JP3547301B2 - Information recording medium playback device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information recording medium reproducing apparatus capable of accommodating a plurality of information recording media such as CDs in a storage unit.
[0002]
[Prior art]
2. Description of the Related Art In recent years, in order to increase the storage efficiency of an information recording medium such as a CD, an information recording medium reproducing device in which a large number of information recording media are stored in a rack provided inside the information recording medium reproducing device main body has become widespread.
As shown in FIG. 24, Japanese Patent Application No. 8-28310 filed by the present applicant as an information recording medium reproducing apparatus for improving the accommodation efficiency of such an information recording medium has a circular shape as shown in FIG. An information recording medium reproducing device provided with a rack has been proposed. Japanese Patent Laid-Open Publication No. Sho 59-104759 discloses an information recording medium reproducing apparatus as shown in FIGS.
[0003]
First, in FIG. 24, reference numeral 1 denotes an information recording medium reproducing apparatus main body constituting an information recording medium reproducing apparatus, and a roulette mechanism section 3 is mounted on a chassis base 2 of the information recording medium reproducing apparatus main body 1. Installed. On the upper surface of the roulette base 3a of the roulette mechanism 3, a circular roulette table 3b is rotatably provided, and the roulette mechanism 3 makes a rotational movement. A lower end of a support shaft 3c is mounted on the upper surface of the roulette table 3b, and a lower end of a center post 5 is mounted on an upper end of the support shaft 3c. The center post 5 has a center of a plurality of racks 4a to 4e. The holes 4 are mounted at a predetermined interval from each other. A fan-shaped door 6 is supported at the upper end of the center post 5 so as to be rotatable about a rotation shaft 6a.
[0004]
A loading mechanism 7 is provided on the upper surface of the roulette base 3a so as to be able to move up and down. Inside the loading mechanism 7, an arm (not shown) for holding an information recording medium (CD or the like) D is mounted in an upright state, and at the end of the loading mechanism 7, racks 4a to 4a are provided. An arm 7a for taking out the information recording medium D stored in the information recording medium storage section 40 of 4e is mounted in a horizontal state.
[0005]
The casing 8, the back plate 9, and the operation panel unit 10 are attached to the chassis base 2. The opening 10a of the operation panel unit 10 through which the information recording medium D is inserted and removed is opened and closed by the fan-shaped door 6 described above.
[0006]
Further, each of the racks 4a to 4e is provided with a notch 41 so that the arm 7a of the loading mechanism 7 does not catch on any of the racks 4a to 4e when the loading mechanism 7 moves in the vertical direction. . An encoder (not shown) having an outer periphery detection plate and an inner periphery detection plate in the circumferential direction is disposed on the back side of the racks 4a to 4e. A sensor (not shown) having a light-emitting unit and a light-receiving unit is positioned at the sandwiched position, and the storage position of the information recording medium D in the racks 4a to 4e is determined by the light detection of the sensor. I have.
[0007]
In the information recording medium reproducing device configured as described above, when the information recording medium D to be reproduced is selected by the selection button of the operation panel section 10, the racks 4a to 4e are synchronously rotated by the rotation of the center post 5, and the encoder By detecting the position of the information recording medium storage unit 40 with the sensor, the information recording medium storage unit 40 storing the information recording medium D is positioned on the front side of the loading mechanism 7. When the information recording medium accommodating section 40 is positioned, the arm 7a of the loading mechanism 7 enters from the bottom side of the information recording medium accommodating section 40, and at the same time, the information recording medium D is sandwiched by an arm (not shown) inside the loading mechanism 7; The information recording medium D is reproduced by taking it into the loading mechanism 7 side.
[0008]
FIGS. 25 and 26 show an example of an information recording medium reproducing apparatus, and the same reference numerals are given to the same elements as those in the conventional example. The information recording medium reproducing apparatus has a housing 12 rotatably provided in a frame 11, and the housing 12 is rotated by a housing rotating device 13. The accommodation table 12 accommodates a plurality of information recording media D. Reference numeral 14 denotes a holding table, on which an information reading / writing device 15 and an arm driving device 17 for driving an arm 16 are attached. . The information reading / writing device 15 is provided with a guide 15a for smoothly inserting the information recording medium D. Reference numeral 18 denotes an insertion port for the information recording medium D, and 19 denotes a screw for driving the arm 16. A claw 16 a is attached to the arm 16.
