JP3719700B2 - Front loading disc player - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a front loading disc player.
[0002]
[Prior art]
As is well known, CDs and DVDs are used as bare disks, while DVD-R / W, which is a rewritable DVD, is used in a form of being housed in a cartridge with a performance window.
Therefore, a front loading disc player compatible with both the bare disc and the cartridge storage disc is desired.
[0003]
[Problems to be solved by the invention]
Accordingly, an object of the present invention is to provide a front-loading disc player that can perform performance, that is, perform an information reproducing operation, by pulling into a housing of either a bare disc or a cartridge storage disc. .
[0004]
[Means for Solving the Problems]
A front-loading disc player according to the present invention comprises: Circle Disc-shaped bare disc as well as Cartridge disc containing the recording disc The An insertion port that can be inserted together, and the insertion port is closed. Can be rotated in the disc insertion direction With a lid Disc player , A locking means for locking the rotation of the lid in the disc insertion direction; A second insertion slot through which only the bare disk can be inserted into the lid And unlocking means for releasing the lock when pressed in the disc insertion direction. Is provided.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a front loading player as an embodiment of the present invention will be described with reference to the accompanying drawings.
As shown in FIG. 1, the front panel 2 of the player housing 1 has a slot 4 having a width and height into which a cartridge disk 3 such as a DVD-R / W disk stored in a cartridge can be inserted and ejected. It extends in the left-right direction when viewed from the front of the player. Here, hereinafter, it is assumed that the arrow X direction is rightward, the arrow Y direction is backward, and the arrow Z direction is upward. The cartridge disk 3 has a shutter 3b that allows the internal disk to be bare by opening and closing left and right.
[0006]
In the housing 1, a lid 5 is provided in the vicinity of the slot 4, and the slot 4 is closed from the inside of the front panel portion 2 so that it can be opened and closed. The lid 5 is provided with a lock mechanism which will be described later so as to open only when the cartridge disk 3 is inserted and ejected. On the other hand, for example, the 12 cm diameter bare disk 6 and the 8 cm diameter bare disk 7 are inserted and ejected through the slit 8 provided in the lid 5, so that the lid 5 does not need to be opened.
[0007]
As shown in FIGS. 2 to 5, the lid member 5a constituting the lid assembly 5 has a pair of rotating shaft rods 5a1, 5a1 ′ below the left and right ends, and the rotating shaft rods 5a1, 5a1 ′ are It is a columnar protrusion that extends outward in parallel with the X direction. The lid member 5a is pivotally attached to a pair of stays 2a and 2a 'extending rearward from the lower part of the slot 4 on the back surface of the front panel portion 2 through the rotary shafts 5a1 and 5a1'. Yes. Further, torsion springs 12 and 12 ′ are wound around the rotating shaft rods 5 a 1 and 5 a 1 ′, and the lid member 5 a is urged so that the lid member 5 a closes the slot 4. Therefore, unless the lid member 5 a is pressed from the outside, the peripheral edge portion of the lid member 5 a abuts against the opening peripheral edge portion of the slot 4 to close the slot 4. Further, the lid member 5a has a pair of open / close arms 5a2 and 5a2 ′ extending in the vicinity of the rotary shaft bars 5a1 and 5a1 ′. The open / close arms 5a2 and 5a2 ′ are pushed downward during a cartridge discharge operation described later, and the lid member 5a rotates backward about the rotary shafts 5a1 and 5a1 ′ to open the slot 4. Further, the left and right end portions of the lid member 5a protrude rearward to form a pair of opening / closing stopper surfaces 5a3 and 5a3 ′. The lid member 5a is provided with a slit 8 extending in the left and right directions through which the bare disks 6 and 7 can be inserted. A horizontal holding member 11 that holds the inserted bare disks 6 and 7 from above and below to maintain the level is provided at the center of the back surface of the lid member 5a, and is inserted and ejected through the slit 8. Is held from above and below to maintain its level during insertion / ejection of the bare disk. Through holes 5a4 and 5a4 ′ provided in the vicinity of both ends of the lid member 5a are respectively inserted through the front insertion portions of the lock release rod 10 from the back surface and slightly protrude from the lid member 5a. The unlocking rod 10 is a substantially rectangular parallelepiped that is long in the front-rear direction, and the bottom surface 10b of the rear protrusion 10a is a flat surface that is inclined rearward, that is, in an intermediate direction between the Y direction and the Z direction. The unlocking rod 10 is urged forward by a leaf spring (not shown), and the stepped portion of the rear protruding portion 10a is in contact with the lower portion of the opening peripheral edge of the through holes 5a4 and 5a4 ′. With this configuration, the lock release rod 10 is pressed backward by an external force from the disk storage cartridge or the like, and the lock of the lid member 5a is released. This point will be described in detail later.
