slider 94 are inserted into the mounting holes 103 and 102, respectively. The magnetic head lifting / lowering slider 94 is attached. The front attachment hole 103 is larger than the thickness of the front support pin 101 in the front-rear direction and the side direction. The rear attachment hole 102 is formed as a long hole whose longitudinal direction is the front-rear direction, and is formed substantially equal to the thickness of the rear support pin 100 in the lateral direction. That is, the eject transmission member 95 can rotate in the direction indicated by the arrow H in FIG. 15 with respect to the magnetic head elevating slider 94 about the rear end side, and slide in the front-rear direction in the direction indicated by the arrow J in FIG. Made possible. The eject transmission member 95 is stretched between a spring locking piece 106 protruding on one side of the front side and a spring locking piece 104 protruding on one side of the front end side of the magnetic head elevating slider 94. The tension coil spring 105 constituting the limiter mechanism is positioned at the initial position. The initial position of the eject transmission member 95 is a position which is slid forward with respect to the magnetic head elevating slider 94, and the front end side is rotated in the other direction in the direction opposite to the arrow H in FIG.
[0077]
On the front end side of the eject transmission member 95, an eject transmission piece 113 is projected. When the magnetic head elevating slider 94 is slid forward and the magnetic head 13 is held at the upper position, the eject transmission piece 113 has a through hole provided on the front edge side of the mechanical chassis 2 and the front portion of the main frame 1. Through the through hole 154 provided on the front side, the front side of the main frame 1 protrudes forward. At this time, the ejection transmission member 95 is in the transmission position, and the ejection transmission piece 113 is caused to enter between the other end of the lock slider 115 and the abutting portion 176 of the ejection slider 116 as shown in FIG. ing. At this time, when the eject knob 17 is operated and the eject slider 116 is slid in one direction in the direction of arrow G in FIG. 15 against the urging force of the compression coil spring 169, the eject transmission piece 113 is moved in FIG. The lock slider 115 is slid in one direction indicated by an arrow I in FIG. 15 while being rotated in one direction indicated by an arrow H, and the lock slider 115 is engaged with the locked member 301. Release the stop.
[0078]
When the magnetic head elevating slider 94 is slid rearward as shown in FIGS. 16 and 17, the eject transmission member 95 is set to the transmission release position, and the eject transmission piece 113 is moved to the lock slider 115. Retreating backward from between the end portion and the abutting portion 176 of the eject slider 116 is performed. In this case, even if the eject knob 17 is operated and the eject slider 116 is slid in one side direction, the abutment portion 176 does not abut against the eject transmission piece 113, so the eject transmission piece 113 is not rotated, The lock slider 115 is not slid, and the locking with respect to the locked member 301 is not released.
[0079]
In the reproduction mode, the magnetic head lifting / lowering slider 94 retains the magnetic head 13 upward, although the eject transmission piece 113 is retracted from between the lock slider 115 and the contact portion 176 as shown in FIG. It is located at the first position. In the recording mode, as shown in FIG. 17, the magnetic head lifting slider moves the eject transmission piece 113 out of the space between the lock slider 115 and the abutting portion 176 and rotates the magnetic head 13 downward. It is moved to the second position.
[0080]
Further, when the magnetic head elevating slider 94 is moved rearward, the eject slider 116 is slid, and when the magnetic head elevating slider 94 is moved forward in this state, the eject transmission piece 113 is moved to the eject slider. 116 abuts. In this case, even if the magnetic head elevating slider 94 is moved forward, the eject transmission member 95 remains at the position where the eject transmission piece 113 is in contact with the eject slider 116 while displacing the tension coil spring 105. The eject transmission member 95 moves the magnetic head up and down by causing the eject transmission piece 113 to enter between the other end of the lock slider 115 and the abutting portion 176 of the eject slider when the eject slider 116 is returned to the initial position. The initial position with respect to the slider 94 is restored.