[0009]
In the information recording medium reproducing device configured as described above, when one of the information recording media D on the housing table 12 is selected, the selected one of the information recording media D is placed in front of the insertion slot 18 of the information reading / writing device 15. Is rotated by the accommodation table rotating device 13. Next, the arm 16 is moved in the x direction in the drawing by the arm driving device 17, and the information recording medium D is inserted into the information reading / writing device 15 by the arm 16 to be in the state of d shown by the broken line in the drawing. Here, after reading and writing of information are performed, a part of the information recording medium D comes out of the insertion port 18 by the function of the mechanism of the information reading and writing device 15 itself. Therefore, whether or not the information recording medium D is in contact with the arm 16 is detected by detecting means (not shown) provided on the arm 16. When it is in contact, the claw 16a is rotated in the y direction in the figure by a solenoid (not shown), and the information recording medium D is gripped. On the other hand, when there is no contact, the arm 16 is moved by the arm driving device 17 in the x direction in the figure until the information recording medium D contacts, and the contact is detected and at the same time, the information recording medium D is grasped by the claw 16a as described above. . Next, the arm 16 is moved in the x 'direction in the figure by the arm driving device 17, the information recording medium D is stored at the original position on the storage table 12, and a series of operations is completed.
[0010]
[Problems to be solved by the invention]
In the conventional information recording medium reproducing apparatus shown in FIG. 24, an information recording medium D is arranged on racks 4a to 4e whose upper parts are open, and the information recording medium D is loaded by a loading mechanism 7 arranged outside the racks 4a to 4e. In the above-described information recording medium reproducing apparatus, when a large number of information recording media D are to be further accommodated, for example, racks of the same type are further arranged in multiple stages in the vertical direction of the racks 4a to 4e. It is conceivable that the diameter of the racks 4a to 4e is further increased to increase the number of information recording media D to be accommodated, but all of them result in an increase in the size of the apparatus and an increase in cost associated with the increase in the size of the apparatus. It is uneconomic.
Further, since the operations of the loading mechanism 7 and the arm 7a are complicated when unloading and returning the information recording medium D in the racks 4a to 4e, the mechanism for driving them becomes complicated, and therefore the number of parts increases. However, there is a risk that the cost will increase.
[0011]
Next, the information recording medium reproducing device shown in FIGS. 25 and 26 performs positioning of the information reading / writing device 15 and the information recording medium D by rotating the accommodation table 12, and thereafter, moves the information recording medium D to the information reading / writing device. 15 to read and write information. In order to further increase the storage efficiency of the information recording medium D in the above-described information recording medium reproducing apparatus, for example, the diameter of the storage table 12 is increased. It is conceivable that a large amount of the information recording medium D is disposed in the accommodation table 12, but this increases the size of the apparatus and the cost due to the enlargement of the apparatus, which is uneconomical. When the information read / write device 15 finishes reproducing the information recording medium D and returns the information recording medium D to the original position on the accommodation table 12, the information recording medium D is moved from the inner information reading / writing device 15 to the outer accommodation table 12. , The positioning accuracy of the arm driving device 17 and the driving screw 19 needs to be increased, which may increase the component cost.
[0012]
The present invention has been made in view of such circumstances, and while increasing the number of information recording media accommodated in an information recording medium accommodating means, it is possible to suppress an increase in the size of an apparatus and to record information on an information recording medium. It is an object of the present invention to provide an information recording medium reproducing apparatus that ensures the positioning of a transport mechanism of an information recording medium transporting unit when the information recording medium is transported back into a medium storage unit.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, an information recording medium reproducing device of the present invention includes an information recording medium accommodating means provided in a housing and capable of accommodating a plurality of information recording media, and an information recording medium accommodating means adjacent to the information recording medium accommodating means. Information comprising: an information recording medium reproducing means for reproducing the selected information recording medium provided; and an information recording medium conveying means for conveying the information recording medium selected from the information recording medium accommodating means to the information recording and reproducing means. In the recording medium reproducing apparatus, the information recording medium storage means has information recording medium partition plates located between information storage media to be stored and non-parallel to each other, and the information recording medium partition plates are radially arranged. The information recording medium reproducing means is provided at a central portion of the radially arranged information recording medium partition plates, and the information recording medium transport means stores the information recording medium in the information recording medium. When the information recording medium is conveyed from the medium reproducing means to the information recording medium accommodating means, the information recording medium is recorded on the information recording medium from the side of the information recording medium separating plate adjacent to the information recording medium accommodating means which has a large separation width. It is characterized by being inserted into the medium storage means.
[0016]
[Action]
In the present invention, a plurality of non-parallel information recording medium partition plates are radially provided in the information recording medium storage means, and the information recording medium is stored between the information recording medium partition plates. An information recording medium reproducing means is provided at a central portion on the inner peripheral side of the accommodated information recording medium accommodating means. The information recording medium accommodated in the information recording medium accommodating means is conveyed to the information recording medium reproducing means by the information recording medium conveying means and reproduced. The information recording medium whose reproduction has been completed is transported from the information recording medium reproducing means to the original storage position of the information recording medium storing means by the information recording medium transporting means. At that time, the information recording medium is conveyed and positioned from the upper outer peripheral side of the information recording medium adjacent to the information recording medium at the return conveyance place, and the outer peripheral edge of the information recording medium is the outer periphery where the separation width of the information recording medium partition is large. Since the information recording medium is inserted from the side to the original storage position, the information recording medium can be accurately conveyed to the original storage position of the recording medium storage means.