[0008]
The pair of lock arm assemblies 9 and 9 'are positioned behind the lid 5, stays 13 and 13' (see FIG. 6) that are fixed to the bottom surface of the player housing 1 and extend upward, and a fixed chassis 20 that will be described later. It is attached to the player housing 1 so as to be swingable around the rotation axis in the X-axis direction via 20 '. The lock arm assembly 9 located on the left side when viewed from the front includes a substantially U-shaped lock arm 9a extending forward, and a stopper arm 9b extending downward from the end of one leg of the lock arm 9a. And rotating shaft rods 9c1 and 9c2 extending outward from the side in a direction parallel to the X axis. The rotary shafts 9c1 and 9c2 are columnar protrusions extending from the left and right sides of the lock arm member 9 to the outside in a direction parallel to the X axis, and are formed integrally with the lock arm member 9. A torsion spring 14 is wound around the rotary shaft 9c1, and a biasing force is applied to the lock arm assembly 9 in a direction in which the lock arm 9a swings upward, while the lid member 5a closes the slot 4. As long as the stopper arm 9b is in contact with the stopper portion 13a of the stay 13. Therefore, the lock arm 9a is maintained in a position that extends horizontally. A part of the U-shaped bottom portion of the lock arm 9a forms an inclined portion 9a1 having an inclined surface inclined downward toward the lid assembly 5 on the upper surface thereof, and in the adjacent region of the inclined portion 9a1 downward. An open recess 9a2 is formed. In the state where the lid member 5a closes the slot 4, the inclined portion 9a1 abuts the bottom portion 10b of the rearward projecting portion 10a of the unlocking rod 10 so as to be slidable from below, while the leading edge of the lock arm 9a is located on the lid member 5a. The opening / closing stopper surface 5a3 is contacted, and the recess 9a2 is contacted from above the opening / closing arm 5a2. (Here, it is preferable that the upper surfaces of the open / close arms 5a2 and 5a2 ′ are smooth curved surfaces.) Further, the upper surface of the coupling portion of the lock arm assembly 9 with the stopper arm 9b is rotated from the rear end portion. A sliding inclined surface 9d inclined upward is provided at a position exceeding a straight line connecting the shaft rods 9c1 and 9c2. As a result, when a force that pushes the lock arm assembly 9 forward while the cartridge (not shown) is in sliding contact with the sliding inclined surface 9d acts during the cartridge discharge operation described later, the rotary shafts 9c1 and 9c2 are locked to the rotary shaft. The arm 9 rotates downward.
[0009]
Since the lock arm assembly 9 'positioned on the right side when viewed from the front is in a mirror image relationship with the lock arm assembly 9 positioned on the left side, description thereof is omitted.
As shown in FIGS. 6 to 11, a disk transport mechanism for transporting a disk supplied via the slot 4 to the performance position is disposed behind the lock arm assemblies 9 and 9 ′. The disc transport mechanism includes a pair of fixed chassis 20 and 20 ′ fixed to the bottom of the player housing 1 and extending in a direction perpendicular to the bottom and the front panel 2.
[0010]
The fixed chassis 20 located on the left side when viewed from the front has inverted L-shaped cam holes 20a and 20b formed to be separated from each other in the front-rear direction. The inverted L-shaped cam holes 20a and 20b have the same shape, and have an inverted L shape including a horizontal portion extending horizontally rearward in the Y direction and a vertical portion extending continuously downward at a right angle. It is a through hole. The fixed chassis 20 ′ located on the right side has the same shape as the left fixed chassis 20, and has inverted L-shaped cam holes 20a ′ and 20b ′ formed to be spaced apart in the front-rear direction. A reinforcing rib 20d is provided at the center of the chassis 20.
[0011]
The carrier member 30 is formed by bending a sheet metal, and has a substantially U-shaped cross section that opens downward as a whole. The top plate portion 30a extending between the fixed chassis 20, 20 ′ has a cutout portion 30a1 that opens rearward. Also, a pair of left and right hanging parts 30b and 30b 'extending in parallel inside the fixed chassis 20, 20' are respectively provided with pins 31, 32 and 31 ', 32' extending outward in parallel with the X axis. Are planted apart from each other in the front-rear and up-down directions.
[0012]
The pair of rack members 70 and 70 ′ are located outside the fixed chassis 20 and 20 ′, and extend in parallel with the fixed chassis 20 and 20 ′, respectively. The rack member 70 located on the left side when viewed from the front has inclined cam holes 70a and 70b formed to be separated from each other in the front-rear direction. The inclined cam holes 70a and 70b are through-holes composed of a horizontal portion that extends horizontally rearward in the Y direction and an inclined portion that extends and inclines upward toward the rear continuously from the horizontal portion. The rack member 70 'located on the right side has the same shape as the rack member 70, and has inclined cam holes 70a' and 70b 'spaced apart in the front-rear direction. Rack gears 70c and 70c ′ are formed on the rack members 70 and 70 ′, respectively. The shaft 71 extends to the left and right and is pivotally supported by the fixed chassis 20 and 20 ′. Pinion gears 72 and 72 ′ are fixed to the left and right ends of the shaft 71, respectively. The pinion gears 72 and 72 'mesh with the rack gears 70c and 70c', and the driving means is connected to the pinion gear 72 'via a power transmission means such as a belt (not shown) from the motor 1c. With this configuration, when the motor 1c is actuated to rotate the pinion gear 72 ′, the rack members 70 and 70 ′ move back and forth in synchronization.
[0013]
Carrier pins 31, 32, 31 ', 32' implanted in the left and right hanging portions 30b, 30b 'of the carrier member 30 are inverted L-shaped cam holes 20a, 20b, 20a', 20b 'of the fixed chassis 20, 20'. And extend to the outside through the racks, and slidably engage with the inclined cam holes 70a, 70b, 70a ′, 70b ′ of the rack members 70, 70 ′, respectively. In the initial state, the carrier pins 31, 32, 31 ′, 32 ′ are positioned slightly behind the front end of the inverted L-shaped cam holes 20a, 20b, 20a ′, 20b ′ of the fixed chassis 20, 20 ′ and the rack. The members 70 and 70 ′ are positioned at the rear ends of the inclined cam holes 70a, 70b, 70a ′ and 70b ′.
[0014]
A disk support mechanism for supporting the disk to be transported is provided inside the carrier member 30. The disk support mechanism includes a pair of plate guides 33 and 33 ′, and the plate guides 33 and 33 ′ have a rectangular parallelepiped block shape extending in the Y direction, and are located inside the left and right hanging portions 30b and 30b ′ of the carrier member 30. It is fixed. The right plate guide 33 ′ has first and second slits 33 a ′ and 33 b ′ extending in the Y direction and spaced apart in the vertical direction on the side surface opposite to the surface in contact with the carrier member 30. The first slit 33a ′ and the second slit 33b ′ are grooves each having an opening on the inside starting from positions 33a1 ′ and 33b1 ′ slightly behind the front end of the plate guide 33 (see FIG. 9). . The same applies to the left plate guide 33.