[0081]
By the way, as shown in FIG. 10, cartridge suspension claws 55 and 56 are formed on both side edges of the cover support plate 4 so as to hang downward. As shown in FIG. 11, the cartridge suspension claw 56 provided on one side of the cover support plate 4 is formed integrally with the cover support plate 4 and is formed in a bowl shape bent to the rear side. The upper edge of the bowl-shaped bent portion of the cartridge hanging claw 56 is a hanging portion 58. As shown in FIG. 11, the cartridge suspension claw 55 provided on the other side has a base end portion 66 on the upper side in the drawing so as to be rotatable with respect to the cover support plate 4. (Bottom end side) is formed in a bowl shape bent rearward. The upper edge of the bowl-shaped bent portion of the cartridge hanging claw 55 is a hanging portion 57. The suspension claws 55 and 56 engage the suspension portions 57 and 58 with engagement pieces 118 and 120 projecting laterally on both sides of the cartridge holder 3. When the upper lid portion is opened, these hanging claws 55 and 56 suspend the cartridge holder 3 and rotate the cartridge holder 3 to the upper side of the mechanical chassis 2 as shown in FIG. At this time, the cartridge holder 3 is separated from the upper surface portion of the mechanical chassis 2, and the front portion is located below the front edge portion of the upper cover 7 and faces the front side. At this time, the cover support plate 4 and the cartridge holder 3 are held at positions rotated by the click stop links 24 and 45, respectively.
[0082]
As shown in FIGS. 11, 33, and 35, the hanging claw 55 provided on the other side is bent so that the proximal end portion 66 is along the lower surface portion of the cover support plate 4. 66 is supported by the cover support plate 4 via a support shaft 65 so as to be rotatable. The support shaft 65 is provided perpendicular to the main surface portion of the cover support plate 4 and is located on the front edge side of the suspension piece 55. Therefore, the suspension piece 55 is rotatable in the direction of arrow F in FIGS. 10 and 33 so as to move the rear edge side outward. The hanging claw 55 includes a spring locking portion 68 provided on a base end side portion 66 along the cover support plate 4 of the hanging claw 55 and a spring locking portion 69 provided on the cover support plate 4. As shown by an arrow D in FIG. 33, the tension coil spring 67 stretched between them is urged to rotate in a direction in which the rear edge portion is inward.
[0083]
The tension coil spring 37 is disposed in a notch hole 335 formed in the cover support plate 4.
[0084]
The hanging claw 55 is positioned at the initial position by bringing the proximal end portion 66 into contact with the contact protrusion 70 provided on the cover support plate 4. As shown in FIG. 33, the base end side portion 66 of the hanging claw 55 is formed in a fan shape with the support shaft 65 as the center, and the rear edge portion is slidably supported by the support piece 337. ing.
[0085]
The suspension piece 55 that is rotatably supported in this way is deformed by the damper member 14 due to vibration or impact applied from the outside of the casing constituting the apparatus main body, so that the mechanical chassis 2 and the cartridge holder 3 are connected to the main body. When it moves relative to the frame 1, it can come into contact with the cartridge holder 3 and be elastically rotated outward. Therefore, even if the hanging claw 55 is close to or in contact with the cartridge holder 3, it does not hinder the movement of the cartridge holder 3 due to vibration. In addition, the other side part of the main frame 1 is provided with a bent part 336 that is formed to bulge outward in order to ensure the rotation range of the hanging claw 55.