[0017]
Further, since the information recording medium partitioning plates of the information recording medium accommodating means are arranged radially, it is possible to cope with an increase in the number of accommodated information with a simple structure, and furthermore, it is possible to reduce the size and cost.
[0018]
Further, since the information recording medium reproducing means is provided at the center of the radially arranged information recording medium partition plate, it is possible to suppress an increase in the size of the entire apparatus and to achieve a lower cost.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. Note that the same components as those in the conventional example are denoted by the same reference numerals.
First, in FIGS. 1 to 6, reference numeral 100 denotes a housing, and a donut-shaped disk holder 120 is rotatably provided on a rack base 110 as a base of the housing 100 as an information recording medium accommodating means. Have been. The disk holder 120 has a gentle semi-circular disk storage portion that is open upward, and a plurality of information recording media D can be radially placed on the disk storage portion. The medium partition plate 121 is provided non-parallel and radially. More specifically, as shown in FIG. 2, the side view of the information recording medium partition plate 121 is substantially arcuate, and the height of the information recording medium partition plate 121 is derived from the bottom surface on the inner peripheral side of the disk holder 120. The height of the information recording medium partition plate 121 is uniform in the longitudinal direction, and the thickness of the information recording medium partition plate 121 in the longitudinal direction is uniform, as shown in FIG. The inner peripheral side separation width 121a sandwiched between the adjacent information recording medium partition plates 121 has a width that allows the information recording medium D to be placed vertically and inserted therethrough. On the other hand, the separation width 121b on the outer peripheral side is slightly wider in the circumferential direction than the separation width 121a on the inner peripheral side. Therefore, it is possible to arrange the information recording medium partition plates 121 adjacent to each other on the disk holder 120 radially while the longitudinal directions of the partition plates 121 are not parallel to each other. Then, the plurality of information recording media D are placed vertically within the respective intervals of the information recording medium partition plate 121 on the disk holder 120.
On the other hand, a rotation motor 131 serving as a rotation power source of a rack drive unit 130 for rotating the disk holder 120 is mounted on a rack base 110 substantially at the center of the disk holder 120, and an output shaft of the rotation motor 131 is provided. , A V-belt 133 is stretched between the pulley 132 and a gear pulley 134 pivotally supported by the rack base 110. A small gear 135 coaxial with the gear pulley 134 meshes with a reduction gear 136 supported by the rack base 110. A small gear 137 provided coaxially with the reduction gear 136 is driven by a drive gear 138 supported by the rack base 110. Is engaged with. As shown in FIG. 3, the drive gear 138 meshes with a rack 122 formed on the inner peripheral edge of the disk holder 120.
[0020]
Further, a gear driving unit 140 is provided on the rack base 110 substantially in the center of the disk holder 120, and a power source for loading the information recording medium D, that is, a power source for a driving arm 170 to be described later, and an information recording medium reproduction. A loading motor 151 serving as a power source for opening and closing the information recording medium reproducing unit 300 as a means is attached to the gear holder 150, and a pulley 152 is attached to an output shaft of the loading motor 151, and the pulley 152 and the gear holder 150 are attached. A V-belt 153 is stretched between the gear pulley 154 and the gear pulley 154. A small gear 155 coaxial with the gear pulley 154 meshes with a reduction gear 156 supported by the gear holder 150, and a small gear 157 provided coaxially with the reduction gear 156 is driven by a reduction gear supported by the gear holder 150. The small gear 159 provided coaxially with the reduction gear 158 is engaged with a circular drive cam 160 supported by the gear holder 150. As will be described later, the protrusion 161 on one side of the circular drive cam 160 is engaged with the cam groove 172 on one side of the drive arm 170 supported by the gear holder 150. A guide pin 181 provided at an end of the slide plate 180 is fitted in the annular groove 162 on the other side of the drive cam 160.
[0021]
As shown in FIG. 3, the slide plate 180 is located on the rack base 110 substantially on the lower surface side of the disk holder 120, and is inserted into the guide groove 111 provided on the rack base 110. Reciprocating along the insertion groove 112 while engaging with the guide pin 182 protruding from the front end. At the other end of the slide plate 180, a concave portion 183 for controlling the movement of the pressing piece 190 is provided upward. A guide pin 191 protrudes from a side surface of the pressing piece 190, and the guide pin 191 is loosely attached to the concave portion 183 of the slide plate 180, and is pressed in a direction opposite to the guide pin 191. A guide pin 192 on the other side of 190 is fitted in a shaft hole 201 of a pressing piece holding base 200 described later. Then, as the slide plate 180 reciprocates, the pressing piece 190 can perform a partial circular motion around the guide pin 192.