[0015]
As shown in detail in FIG. 8, the flat plate-like arm plate 40 extends between a pair of first slits 33a and 33a 'provided in the plate guides 33 and 33' and is slidable back and forth. Is engaged. The protrusions 40a and 40a ′ protruding from both rear ends of the arm plate 40 are connected to the protrusions 30c and 30c ′ protruding from both front ends of the carrier member 30 by springs 34 and 34 ′, respectively. The plate 40 is biased forward. Therefore, the front end portion of the arm plate 40 is in contact with the front end portions 33a1 and 33a1 ′ of the first slits 33a and 33a ′ of the plate guides 33 and 33 ′. Further, in the vicinity of both front left and right ends of the arm plate 40, cuts 40b and 40b ′ extending rearward are formed. Furthermore, arc-shaped holes 40c and 40c ′ forming a partial arc shape in the direction of the center line starting from the inside of the cuts 40b and 40b ′ are formed. Further, the lock plate 41 is rotatably supported on the arm plate 40 by a rotating shaft 41a located between the notch 40b ′ and the starting point of the arcuate hole 40c ′, and is viewed from above by bias means and stopper means (not shown). A clockwise rotational bias force is applied as seen and extends in the left-right direction. The left hook-shaped end portion 41b of the lock plate 41 is located on the arc-shaped hole 40c ', and the right end 41c is located on the cut 40b'. The lock plate 41 is engaged with a switch (not shown) that detects release of engagement with a hold arm 43b described later. Further, the arm plate 40 has a notch 40d that opens forward between the arcuate holes 40c and 40c ′. In the vicinity of 40d, there is a tongue 40f extending downward.
[0016]
The hold arm assembly 43 includes a substantially L-shaped first arm member 43a and a second arm member 43b that extend rearward and bend continuously inward. The first and second arm members 43a and 43b They are pivotally attached to each other at the ends. The first arm member 43a has a main arm portion 43a1 that extends rearward and is continuously bent rightward, and a branch arm portion 43a2 that is branched slightly rearward from the main arm portion 43a1 at the bent portion. Consists of. The main arm portion 43a1 has a step which is inclined upward toward the front, and a disk guide piece 44 extends downwardly on the lower surface of one front end and is pivotally mounted rotatably. The arm reset pin 45 and the guide pin 46 held by applying a biasing force upward by a leaf spring are planted in this order by extending upward between the front end portion and the bent portion. A connection pin 47 is planted at the rear end portion of the main arm portion 43a1 so as to extend upward. In addition, load pins 48 and 48 'are planted downward in the rear end portion of the branch arm portion 43a2 and in front thereof, respectively. The first arm member 43a is pivotally supported on the lower surface of the arm plate 40 so as to be rotatable around a rotation shaft 43a3 in the vicinity of the bent portion. A disk guide piece 44 'extends downward and is rotatably supported on the lower surface of the front end of the second arm member 43b. The second arm member 43b has a guide pin 46 ', which is planted by extending upward at an intermediate point between the front end portion and the bent portion. The rear end of the second arm member 43b has a long hole 43b1, and is slidably engaged with the connection pin 47 of the first arm member 43a. A spring 49 is installed between the protrusion 43b2 in the vicinity of the rear end of the second arm member 43b and the protrusion 40e1 of the tongue 40e extending slightly rearwardly from the arm plate 40. . The second arm member 43b is pivotally supported on the lower surface of the arm plate 40 so as to be rotatable about a rotation shaft 43b3 in the vicinity of the bent portion. The two guide pins 46, 46 ′ of the first and second arm members 43a, 43b are slidably engaged with the arc-shaped holes 40c, 40c ′ of the arm plate 40, respectively. Further, the guide pin 46 ′ protrudes from the upper surface of the arm plate 40 through the arc-shaped hole 40 c ′ and engages with the hook-shaped end portion 41 b of the lock plate 41. With such a configuration, the first and second arm members 43a and 43b are simultaneously rotated in the opposite directions with the rotation shafts 43a3 and 43b3 as fulcrums, so that the disk guide pieces 44 and 44 ′ at the front end portions are close to or separated from each other. Thus, the disc 6 or 7 can be clamped or released from the side by moving left and right. The arm reset plate 22 has a groove 22a for guiding the arm reset pin 45 of the hold arm assembly 43 on the lower surface of the front bridge plate 21 installed between the front ends of the fixed chassis 20, 20 ′. Is fixed.
[0017]
As shown in detail in FIG. 9, the flat plate-like centering plate 50 as a whole extends between a pair of second slits 33b and 33b ′ provided in the plate guides 33 and 33 ′, and against them. It can slide back and forth. An arm 50a extending rearward is provided on the left rear side of the centering plate 50, and a spring 35 is installed between a protrusion at the tip of the arm 50a and a protrusion 33c provided on the plate guide 33. Therefore, the centering plate 50 is biased forward and comes into contact with the front ends 33b1 and 33b1 ′ of the second slits 33b and 33b ′. Further, the centering plate 50 is provided with stopper pins 51 and 51 'planted upward at both front ends thereof. Further, a centering load arm 50b extending rearward is rotatably supported at the left rear, and a centering load pin 52 is planted downward at the tip thereof. The arm 50b is applied with a clockwise bias force when viewed from above with respect to the rotation shaft 50b1 and a stopper (not shown) is in contact with the rear end of the centering plate 50, so that the arm 50b is maintained at a position extending backward. Yes. Further, a guide ring 53 composed of three members is fixed to the lower surface of the centering plate 50.
[0018]
A long hole 54 extending in the Y direction is provided on the right side of the centering plate 50. A disc push plate 55 and a pull arm guide plate 56, which are paired by a rivet (not shown) penetrating the long hole 54, are coupled with the centering plate 50 sandwiched from below and above, respectively. 56 is slidable with respect to the centering plate 50 in the front-rear direction, that is, in the Y direction.