[0086]
In this recording / reproducing apparatus, since the suspension claw 55 is rotatable, while sufficiently securing a movable range for absorbing vibration due to deformation of the damper member 14 of the mechanical chassis 2 and the cartridge holder 3, The device itself can be reduced in size. That is, when it is attempted to secure 0.8 mm as the movable range of the cartridge holder 3, when the hanging claw 55 is fixed to the cover support plate 4, the side surface portion of the cartridge holder 3 and the hanging claw A clearance of 0.8 mm is necessary between the front end of the engagement piece 118 and the inner wall of the upper cover 7. Therefore, at least a gap of 1.6 mm and the thickness of the hanging claw 55 is required between the side surface portion of the cartridge holder 3 and the inner wall portion of the upper cover 7. However, in this recording / reproducing apparatus, the suspension claw 55 is movable with respect to the cover support plate 4 when trying to secure 0.8 mm as the movable range of the cartridge holder 3, so that as shown in FIG. A gap of 0.8 mm is required between the tip of the engagement piece 118 that engages with the suspension claw 55 and the inner wall of the upper cover 7, but the side surface of the cartridge holder 3 and the suspension claw 55 are required. Is almost unnecessary, and the gap between the side surface portion of the cartridge holder 3 and the inner wall portion of the upper cover 7 is a distance obtained by adding the thickness of the hanging claw 55 to about 0.8 mm. It ’s enough. However, in the recording / reproducing apparatus shown in this embodiment, the movable range of the cartridge holder 3 is 0.8 mm, and a gap of about 0.4 mm is provided between the side surface of the cartridge holder 3 and the hanging claw 55. Is provided.
[0087]
The suspension claws 55 and 56 can be rotated with respect to the cover support plate 4 only on one side, but both have the same configuration and can be rotated with respect to the cover support plate 4 respectively. You may make it become.
[0088]
[11] State in stop mode
When the recording / reproducing apparatus configured as described above is in the stop mode and the disk cartridges 220 and 221 are not mounted, the magnetic head elevating slider 94 is moved to the front side as shown in FIG. In position. At this time, when the eject knob 17 is operated, the lock slider 115 is slid, and the locking by the lock piece 181 with respect to the locked member 301 of the upper lid portion is released.
[0089]
At this time, since the cartridge mounting detection switch 72 is not pressed, the CPU 338 does not drive the disk drive unit 339 even if the key input unit 15 is operated.
[0090]
That is, as shown in the flowchart of FIG. 37, when the power is turned on and started in step st1, the CPU 338 determines whether or not there is an input operation to the key input unit 15 in step st2. If there is an input operation to the key input unit 15, the process proceeds to step st3, and if there is no input operation to the key input unit 15, the process proceeds to step st6 and returns. In step st3, it is determined whether the cartridge mounting detection switch (switch (A)) 72 is operated. If the cartridge mounting detection switch 72 has been operated, the process proceeds to step st4, and if the cartridge mounting detection switch 72 has not been operated, the process proceeds to step st6 and returns. In step st4, it is determined whether the lid lock detection switch (switch (B)) 60 is operated. If the lid lock detection switch 60 has been operated, the process proceeds to step st5, and if the lid lock detection switch 60 has not been operated, the process proceeds to step st6 and returns. In step st <b> 5, the CPU 338 drives and controls the disk drive unit 339 in accordance with an operation on the key input unit 15.
[0091]
[12] Mounting disc cartridge
In order to mount the disk cartridges 220 and 221 in this recording / reproducing apparatus, after operating the eject knob 17 as described above, the upper lid is rotated upward to open as shown in FIG. Then, the disk cartridges 220 and 221 are inserted into the cartridge holder 3 from the front side from the front side. Then, the shutter members 206 and 217 are moved in a direction to open the openings 222 and 223. Then, when the upper lid is rotated downward to close, the disk cartridges 220 and 221 are positioned and mounted on the mechanical chassis 2 as shown in FIG. At this time, the cartridge mounting detection switch 72 is pressed. Further, when the upper lid portion is locked by the lock slider 115, the lid lock detection switch 60 is pressed. In this state, if there is an input to the key input unit 15, the CPU 338 is in a state of controlling the drive of the disk drive unit 339 according to the input.
[0092]
[13] State in playback mode
In a state where the disk cartridges 220 and 221 are mounted and the upper lid is closed and locked, when the key input unit 15 instructs to start the reproduction mode, the CPU 338 controls the driving of the stepping motor 85. 16, the magnetic head elevating slider 94 is moved to the rear side in the direction indicated by the arrow N in FIG. 16, and as shown in FIG. 16, the eject transmission piece 113 is moved to the rear side from the lock slider 115, and the magnetic head 13 is It is moved to the first position held on the upper side.