At this time, the pressing piece 190 may have an operation structure capable of performing a parallel sliding movement accompanying the reciprocating movement of the slide plate 180.
Then, the pressing piece 190 is wedge-shaped by being driven into the gap between the outer peripheral edge of the V groove 193 for sandwiching the information recording medium D, the information recording medium D, and the information recording medium D ′ adjacent to the information recording medium D. And a side surface 194 for expanding the interval between the outer peripheral edges.
Further, the pressing piece 190 is provided with a guide groove 195 of a vertical groove, and a guide portion 255 as a positioning means of the transfer arm 250 described later is inserted into the guide groove 195.
At this time, a guide groove 195 of the pressing piece 190 through which the guide portion 255 of the transfer arm 250 is inserted may be provided on the pressing piece holding table 200.
[0022]
On the other hand, an upper end of the clamp support 210 having a lower end mounted on the rack base 110 substantially in the center of the disk holder 120 and a pressing piece having a lower end mounted on the rack base 110 on the outer peripheral surface side of the disk holder 120. A pair of left and right guides L220 and R230 is attached to the side of the holding base 200 so as to straddle the upper part of the disk holder 120. A guide groove 221 having an escape groove (not shown) and having an arc shape is provided on the inner surface of the guide L220 facing the guide R230. A guide pin 261 provided at an end of the guide arm 260 is fitted into the guide groove 221, and the guide pin 261 slides along the guide groove 221. Further, the guide R230 has a clearance groove (not shown) on the surface facing the guide L220 and a guide groove 231 formed of an arc, and the end of the intermediate arm 240 connected to the tip of the drive arm 170. And a guide pin 262 provided at the other end of the guide arm 260 inserted through the small hole 251 located near the intermediate portion of the transfer arm 250 as the information recording medium transfer means. The guide pin 262 slides along the guide groove 231.
[0023]
The transfer arm 250 is provided with transfer engagement portions 252a and 252b at both ends thereof, and the transfer engagement portion 252a is provided with an information recording medium D ′ adjacent to the selected information recording medium D. An inclined portion 253 sliding only on the outer peripheral edge and a V-groove 254 engaging with the outer peripheral edge of the information recording medium D are provided. Then, while holding the information recording medium D by the transport engagement portions 252a and 252b, the information recording medium D is laterally turned and pulled out from the disk holder 120, and a V-shaped groove 311 of the disk guide 310 described later is slid. Then, the recording medium is sent to an information recording medium reproducing unit 300 as information recording medium reproducing means located at a central portion of the disk holder 120 surrounded by the information recording medium partition plate 121.
Further, a guide portion 255 as a positioning means is provided at a tip end of the transport engaging portion 252a. The guide portion 255 has a thin plate shape (see FIG. 5). When the information recording medium D is in the unloading state, the guide portion 255 is inserted into the guide groove 195 of the pressing piece 190.
[0024]
As shown in FIG. 6, a chain line 263 indicates a trajectory in which the guide pin 261 located at the end of the guide arm 260 has moved along the guide groove 221 of the guide L220. The trajectory of the guide pin 262 located at the other end of the guide arm 260 has moved along the guide groove 231 of the guide R230.
[0025]
The trajectory drawn by the transfer engaging portion 252a of the transfer arm 250 pivotally attached to the guide arm 260 by the guide grooves 221 and 231 of the guide L220 and the guide R230 described above is the information recording medium to be reproduced. The information recording medium D ′ adjacent to D is constrained to have a substantially arc-shaped locus 256 along the outer peripheral edge of the information recording medium D ′.
[0026]
Further, a flat drive cam 270 is arranged in the insertion groove 113 on the rack base 110 substantially at the center of the disk holder 120 so as to allow only a reciprocating linear movement. The flat drive cam 270 is operated by a sensor system and a drive system (not shown) using the loading motor 151 as a power source. On the upper surface of the flat drive cam 270 are formed two guide grooves 271 and 272 for restricting the opening and closing movement of the information recording medium reproducing unit 300 including the clamper holder 280 and the disc tray 290. The clamper holder 280 and the guide pins 281 and 291 projecting from the lower portion of the disc tray 290 are supported by the clamp support 210 so as to be freely opened and closed along the guide grooves 271 and 272 of the flat drive cam 270. It is fitted to slide.
[0027]
A disk guide 310 and a circular cover 320 are provided on the rack base 110 substantially at the center of the disk holder 120. The cover 320 is provided with a notch 321, and a part of the disc guide 310 is positioned so as to be in close contact with the notch 321. When the information recording medium D, which is placed vertically in the disk holder 120, is turned sideways around the center of the rack base 110 and pulled into the disk guide 310, the information recording medium D slides through the disk guide 310. A V-shaped groove 311 is provided, and the outer peripheral edge of the information recording medium D moves on the bottom surface 312 of the V-shaped groove 311 while sliding. An inclined portion 313 to be described later is formed on a part of the bottom surface of the V-shaped groove 311.