[0019]
As described above, the stopper pins 51 and 51 ′ extend upward from both front end portions of the centering plate 50, and are freely engageable with the cuts 40b and 40b ′ of the arm plate 40. Therefore, the arm plate 40 is also moved backward by the movement of the centering plate 50 backward. Further, the stopper pin 51 ′ extends beyond the arm plate 40 through the notch 40b ′, and comes into contact with one end 41c of the lock plate 41 pivotally attached to the arm plate 40 above the notch 40b ′ from the front.
[0020]
The guide ring 53 is composed of three members, and the large-diameter guide rings 53a and 53c are arcuate bodies having a curvature groove that comes into contact with the end of the disk 6 having a diameter of 12 cm, and the small-diameter guide ring 53b has a diameter. It is an arcuate body having a groove with a curvature that comes into contact with the end of an 8 cm disc 7. These are fixed to the lower surface of the centering plate 50 from the left in the order of a large-diameter guide ring 53a, a small-diameter guide ring 53b, and a large-diameter guide ring 53c. The guide rings 53a, 53b, 53c have tongues 53a1, 53b1, 53c1 protruding rearward, and spacers for forming a gap between the tongues 53a1, 53b1, 53c1 and the centering plate 50. (Not shown) are spaced apart and fixed. A pair of disk push plates 55 and a pull arm guide plate 56 are slidably engaged with the long holes 54 of the center ring plate 50, and a pair of lower surfaces of the disk push plate 55 extends downward. Disc guide flanges 55a and 55a 'are fixed. In addition, a spring 57 is provided between a protrusion 55b behind the disk push plate 55 and a protrusion 50c behind the centering plate 50. Therefore, the disk push plate 55 is accommodated in the gap between the centering plate 50 and the guide ring 53b. Further, the pair of disc guide flanges 55a and 55a ′ are located between the guide rings 53a and 53b and the guide rings 53b and 53c, respectively. The pull arm guide plate 56 has an arm portion whose front end portion is bent leftward, and a long hole 56a is formed in the arm portion.
[0021]
On the other hand, the substantially L-shaped pull arm plate 58 composed of two long and short arms is pivotally supported to the left of the centering plate 50 at the bent portion 58a and is directed upward at the end of the long arm 58b extending rightward. A pin 59 is implanted and slidably engages with the elongated hole 56a of the pull arm guide plate 56. The short arm 58c of the pull arm plate 58 is provided with a large-diameter disk cam lock plate 60 and a small-diameter disk cam lock plate 61, which extend toward the left side. Both are leaf springs. A hemispherical projection 62 and 63 is provided upward at the tip of each of the cam lock plates 60 and 61. The centering plate 50 has a notch 50d that opens forward.
[0022]
The pair of cartridge guide members 65, 65 ′ is a bowl shape having an opening toward the upper side with a substantially U-shaped cross section, inside the drooping portions 30b, 30b ′ of the carrier member 30 and the plate guides 33, 33 ′. They are fixed so as to extend downward in parallel. The retraction grooves 65a and 65a ′ that open toward the upper side of the cartridge guide members 65 and 65 ′ are the disk guide pieces 44 of the hold arm assembly 43 that move rearward together with the arm plate 50 when the arm plate 50 moves rearward. 44 'is for passing through the inside. In addition, it is desirable that the retracting grooves 65a and 65a ′ exist on the inner side of the inner plane of the plate guides 33 and 33 ′. Further, cartridge guide grooves 65b and 65b ′ for guiding the cartridge disk 3 are formed in pairs inside the cartridge guide members 65 and 65 ′. The cartridge guide grooves 65b and 65b ′ are shorter in the Y direction than the cartridge guide members 65 and 65 ′, and are inserted along the cartridge guide groove 65b ′ further behind the rear end portion of the cartridge guide groove 65b ′. A cartridge lock 66 is provided for engaging and fixing the recessed portion 3a '(see FIG. 1) of the cartridge disk 3 thus formed.
[0023]
The cartridge lock 66 is on the upper surface of the bottom of the cartridge guide member 65 ′ and is pivotally supported around the rotation shaft 66a. A spring 67 is installed between the protrusion 66b1 of the one end 66b of the cartridge lock 66 and the protrusion 50e behind the centering plate 50. When the cartridge disk 3 is inserted and the centering plate 50 moves backward, the spring 67 By urging, one end portion 66b of the cartridge lock 66 protrudes inside the cartridge guide groove 65b ′, and the cartridge disk 3 is securely held. Further, a switch 68 for detecting that the cartridge disk 3 is held is engaged with the cartridge lock 66.
[0024]
As shown in detail in FIG. 10, the shutter opening mechanism for opening the cartridge shutter 3b to expose the disk inside the cartridge disk 3 to play the cartridge disk 3 is provided between the rear ends of the fixed chassis 20, 20 ′. It is provided on an elongated longitudinal rear cross-linking plate 23. The arm support member 80 is pivotally supported on the lower surface of the rear cross-linking plate 23 so as to be rotatable and slidable in the axial direction around the rotation shaft 80a1 of the pair of pins and bosses 80a. A spring 81 is provided between a protrusion on the arm support member 80 that extends upward from the vicinity of the front of the rotating shaft 80a1 and a protrusion 23a that extends downward from the plate 23. The end portion of the protrusion 23a and the side portion of the arm support member 80 are in contact with each other, and the arm support member 80 is applied with a clockwise bias force when viewed from above and is maintained at a position extending forward. The shutter opening / closing arm 82 is pivotally supported by a stay 80b extending upward in front of the arm support member 80 so as to be swingable around a rotation shaft 82a in the vicinity of the rear end portion of the shutter opening / closing arm 82. A torsion spring 83 is wound around the rotation shaft 82a, and a biasing force is applied to rotate the front end of the shutter opening / closing arm 82 upward, and the shutter opening / closing arm 82 is moved forward by a stopper (not shown). It is maintained at the position where it extends. An opening / closing lever 84 for engaging with and opening the shutter 3b of the cartridge disk 3 is fixed to the front end of the shutter opening / closing arm 82 so as to extend downward, and an elevating lever 85 is provided at the rear end. Is fixed so as to extend downward.