[0093]
In this state, the magneto-optical disk or optical disk is rotated by the spindle motor 89, the optical pickup 10 is operated, information signals are read from the magneto-optical disk or optical disk, and the reproduction mode is executed. At this time, by operating each of the track jump buttons 30, 31, or the pause button 32, a track jump in a desired direction or a pause operation can be executed. During the execution of the playback mode, even if the eject slider 116 is slid to one side, the eject transmission piece 113 is retracted to the rear side. The stop will not be released. When the stop button 29 is operated to enter the stop mode, the magnetic head elevating slider 94 is returned to the initial position on the front side, and the lock slider 116 can be released from the locking state by sliding the eject slider 116.
[0094]
[14] State in recording mode
In the state where the disk cartridge 220 containing the magneto-optical disk capable of recording the information signal is mounted and the upper lid is closed and locked, the key input unit 15 instructs to start the recording mode. Then, the CPU 338 controls the stepping motor 85 to move the magnetic head elevating slider 94 to the rear side in the direction indicated by the arrow O in FIG. 17, and the eject transmission piece 113 is moved to the lock slider 115 as shown in FIG. The magnetic head 13 is moved to the second position located on the lower side.
[0095]
In this state, the magneto-optical disk is rotated by the spindle motor 89, the optical pickup 10 and the magnetic head 13 are operated, and the information signal is written to the magneto-optical disk, and the recording mode is executed. The magnetic head 13 is in sliding contact with the magneto-optical disk. At this time, a pause operation can be executed by operating the pause button 29. During execution of this recording mode, even if the eject slider 116 is slid in one direction, the eject transmission piece 113 is retracted to the rear side, so that the lock slider 115 is not slid and the upper lid portion The lock on is not released. When the stop button 29 is operated to enter the stop mode, catalog information (so-called user's stock: U-TOC) indicating the address or the like of the information signal that has been written is written, and the catalog information is completely written. Later, the magnetic head lifting slider 94 is returned to the initial position on the front side. By returning the magnetic head elevating slider 94 to the initial position, it becomes possible to release the locking of the upper lid portion by the lock slider 116 by sliding the eject slider 116.
[0096]
It should be noted that the recording mode should be started by the key input unit 15 in a state where the read-only disc cartridge 221 or the recording / reproducing disc cartridge 220 in which the writing of information signals is prohibited by moving the save notch 214 is mounted. Even if the instruction is given, the CPU 338 does not execute the recording mode because it determines that the disk cartridges 220 and 221 mounted by the identification hole 224 cannot record information signals.
[0097]
[15] Removing the cartridge
As described above, in the stop mode after the execution of the playback mode, the stop mode after the completion of the writing of the catalog information after the execution of the recording mode, or the stop mode in a state where neither recording nor playback is performed yet, the recording / playback apparatus The disk cartridges 220 and 221 mounted on the can be taken out.
[0098]
That is, at this time, when the eject knob 17 is operated to slide the eject slider 116 in one direction, the lock slider 115 is unlocked from the upper lid portion, and the upper lid portion is rotated upward to be opened. Can be covered. When the locking with respect to the upper lid portion is released in this way and the upper lid portion is pivoted upward to be opened, the cartridge holder 3 is pivoted upward as shown in FIG. Separate. Then, the disk cartridges 220 and 221 are lifted upward from above the mechanical chassis 2 and pushed out to the front side of the cartridge holder 3 by the cartridge discharge lever 302. At this time, the disk cartridges 220 and 221 have their rear side portions protruding from the cartridge holder 3, so that they can be removed from the cartridge holder 3. In the disk cartridges 220 and 221 extracted from the cartridge holder 3, the shutter members 206 and 217 are closed by a shutter closing spring 135.