[0028]
Further, a sensor holder 330 and a sensor stay 340 are attached to the rack base 110, and a sensor (not shown) attached to the sensor holder 330 and a light receiving unit (not shown) attached to the sensor stay 340 vertically move the disc holder 120 vertically. An information recording medium presence / absence detection sensor for detecting the presence / absence of the placed information recording medium D is formed.
Incidentally, reference numeral 350 denotes a detection sensor for the address of the disk holder 120, which detects the address of the disk holder 120 based on the width and period of a reflection surface (not shown) provided on the lower surface of the disk holder 120.
[0029]
Next, an operation state of the information recording medium reproducing apparatus of the present invention will be described with reference to FIGS. In FIG. 7 and the subsequent drawings, a part of the configuration is omitted to explain the operation state of the information recording medium reproducing apparatus. For the omitted part, see FIG. 2 to FIG. I want you to do it.
First, FIG. 7 is a side view of the information recording medium D in an unloaded state, in which the information recording medium D partitioned by the information recording medium partition plate 121 is placed vertically on the disk holder 120. The position of the circular drive cam 160 causes the drive arm 170 to maintain its most upright position centered on the pivot 171 that is pivotally connected to the gear holder 150, and the guide arm 260 to the right end in the figure along the guide grooves 221 and 231. To be located at At the same time, the slide plate 180 is also positioned at the right end in the figure according to the position of the circular drive cam 160, and the pressing piece 190 fitted in the concave portion 183 of the slide plate 180 is fitted in the shaft hole 201 of the pressing piece holding base 200. The position of the guide pin 192 at the position where it is circularly moved counterclockwise about the guide pin 192 is maintained.
The guide portion 255 of the transport engaging portion 252a is in a state of being inserted into the guide groove 195 of the vertical groove of the pressing piece 190.
Further, the clamper holder 280 and the disc tray 290 of the information recording medium reproducing unit 300 keep the state in which the opening operation is performed.
[0030]
Next, an information recording medium D to be selected is instructed by a selection button on an operation panel (not shown). When the operation of selecting the information recording medium D is performed, the rack driving unit 130 is driven. That is, the rotation of the rotation motor 131 due to the start is transmitted to the pulley 132, the V belt 133, the gear pulley 134, the small gear 135, the reduction gear 136, the small gear 137, and the driving gear 138, and the rack 122 of the disk holder 120 is rotated. Then, when it is determined that the information recording medium D is located at the front position of the information recording medium reproducing unit 300 by the information recording medium presence / absence detection sensor (not shown) and the address detection sensor 350, the rotation of the disk holder 120 is performed. Is stopped.
The gear drive unit 140 is driven by the rotation of the loading motor 151 serving as the power source for loading the information recording medium D, that is, the power source of the drive arm 170 and the opening / closing power source of the information recording medium reproducing unit 300, and D is loaded.
[0031]
The rotation of the loading motor 151 due to the start is transmitted to the pulley 152, the V belt 153, the gear pulley 154, the small gear 155, the reduction gear 156, the small gear 157, the reduction gear 158, the small gear 159, and the circular drive cam 160.
Then, when the circular drive cam 160 starts to rotate counterclockwise, the guide pin 181 of the slide plate 180 fitted in the annular groove 162 of the circular drive cam 160 starts moving leftward in the figure along the annular groove 162. As a result, the slide plate 180 starts a linear motion to the left in the figure. Then, the guide pin 191 of the pressing piece 190 loosely attached to the concave portion 183 of the slide plate 180 also starts a linear motion to the left in the drawing, so that the pressing piece 190 is inserted into the shaft hole 201 of the pressing piece holding base 200. A semi-circular movement is generated clockwise around the engaged guide pin 192 (see FIG. 19).
At this time, the pressing piece 190 may perform a parallel sliding movement accompanying the linear movement of the slide plate 180.
[0032]
When the circular drive cam 160 continues to rotate in the counterclockwise direction, the V-shaped groove 193 at the tip of the pressing piece 190 sandwiches the outer peripheral edge of the information recording medium D at the same time as pressing, as shown in FIG. The side surface 194 of the tip of the piece 190 enters a wedge shape between the information recording medium D and the information recording medium D ′ adjacent to the information recording medium D, and the information recording medium D to be reproduced and the information recording medium D The distance between the adjacent information recording medium D ′ is expanded in the circumferential direction of the disk holder 120 (see FIG. 20).
In this state, a part (not shown) of the pressing piece 190 is engaged with a part of the disc holder 120 so that the disc holder 120 does not slightly move during loading, unloading, and playing of the disc. .
[0033]
Even if the circular drive cam 160 continues to rotate in the counterclockwise direction, the position of the slide plate 180 keeps moving to the left in the figure due to the structure of the annular groove 162 of the circular drive cam 160 (FIG. 21).