[0025]
As shown in detail in FIG. 11, the disc positioning mechanism is a mechanism for positioning the disc on the playing means 1a for recording and reproduction provided on the bottom surface of the player housing 1, It is provided in the rear. The escape plate 90 is pivotally supported by a stay 91 extending upward from the bottom surface of the player housing 1 so as to be rotatable about a rotation shaft 90a. A spring 92 is interposed between the escape plate 90 and the bottom surface of the player housing 1 behind the rotary shaft 90a and biases the escape plate 90 upward, while facing downward at one front end of the escape plate 90. The implanted stopper pin 93 comes into contact with the player housing 1. Therefore, the escape plate 90 extends horizontally with the bottom surface of the player housing 1. Further, an escape guide 94 for moving the escape plate 90 downward is fixed to the escape plate 90 via a release bracket 95. The guide pins 96a and 96b are planted upward and spaced apart from each other in front and back, and are engaged with two elongated holes 97a and 97b formed to be separated from each other in the front and rear of the drive plate 97 so as to be slidable forward and backward. are doing. One end portion of the drive plate 97 forms a lever 97c extending sideways, and this lever 97c extends outward through the window portion 20c of the fixed chassis 20, and is connected to the end portion 70d of the rack member 70. Abutment is possible. A load plate 98 slidably supported on the drive plate 97 and urged by a spring has a pin 99 extending upward at the front end thereof. The load arm member 100 is elastically coupled to the escape plate 90 in the vertical direction via a spring 101a, and is further coupled to the pin 101 so as to be rotatable. A pin 99 is slidably engaged with the elongated hole 100a of the load arm member 100. The pull plate 102 is fixed at a position away from the pin 101 that is the rotation axis of the load arm member 100. The pull plate 102 has a long hole 102a extending to the left and right in the front and a long hole 102b in the rear. With this configuration, when the lever 97c is moved rearward, the pull plate 102 rotates rearward with the pin 101 as the rotation axis. This will be described in detail later.
[0026]
Next, the operation of the front loading disc player having the above configuration will be described. First, the loading of the disk when the disk to be played is a bare disk 6 having a diameter of 12 cm will be described in detail.
12 and 14 show the order of loading time of the disc.
As shown in FIG. 12, the lid member 5a closes the slot 4 when no disk is inserted. Even if the operator presses a part of the lid member 5a with his / her finger, the edge portions of the inclined portions 9a1 and 9a1 ′ of the lock arm members 9 and 9 ′ located on the left and right are the opening / closing stopper surfaces 5a3 and 5a3 of the lid member 5a. The lid 5 does not open because it is in contact with '.
[0027]
As shown in FIG. 13, in the state before the disk 6 is inserted, the carrier pins 31, 32, 31 ′, 32 ′ implanted in the carrier member 30 are inverted L-shaped cam holes of the fixed chassis 20, 20 ′. 20a, 20b, 20a ′ and 20b ′ are positioned slightly rearward of the front ends, and are positioned at the rear ends of the inclined cam holes 70a, 70b, 70a ′ and 70b ′ of the rack members 70 and 70 ′.
As shown in FIG. 14, when the disk 6 is inserted into the slit 8 provided in the lid member 5a, the disk 6 is held horizontally by the horizontal holding member 11 disposed behind the slit 8. Therefore, when the operator further pushes the disk 6, the disk 6 is reliably brought into contact with the groove of the guide ring 53 while being kept horizontal.
[0028]
As shown in FIG. 15, when the disk 6 is further pushed in, the guide ring 53 is pushed backward, thereby moving the centering plate 50 backward. The pin 51 ′ implanted in front of the centering plate 50 engages with the end 41c of the lock plate 41, and moves the end 41c rearward. Therefore, the lock plate 41 rotates about the rotation shaft 41a, and the engagement between the hook-shaped end portion 41b and the guide pin 46 ′ on the hold arm 43 is released. Here, since the spring 49 applies a force that brings the front of the hold arms 43a and 43b close to each other, the hold arms 43a and 43b connect the guide pins 46 and 46 ′ to the arc-shaped holes 40c of the arm plate 40, While being slid on 40c ', they rotate in opposite directions around the rotation shafts 43a3 and 43b3. Therefore, the disc guide pieces 44, 44 'arranged at the front end portions of the hold arms 43a, 43b abut on the side portions of the disc 6, and the side portions of the disc 6 are inserted into the grooves of the large diameter guide rings 53a, 53c of the guide ring 53. Is inserted. On the other hand, simultaneously with the rotation of the lock plate 41, a switch (not shown) engaged with the lock plate 41 is turned on, and the drive motor 1c engaged with the rack member 70 ′ is operated to operate the transport mechanism.
[0029]
As shown in FIGS. 13 and 16, when the disk 6 is inserted, as described above, the lock plate 41 rotates and a switch (not shown) is turned on to rotate the drive motor 1c. Then, the rack members 70 and 70 'are moved rearward in synchronization, and the carrier pins 31, 32, 31', 32 'change their relative positions with respect to the inclined cam holes 70a, 70b, 70a', 70b '. Instead, it moves backward while sliding along the horizontal portion of the inverted L-shaped cam holes 20a, 20b, 20a ′, 20b ′. When the carrier pins 31, 32, 31 'and 32' reach the rear end of the horizontal portion of the inverted L-shaped cam holes 20a, 20b, 20a 'and 20b', the carrier pins 31, 32, 31 'and 32' are inclined cams. While sliding along the inclined portions of the holes 70a, 70b, 70a ′ and 70b ′, the holes descend along the vertical portions of the inverted L-shaped cam holes 20a, 20b, 20a ′ and 20b ′. Therefore, the carrier member 30 is also lowered. A centering load pin 52 of a centering load arm 50b provided swingably on the centering plate 50 is slidably engaged with a long hole 102a of the pull plate 102, while an arm load pin 48 behind the hold arm 43 is also slidably engaged. The long hole 102b of the pull plate 102 is slidably engaged. When the rack members 70 and 70 ′ further move rearward, the lever 97c of the drive plate 97 that protrudes outward through the window portion 20c of the fixed chassis 20 and the end portion 70d of the rack member 70 come into contact with each other. The lever 97c is moved backward. Then, the drive plate 97 and the load plate 98 biased by this and the spring also move backward. Since the pin 99 rotates the load arm member 100 through the long hole 100a, the pull plate 102 rotates backward about the pin 101 as a rotation axis. Therefore, the centering plate 50 and the hold arm 43 are both moved rearward by the pull plate 102, and the center position of the disk 6 reaches the center position of the turntable 1a. Here, the clamper 1b is lowered from above by an elevating mechanism (not shown) engaged with the rack members 70, 70 ', and the turntable 1a and the clamper 1b hold the disk 6 from above and below to achieve clamping.