[0099]
【The invention's effect】
  As described above, the present invention locks completely when the lid is not completely closed or when the lid lock detection switch is not operated by the lock member even when the lid is closed. It can be determined that the engagement between the member and the locked part is not accurately performed.,When the lid lock detection switch is operated by the lock member, it can be determined that the lock member and the locked portion are accurately engaged.In addition, when the mounting detection switch is not operated, it can be determined that the recording disk is not in a position for mounting on the recording and / or reproducing unit, and when the mounting detection switch is operated. It can be determined that the recording disk is in a position to be attached to the recording and / or reproducing unit, and the lid lock detection switch is not operated by the lock member or the attachment detection switch is not operated. The recording and / or reproducing unit in a state where the operation of the recording and / or reproducing unit is prohibited and the lid lock detection switch is operated by the lock member and the mounting detection switch is operated When the recording and / or reproducing unit is activated, the movement of the lock member is prevented. Since the lid opening operation is not performed, it is possible to record an accurate information signal, to reliably reproduce the information signal, and to further complicate the configuration and increase the power consumption. Therefore, it is possible to reliably prevent the recording medium from being taken out during the information signal recording or reproducing operation.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external appearance of a recording / reproducing apparatus configured by applying the present invention.
FIG. 2 is a plan view showing the recording / reproducing apparatus.
FIG. 3 is a front view showing the recording / reproducing apparatus.
FIG. 4 is a left side view showing the recording / reproducing apparatus.
FIG. 5 is a rear view showing the recording / reproducing apparatus.
FIG. 6 is a right side view showing the recording / reproducing apparatus.
FIG. 7 is a bottom view showing the recording / reproducing apparatus.
FIG. 8 is a small exploded perspective view showing the recording / reproducing apparatus.
FIG. 9 is a right side view showing a casing constituting the recording / reproducing apparatus.
FIG. 10 is a bottom view showing a cover support plate of the recording / reproducing apparatus.
FIG. 11 is a left side view showing a cover support plate of the recording / reproducing apparatus.
FIG. 12 is a left side view showing an internal configuration of the recording / reproducing apparatus in an ejected state.
FIG. 13 is a left side view showing an internal configuration of the recording / reproducing apparatus in a stop mode.
FIG. 14 is a left side view showing an internal configuration of the recording / reproducing apparatus in a recording mode.
FIG. 15 is a plan view illustrating a configuration on a mechanical chassis in a stop mode of the recording / reproducing apparatus.
FIG. 16 is a plan view showing a configuration on a mechanical chassis in a playback mode of the recording / playback apparatus.
FIG. 17 is a plan view showing the structure on the mechanical chassis in the recording mode of the recording / reproducing apparatus as seen through.
FIG. 18 is a plan view showing the configuration of the cartridge holder of the recording / reproducing apparatus in a stop mode and a reproduction mode.
FIG. 19 is a plan view showing a configuration in a recording mode of a cartridge holder of the recording / reproducing apparatus.
FIG. 20 is an enlarged exploded perspective view of a main part showing a configuration for locking the upper lid of the recording / reproducing apparatus.
FIG. 21 is a front view showing a configuration for locking the upper lid of the recording / reproducing apparatus.
FIG. 22 is a plan view showing a configuration of a main frame of the recording / reproducing apparatus.
FIG. 23 is a plan view showing a configuration of an outer cover of the recording / reproducing apparatus.
FIG. 24 is a front view showing a configuration of an outer cover of the recording / reproducing apparatus.
FIG. 25 is a main part front view showing a state in which the upper cover of the recording / reproducing apparatus is in the middle of closing.
FIG. 26 is a main part front view showing a state in which the upper cover of the recording / reproducing apparatus is closed.
FIG. 27 is a front view of relevant parts showing a state in which the locking with respect to the upper cover of the recording / reproducing apparatus is released.
FIG. 28 is an enlarged perspective view of a main part showing a configuration of a cartridge discharge mechanism of the recording / reproducing apparatus.