At this time, as shown in FIGS. 22A and 22B, the protrusion 161 of the circular drive cam 160 is inserted into the cam groove 172a of the cam groove 172 on the side surface of the drive arm 170. Since the locus to be drawn and the cam groove 172a are on the same circle, the drive arm 170 does not operate.
[0034]
Further, when the circular drive cam 160 continues to rotate counterclockwise, the protrusion 161 of the circular drive cam 160 becomes substantially linear in the cam groove 172 on the side surface of the drive arm 170 as shown in FIG. 8, the drive arm 170 starts a circular motion in the counterclockwise direction around the pivot 171 supported by the gear holder 150 as shown in FIG.
Then, as the drive arm 170 makes a circular motion in the counterclockwise direction, the drive arm 170 operates the guide arm 260 and the transfer arm 250 via the intermediate arm 240. At this time, the guide pin 261 of the guide arm 260 operates along the guide groove 221 of the guide L220, and the guide pin 262 of the guide arm 260 operates along the guide groove 231 of the guide R230.
[0035]
As shown in FIG. 9, the distance between the information recording medium D to be reproduced and the adjacent information recording medium D ′ is kept expanded in the circumferential direction of the disk holder 120. Is inserted through the guide groove 195 of the pressing piece 190, and the transfer engaging portions 252a and 252b of the transfer arm 250 are vertically placed by the information recording medium partition plate 121 of the disk holder 120. As shown in FIG. 10, the information recording medium D is pulled out from the disk holder 120 and slid into the V-shaped groove 311 of the disk guide 310 while being laterally turned, as shown in FIG. After passing through the outer peripheral edge of the information recording medium D on the bottom surface 312 and the inclined portion 313 and moving the information recording medium D to the left in the figure, as shown in FIG. It is sent to the information recording medium reproducing unit 300. At this time, the positional relationship between the circular drive cam 160 and the drive arm 170 is such that the protrusion 161 enters the cam groove 172b as shown in FIG. Then, after sending the information recording medium D to the information recording medium reproducing unit 300 and mounting the information recording medium D at a predetermined position, as shown in FIG. 22 (e), the protrusion 161 is inserted into the cam groove 172c. As a result, the drive arm 170 is further operated, and the transfer engaging portions 252a and 252b of the transfer arm 250 are separated from the outer peripheral edge of the information recording medium D as shown in FIG. The tip of the unit 255 keeps being inserted between the information recording media D ′ adjacent to the information recording medium D, and does not separate from between the information recording media D ′ adjacent to the information recording medium D. Then, when the above state as shown in FIG. 12 is reached, the rotation of the loading motor 151 is stopped by a sensor (not shown), and the operation of the transfer arm 250 is stopped.
[0036]
At the same time, the circular drive cam 160 causes the flat drive cam 270 to move parallel to the right in FIG. 3 by a drive system (not shown), and the clamper holder 280 inserted into the guide grooves 271 and 272 of the flat drive cam 270. Of the disc tray 290 by sliding the guide pin 281 of the disc tray 290 and the guide pin 291 of the disc tray 290 to close the clamper holder 280 and the disc tray 290. The information recording medium D can be reproduced by the information recording medium reproducing unit 300 with both sides of the recording medium D pressed.
[0037]
On the other hand, when the information recording medium D that has been reproduced is transported to the original position of the disk holder 120, the above procedure may be reversed in the manner shown in FIGS. The user selects and instructs conveyance of the information recording medium D by using the selection button on the operation panel to be disabled. When the transport of the information recording medium D is instructed, the flat drive cam 270 is linearly moved leftward in FIG. 3 by a drive mechanism (not shown) by the reverse rotation start of the loading motor 151. Then, the guide pin 281 of the clamper holder 280 and the guide pin 291 of the disc tray 290 that are fitted in the guide grooves 271 and 272 of the flat drive cam 270 are slid, and the clamper holder 280 and the disc tray 290 are opened. Begin to. At this time, the circular drive cam 160 also starts reverse rotation at the same time by the reverse rotation start of the loading motor 151, and the protrusion 161 of the circular drive cam 160 is moved to the cam groove 172c of the drive arm 170 as shown in FIG. Start passing through the inside toward 172b. Then, the transfer arm 250 starts to gradually descend from the upper stop position, and then, as shown in FIG. 22D, when the protrusion 161 begins to pass through the cam groove 172b soon, as shown in FIG. As described above, the transfer engaging portions 252a and 252b of the transfer arm 250 again engage with the outer peripheral edge of the information recording medium D, and the clamper holder 280 and the disc tray 290 are separated from both sides of the information recording medium D to record information. The clamp of the medium D is released.
At this time, the tip of the guide portion 255 of the transport arm 250 is further deepened into the information recording medium D ′ adjacent to the selected information recording medium D.