[0030]
By further rearward movement of the rack members 70, 70 ', the pins 31, 32, 31', 32 'reach the lower ends of the vertical portions of the inverted L-shaped cam holes 20a, 20b, 20a', 20b 'and stop. Only the rack members 70 and 70 'move while sliding with the pins 31, 32, 31' and 32 'along the horizontal portions of the inclined cam holes 70a, 70b, 70a' and 70b '. Therefore, the pull plate 102 is further rotated rearward to move the arm plate 40 and the centering plate 50 further rearward. Therefore, the disc 6 is disengaged from the disc guide pieces 44 and 44 'and the guide rings 35a and 35c. This makes it possible to perform.
[0031]
When the disc 6 is ejected after the performance is completed, the drive motor 1c is rotated in reverse according to the operation of the eject switch 1d by the operator, the rack members 70 and 70 'are moved forward, and the lever 97c of the drive plate 97 is moved. Returns to the original position, and the pull plate 102 also returns to the original position. Therefore, the first and second arm members 43a and 43b forming the hold arm assembly 43 are rotated so as to be close to each other, and the side portions of the disk 6 are held again by the disk guide pieces 44 and 44 ', and the centering plate 50 Again, the large diameter guide rings 35a and 35c and the end of the disk 6 are engaged again to hold the disk.
As is clear from FIG. 13, the pins 31, 32, 31 ′, 32 ′ are inclined portions of the inclined cam holes 70a, 70b, 70a ′, 70b ′ and the inverted L-shaped cam holes 20a, 20b, 20a ′. , 20b ′, moving upward while sliding along the vertical portion of 20b ′, and the clamper is released by the above-described lifting mechanism (not shown). Further, it reaches the rear end of the inclined cam holes 70a, 70b, 70a ′, 70b ′ and advances forward while sliding along the horizontal part of the inverted L-shaped cam holes 20a, 20b, 20a ′, 20b. Eventually, the front end of the disk 6 is inserted into the horizontal holding member 11, and the arm reset pin 45 of the hold arm assembly 43 is inserted into the groove 22a of the arm reset plate 22 fixed to the lower surface of the front bridge plate 21, Since the arm reset pin 45 moves to the left along this groove, the hold arm assembly 43 releases the disk. Then, the guide pin 46 ′ of the second arm member 43b is engaged with the lock plate 41, and the second arm member 43b is locked. On the other hand, since the left side portion of the first arm member 43a engages with the protrusion 62 on the cam lock plate 60 fixed to the pull arm plate 58, the pull arm plate 58 is clockwise around the rotation shaft 58a as viewed from above. To turn. Then, since the pin 59 at the tip of the pull arm plate 58 is engaged with the elongated hole 56a of the arm guide plate 56, the arm guide plate 56 and the disk push plate 55 fixed to the arm guide plate 56 are separated from the centering plate 50 and the guide. It is pushed forward from the storage position between the ring 53b. A pair of disc guide flanges 55a and 55a 'fixed to the disc push plate 55 abuts against the end of the disc 6 and pushes it forward, and the end of the disc 6 passes through the slit 8 to the front of the front panel 2. It is exposed.
[0032]
When the rack members 70 and 70 'further advance, the arm reset pin 45 comes into contact with the front end portion of the groove 22a of the arm reset plate 22, and the advance of the hold arm assembly 43 stops. When the rack members 70 and 70 ′ further advance forward, the protrusion 62 of the cam lock plate 60, which is a leaf spring, is disengaged from the end of the first arm member 43a, and the engagement between the protrusion 62 and the first arm member 43a is released. The pull arm plate 58, the disk push plate 55, and the arm guide plate 56 are simultaneously returned to their original positions by the restoring force of the spring 57. At this position, a switch (not shown) that engages with the rack member 70 'is turned on. When the rack member 70, 70' is returned to the position when the drive motor 1c is reversed and the disk 6 is inserted, the switch is turned off. Complete the operation.
[0033]
Next, disk loading when the disk to be played is a bare disk 7 having a diameter of 8 cm will be described in detail. 17, 18, and 19 are shown in order of loading time.
As shown in FIG. 17, when the bare disk 7 is inserted into the slit 8 provided in the lid 5 by the operator, the disk guide ring passes through the horizontal holding member 11 as in the case of loading the 12 cm disk 6. Abuts against 53 grooves. When the disk 7 is pressed by the operator, the centering plate 50 is moved backward via the disk guide ring 53, the lock of the hold arm assembly 43 is released, and the first and second arm members 43a, 43b are rotated. The shafts 43a3 and 43b3 are rotated in directions opposite to each other. Disc guide pieces 44, 44 ′ arranged at the front end portions of the first and second arm members 43 a, 43 b abut against the side portion of the disc 7 outside the center line of the disc 7. Further, while the side portion of the disk 7 is slid into the groove of the large-diameter guide ring 53a or 53c, the side portion of the disk 7 is fitted into the small-diameter guide ring 53b located at the rear to sandwich the disk 7.