FIG. 29 is a right side view of an essential part showing an attachment state of a mechanical chassis and a cartridge holder in the recording / reproducing apparatus.
30 is a right side view of an essential part showing a state in which the cartridge holder is rotated toward the mechanical chassis in the recording / reproducing apparatus. FIG.
FIG. 31 is a longitudinal sectional view showing a support structure of a mechanical chassis in the recording / reproducing apparatus.
32 is a longitudinal sectional view showing a damper member used in the recording / reproducing apparatus. FIG.
FIG. 33 is a plan view showing a member for suspending a cartridge holder of the recording / reproducing apparatus.
FIG. 34 is a front view showing a member for suspending a cartridge holder of the recording / reproducing apparatus.
FIG. 35 is a side view showing a member for suspending a cartridge holder of the recording / reproducing apparatus.
FIG. 36 is a block diagram showing a configuration of an electronic circuit unit of the recording / reproducing apparatus.
FIG. 37 is a flowchart showing the operation of the CPU of the recording / reproducing apparatus.
FIG. 38 is a perspective view of a recording / reproducing disk cartridge containing a magneto-optical disk used in the recording / reproducing apparatus as viewed from the upper surface side.
FIG. 39 is a perspective view of a read-only disk cartridge used in the recording / reproducing apparatus as viewed from the upper surface side.
FIG. 40 is a perspective view of a recording / reproducing disk cartridge used in the recording / reproducing apparatus as viewed from the lower surface side.
FIG. 41 is a perspective view of a read-only disk cartridge used in the recording / reproducing apparatus as viewed from the lower surface side.
[Explanation of symbols]
2 Mechanical chassis, 3 Cartridge holder, 13 Magnetic head, 2020 Magnetic head lifting plate, 25 Lid, 49 Magnetic head lifting slider, 60 Lid lock detection switch, 72 Cartridge mounting detection switch, 85 Stepping motor, 95 Eject transmission member, 111 Locking protrusion, 113 eject transmission piece, 115 lock slider, 116 eject slider, 186 recording slider, 222, 221 disc cartridge, 339 disc drive unit

Claims (1)

A recording and / or reproducing unit provided in the main body and having a drive unit for rotationally driving the recording disk;
An upper lid portion provided with a locked portion and rotatably attached to the main body;
The recording disk is held, and is provided on the main body so as to be able to rotate in accordance with the rotation operation of the upper lid part. The upper position where the upper lid part is opened and the recording disk are recorded and / or reproduced. A holder that is rotated between a position to be attached to the part,
An eject slider which is movably provided in the main body and is slid in a predetermined direction by operating an eject operation unit;
An eject transmitting piece that engages with the eject slider and is moved in a predetermined direction by sliding the eject slider;
The upper cover is held in a closed state by being movably provided on the main body and engaged with the locked part, and is moved in contact with the moved eject transmission piece . A locking member that is disengaged to bring the upper lid into an open state;
It is provided on the upper lid part, and is operated by the lock member when the lock member is moved to a position where the lock member is engaged with the locked part, and the engagement between the lock member and the locked part is released. A lid lock detection switch for releasing the operation by the lock member when
A mounting detection switch that is operated when the recording disk is held by the holder and the recording disk is set to a position for mounting the recording and / or reproducing unit;
When the lid lock detection switch and the mounting detection switch are connected and it is detected that the lid lock detection switch is not operated by the lock member or the mounting detection switch is not operated, the recording and / or Alternatively, the operation of the reproducing unit is prohibited, and when it is detected that the lid lock detection switch is operated by the lock member and the mounting detection switch is operated, the recording and / or reproducing unit A control circuit for starting the operation,
When the recording and / or reproducing unit is the recording mode or playback mode, the movement of the locking member caused by the ejecting operation unit by releasing the abutment to the locking member of the eject transmission piece is operated A recording and / or reproducing device for a recording disk that is blocked and prevents the upper lid from being opened.

Images