When the circular drive cam 160 continues to rotate in the clockwise direction in the figure, the protrusion 161 operates the drive arm 170 in the clockwise direction in the figure while being positioned at the tip of the cam groove 172b as shown in FIG. At the same time, the guide pin 261 of the guide arm 260 is operated along the guide groove 221 of the guide L220, and the guide pin 262 of the guide arm 260 is operated along the guide groove 231 of the guide R.
Then, as shown in FIG. 14, the transport arm 250 pulls out the information recording medium D from the information recording medium reproducing unit 300 and slides the V-shaped groove 311 of the disk guide 310 while rotating the information recording medium D sideways. The information recording medium D is conveyed to the disk holder 120 side through the outer peripheral edge of the information recording medium D on the inclined portion 313 and the bottom surface 312.
[0038]
At this time, the leading end of the guide portion 255 of the transport arm 250 is deeply divided between the information recording media D ′ adjacent to the selected information recording medium D and is electrically connected, and further, the inclined portion 253 of the transport arm 250 is adjacent to the selected information recording medium D ′. Starting sliding along the outer peripheral edge of the upper portion of the information recording medium D ′, and further expanding the upper interval between the information recording media D ′ adjacent to the information recording medium D in the circumferential direction of the disk holder 120. It moves to the upper part of the original transport position in the right direction in the figure (see FIG. 23).
Then, the information recording medium D engaged with the transfer engaging portions 252a and 252b of the transfer arm 250 is inserted through the expanded interval, and as shown in FIG. The peripheral edge starts to be inserted through the separation width 121b located on the outer peripheral side of the information recording medium partition plate 121 first. The width of the separation width 121b is wider than the width of the information recording medium D and has a margin, and the height of the separation width 121b is considerably higher than the height of the separation width 121a on the inner peripheral side. The medium D is guided to the original storage position between the information recording medium partition plates 121. Then, the information recording medium D is gradually inserted by the transport arm 250 into the side of the separation width 121a having a small separation width and a small height. Further, since the transfer arm 250 continues to operate, as shown in FIG. 16, the information recording medium D is returned to the original storage position before the transfer, which is partitioned by the information recording medium partition plate 121 on the disk holder 120. Completely stored.
[0039]
When the information recording medium D is stored in the original storage position on the disk holder 120 before the conveyance and the conveyance is completed, as shown in FIG. 17, the conveyance engaging portions 252a and 252b of the conveyance arm 250 are moved to the information recording medium. The guide arm 255 of the transfer arm 250 is inserted into the guide groove 195 of the pressing piece 190 while being separated from the outer peripheral edge of D, and the operation of the transfer arm 250 stops.
Then, the circular drive cam 160 further rotates clockwise, so that the guide pin 181 of the slide plate 180 fitted in the annular groove 162 of the circular drive cam 160 moves rightward in the figure along the annular groove 162. At the start, the slide plate 180 is linearly moved rightward in the figure. Then, as shown in FIG. 18, the guide pin 191 of the pressing piece 190 loosely attached to the concave portion 183 of the slide plate 180 also starts moving linearly rightward in the drawing, and the pressing piece 190 moves the guide pin 192 to the right. The pressing piece 190 that has made a semi-circular movement in the center in the counterclockwise direction and that has entered the wedge shape between the information recording medium D and the information recording medium D ′ adjacent to the information recording medium D separates from the respective outer peripheral edges. At the same time, a part (not shown) of the pressing piece 190 is detached from a part of the disk holder 120, and the disk holder 120 becomes rotatable again. When the above state is reached, the rotation of the loading motor 151 is stopped by a sensor (not shown), and the conveyance of the information recording medium D ends.
[0040]
In addition, instead of the pressing piece 190 making an arc movement clockwise or counterclockwise about the guide pin 192, the pressing piece 190 can perform a parallel sliding movement accompanying the reciprocating movement of the slide plate 180. With a simple operation structure, the information recording medium D and the information recording medium D ′ adjacent to the information recording medium D may be detached and attached in a wedge shape.
[0041]
【The invention's effect】
According to the present invention, since the outer peripheral edge of the information recording medium is inserted into the original storage position from the outer peripheral side where the separation width of the information recording medium partition plate is large, the information recording medium is inserted into the original storage position of the recording medium storage means. It is possible to convey with high accuracy. Further, it is possible to cope with an increase in the number of information recording media to be accommodated with a simple configuration, and furthermore, it is possible to reduce the size and cost.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of an embodiment of an information recording medium reproducing apparatus according to the present invention.
FIG. 2 is a side view schematically illustrating the information recording medium reproducing device shown in FIG.