[0034]
As in the case of the disk 6, in response to the rotation of the lock plate 41, a switch (not shown) is turned on and the transport mechanism operates to slide along the inclined portions of the inclined cam holes 70a, 70b, 70a ′, 70b ′. While moving, the carrier member 30 descends along the vertical portions of the inverted L-shaped cam holes 20a, 20b, 20a ′, 20b ′.
However, as shown in FIG. 18, since the diameter of the disk 7 is smaller than that of the disk 6, the distance between the front end portions of the hold arm assembly 43 is narrow, so that the branch arm portion 43a2 of the first arm member 43a is the disk. 6, the arm load pin 48 'is in contact with the centering load arm 50b below it from the right and is centered on the rotation shaft 50a in the counterclockwise direction when viewed from above. Move 50b. For this reason, the centering load pin 52 and the arm load pin 48 do not engage with the pull plate 102. That is, the centering plate 50 and the arm plate 40 are not pulled backward by the movement of the rack members 70 and 70 ′, and the center of the disk 6 is positioned on the turntable 1a as it is, and the clamper 1b and the turntable 1a lowered Thus, the disk 7 is held from above and below. This makes it possible to perform.
[0035]
Next, when the disc 7 is ejected after the performance is completed, the drive motor 1c rotates in reverse according to the operation of the eject switch 2c by the operator, and the rack members 70 and 70 'move forward. The pins 31, 32, 31 ', 32' slide along the inclined portions of the inclined cam holes 70a, 70b, 70a ', 70b' and the vertical portions of the inverted L-shaped cam holes 20a, 20b, 20a ', 20b'. While moving upward, the clamper comes off. Furthermore, it abuts on the rear end portions of the inclined cam holes 70a, 70b, 70a ′, 70b ′ and advances forward while sliding along the horizontal portions of the inverted L-shaped cam holes 20a, 20b, 20a ′, 20b ′. The arm reset pin 45 of the hold arm assembly 43 is inserted into the groove 22a of the arm reset plate 22 fixed to the lower surface of the front bridge plate 21, and the arm reset pin 45 moves to the left along this groove. The arm assembly 43 releases the disk. Then, the guide pin 46 ′ of the second arm member 43b is engaged with the lock plate 41, and the second arm member 43b is locked.
[0036]
As shown in FIG. 19, since the diameter of the disk 7 is smaller than that of the disk 6, the left side portion of the first arm member 43 a is engaged with the protrusion 63 on the cam lock plate 61 fixed to the pull arm plate 58. Therefore, when the pull arm plate 58 rotates clockwise around the rotation shaft 58a as viewed from above, the pin 59 at the tip of the pull arm plate 58 is engaged with the elongated hole 56a of the arm guide plate 56. The arm guide plate 56 and the disk push plate 55 fixed to the arm guide plate 56 are pushed further forward than the disk 6 from the storage position between the centering plate 50 and the guide ring 53b. A pair of disc guide flanges 55a and 55a 'fixed to the disc push plate 55 abuts against the end of the disc 7 and pushes it forward, so that the end of the disc 7 has the same amount of slit 8 as the disc 6. Then, it is exposed to the front of the front panel 2.
[0037]
When the rack members 70 and 70 'further advance, the arm reset pin 45 comes into contact with the front end portion of the groove 22a of the arm reset plate 22, and the advance of the hold arm assembly 43 stops. When the rack members 70 and 70 ′ further move forward, the protrusion 63 of the cam lock plate 61, which is a leaf spring, is disengaged from the end of the first arm member 43a, and the engagement between the protrusion 63 and the first arm member 43a is disengaged. The pull arm plate 58, the disk push plate 55, and the arm guide plate 56 are simultaneously returned to their original positions by the restoring force of the spring 57. At this position, a switch (not shown) that engages with the rack member 70 'is turned on. When the rack member 70, 70' is returned to the position when the drive motor 1c is reversed and the disk 6 is inserted, the switch is turned off. Complete the operation.
[0038]
Next, disk loading when the disk to be played is the cartridge disk 3 will be described in detail. 25 to 27 show the order of loading.
As shown in FIGS. 20 to 22 and FIG. 25, when the cartridge disk 3 is aligned with the slot 4 of the front panel 2 and brought close thereto, the two locks protruding from both ends of the cartridge disk 3 and the front of the lid 5 are provided. The release rod 10 comes into contact and pushes it backward. When the lock release rod 10 is pushed rearward, the inclined portion 9a1 of the lock arm 9a that contacts the bottom portion 10b of the rear protrusion 10a behind the lock release rod 10 is moved downward while sliding on the bottom portion 10b. Therefore, the edge portion of the inclined portion 9a1 moves below the opening / closing stopper surface 5a3 of the lid member 5a, so that the lid 5 can be opened and closed. The same applies to the lock arm member 9 'located on the right side.
[0039]
The lid member 5a is pressed further rearward by the cartridge disk 3 and rotated rearward. The horizontal holding member 11 fixed to the lid member 5a is also retracted from the approach path of the cartridge guide 3 together with the lid member 5a to avoid interference with the cartridge disk 3.
Further, the cartridge disk 3 pressed rearward is engaged with the cartridge guide grooves 65b, 65b ′ of the rear cartridge guide members 65, 65 ′ via the slot 4. The front end of the cartridge disk 3 abuts on the front end of the guide ring 53 and the cartridge pushes a lock member (not shown), whereby the centering plate 50 is unlocked and the guide ring 53 is pressed rearward. The centering plate 50 integrated with the guide ring 53 also moves rearward while slidingly contacting the second slits 33b and 33b ′ of the plate guides 33 and 33 ′. Further, the front end of the cartridge disk 3 abuts on the tongue 40f of the arm plate 40, and the arm plate 40 also moves rearward.
[0040]
As shown in FIG. 26, when the cartridge disk 3 is further pushed in, the centering plate 50 moves further back through the guide ring 53 while being in sliding contact with the second slits 33b and 33b ′ of the plate guides 33 and 33 ′. At the same time, the disk guide pieces 44 and 44 ′ in front of the hold arm 46 enter the retreat grooves 65a and 65a ′ from the openings in front of the disk guide members 65 and 65 ′ and move backward.