FIG. 3 is a schematic plan view partially illustrating guides L and R, a drive arm, and the like for explaining the information recording medium reproducing apparatus shown in FIG. 1;
FIG. 4 is a schematic explanatory view showing a state where an information recording medium is placed on a partially enlarged view of IV shown in FIG. 3;
FIG. 5 is a plan assembly view for explaining an information recording medium transport means of the information recording medium reproducing apparatus shown in FIG. 1;
FIG. 6 is a side view showing the trajectory of each end of the transport arm and the guide arm of the information recording medium reproducing apparatus shown in FIG. 1;
FIG. 7 is a side view showing an unloaded state of the information recording medium in the information recording medium reproducing device of the present invention.
FIG. 8 is a side view showing the progress of loading an information recording medium onto an information recording medium reproducing unit by the information recording medium reproducing apparatus of the present invention.
FIG. 9 is a side view showing the progress of loading an information recording medium onto an information recording medium reproducing unit by the information recording medium reproducing device of the present invention.
FIG. 10 is a side view showing the progress of loading an information recording medium onto an information recording medium reproducing unit by the information recording medium reproducing device of the present invention.
FIG. 11 is a side view showing the progress of loading an information recording medium onto an information recording medium reproducing unit by the information recording medium reproducing device of the present invention.
FIG. 12 is a side view showing a state where the information recording medium is loaded on the information recording medium reproducing unit by the information recording medium reproducing apparatus of the present invention.
FIG. 13 is a side view showing a state in which the information recording medium is being conveyed from the information recording medium reproducing section to the information recording medium accommodating means by the information recording medium reproducing apparatus of the present invention.
FIG. 14 is a side view showing a state in which the information recording medium is being conveyed from the information recording medium reproducing section to the information recording medium accommodating means by the information recording medium reproducing apparatus of the present invention.
FIG. 15 is a side view showing a state where the information recording medium is being conveyed from the information recording medium reproducing section to the information recording medium accommodating means by the information recording medium reproducing apparatus of the present invention.
FIG. 16 is a side view showing a state in which the information recording medium is being conveyed from the information recording medium reproducing section to the information recording medium accommodating means by the information recording medium reproducing apparatus of the present invention.
FIG. 17 is a side view showing a state in which the information recording medium is being conveyed from the information recording medium reproducing section to the information recording medium accommodating means by the information recording medium reproducing apparatus of the present invention.
FIG. 18 is a side view showing a state in which the information recording medium is transported and stored in the information recording medium storing means by the information recording medium reproducing apparatus of the present invention.
FIG. 19 is a schematic side view for explaining an operation of a pressing piece accompanying rotation of a circular drive cam of the information recording medium reproducing device of the present invention.
FIG. 20 is a schematic side view for explaining an operation of a pressing piece accompanying rotation of a circular drive cam of the information recording medium reproducing device of the present invention.
FIG. 21 is a schematic side view for explaining an operation of a pressing piece accompanying rotation of a circular drive cam of the information recording medium reproducing device of the present invention.
FIG. 22 is an explanatory diagram for explaining an operation of a drive arm accompanying rotation of a circular drive cam of the information recording medium reproducing device of the present invention.
FIG. 23 is a plan view for explaining an operation in which the transport arm of the information recording medium reproducing device of the present invention returns the information recording medium.
FIG. 24 is a perspective view showing a conventional disk player provided with a circular rack.
FIG. 25 is a perspective view showing a conventional large-capacity information holding and searching device.
FIG. 26 is a schematic side view of FIG. 25.
[Explanation of symbols]
D Information recording medium
D ′ Information recording medium adjacent to information recording medium D
100 housing
110 rack base
120 disk holder
121 Information recording medium divider
121a, 121b Separation width
130 Rack drive
140 gear drive
150 gear holder
160 circular drive cam
170 drive arm
180 slide plate
190 pressing piece
200 Pressing piece holder
210 Clamp support
220 Guide L
230 Guide R
240 Intermediate arm
250 Transfer arm
252a, 252b Transfer engaging portion
253 Inclined part
255 Guide
256 substantially circular locus
260 Guide arm
270 Flat drive cam
280 clamper holder
290 Disc tray
300 Information recording medium reproducing unit
310 Disk Guide

Claims (1)

An information recording medium accommodating means provided in the housing and capable of accommodating a plurality of information recording media; and an information recording medium reproducing means provided adjacent to the information recording medium accommodating means and reproducing the selected information recording medium. An information recording medium reproducing device, comprising: an information recording medium conveying unit that conveys the information recording medium selected from the information recording medium housing unit to the information recording and reproducing unit;
The information recording medium accommodating means has information recording medium partition plates that are located between the information recording media to be accommodated and are not parallel to each other,
The information recording medium partition plate is radially arranged,
The information recording medium reproducing means is provided at the center of the radially arranged information recording medium partition plate,
When the information recording medium conveying means conveys the information recording medium from the information recording medium reproducing means to the information recording medium accommodating means, the information recording medium is non-parallel to each other adjacent to the information recording medium accommodating means. An information recording medium reproducing device, wherein the information recording medium is inserted into the information recording medium accommodating means from a side of the information recording medium partition plate having a large separation width.

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