[0041]
When the cartridge disk 3 is further pushed in, the cartridge disk 3 is engaged by one end 66b of the cartridge lock 66a protruding into the cartridge guide grooves 65b and 65b ′ and the recesses 3a and 3a ′ on the side of the cartridge disk 3. The cartridge disk 3 is held by the cartridge guide members 65 and 65 ′. Further, the switch 68 that engages with the cartridge lock 66a is turned on to operate the transport mechanism.
[0042]
As shown in FIG. 27, the cartridge disk 3 fixed to the carrier member 30 via the cartridge guide members 65 and 65 ′ is transported horizontally by the transport mechanism as described above. Since the arm plate 40 is pressed by the cartridge disk 3 and is positioned behind the carrier member 30, the rear tongue 40 e of the arm plate 40 is moved up and down at the rear end of the shutter opening / closing arm 82 by the movement of the carrier member 30. In contact with 85, the lifting lever 85 rides on the tongue 40e and slides. Therefore, the lift lever 85 moves upward, and the opening / closing lever 84 at the front end moves downward. At this time, the opening 30a1 formed in the top plate 30a of the carrier member 30 is set to the front, the opening 40d of the arm plate 40 and the opening 50d of the centering plate 50 are set to the rear, and the opening / closing lever 84 moves downward between them, and the cartridge The disk 3 is engaged with a recess in front of the shutter 3b. When the cartridge disk 3 further moves rearward, the open / close arm 82 rotates together with the shutter 3b counterclockwise around the rotation shaft 80a1 of the arm support member 80 as viewed from above, and opens the same.
[0043]
Although the carrier member 30 continues to descend, the open / close arm 82 is also rotatable about the rotation shaft 82a, so that the engagement with the shutter 3b is maintained. The center of the cartridge disk 3 is aligned on the turntable 1a, and the clamper 1b is lowered by an elevating mechanism (not shown) to complete the performance state. At this time, the large-diameter disc guide ring 53a fixed to the centering plate 50 abuts the escape guide 94 from above, moves it downward, and rotates the escape plate 90 via a release bracket 95 integral with the escape guide 94. The shaft 90a is rotated downward. Therefore, it is possible to prevent the components on the centering plate 50 from interfering with the components on the escape plate 90.
[0044]
As shown in FIGS. 23 and 24, after the performance or recording is completed, the drive motor 1c rotates reversely according to the operation of the eject switch 1d by the operator, and the rack members 70 and 70 ′ move forward. The cartridge disk 3 is held from the position of the performance or recording means together with the cartridge guide members 65 and 65 ′, and is automatically conveyed along the original path. When the cartridge disk 3 tries to pass over the lock arm member 9, the front end of the cartridge disk 3 abuts against the sliding inclined surface 9d of the lock arm member 9, and the lock arm member 9 is moved around the pivot shaft 9a1. Turn clockwise as seen in the X direction. Therefore, the concave portion 9a2 below the lock arm 9a1 moves the opening / closing lever 5a2 of the lid member 5a downward, and the lid 5 rotates backward about the columnar bar 5a1 to open the slot 4.
[0045]
When the cartridge disk 3 is inserted, a switch (not shown) is turned on at a position where the cartridge disk 3 is held by the cartridge guide members 65 and 65 ′ by the cartridge lock 66a, the drive motor 1c is stopped, and the carrier members 70 and 70 ′ are stopped. . When the cartridge lock 66a is disengaged from the cartridge disk 3, the centering plate 50 moves forward while being in sliding contact with the second slits 33b and 33b ′ of the plate guides 33 and 33 ′ by the restoring force of the spring 35. The guide ring 53 fixed to the centering plate 50 moves forward while being in contact with the cartridge disk 3. Since the cartridge disk 3 partially protrudes from the slot 4, it can be pulled out by the operator.
[0046]
【The invention's effect】
As described above, according to the slot-in type front loading player according to the present invention, even when a bare disk or a cartridge disk is inserted through the front panel, this is retained and pulled into the interior. It can be automatically transported to the performance means and played.
[Brief description of the drawings]
FIG. 1 is a perspective view of a front loading player according to the present invention.
FIG. 2 is a perspective view of the player of FIG. 1 with a housing removed.
3 is a partially exploded perspective view of a lid provided at an insertion port of a front panel of the player of FIG. 1. FIG.
4 is a perspective view of a lock arm assembly that engages the lid of FIG. 3. FIG.
5 is a plan view of a main part in the vicinity of the lid body along a horizontal plane including the AA line in FIG. 2; FIG.
6 is an exploded perspective view of the transport mechanism of the player in FIG. 1. FIG.
7 is a front view of the main part in a state in which the front panel of FIG. 2 is removed. FIG.
8 is a partially exploded perspective view in the vicinity of a hold assembly of the transport mechanism of FIG.
9 is a partially exploded perspective view in the vicinity of a centering plate of the transport mechanism of FIG. 6;
10 is a partially exploded perspective view of the vicinity of a shutter opening / closing arm of the transport mechanism of FIG.
11 is a partially exploded perspective view in the vicinity of an escape plate of the transport mechanism of FIG.
12 is a side view seen from a vertical plane including the line BB in FIG. 5;
13 is a conceptual diagram of the transport mechanism of FIG.
14 is a side view seen from a vertical plane including a line BB in FIG. 5 in a state in which a bare disk is inserted.
15 is a plan view of the main part along the horizontal plane including the AA line of FIG. 2 in a state where a bare disk is inserted. FIG.
16 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state where the bare disk is positioned on the turntable. FIG.
17 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state where a bare disk is inserted. FIG.
18 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state where the bare disk is positioned on the turntable. FIG.
19 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state in which the bare disk is ejected. FIG.
20 is a side view seen from a vertical plane including the line BB in FIG. 5 in a state where the cartridge disk is in contact with the lid.
21 is a side view as seen from a vertical plane including a line BB in FIG. 5 in a state in which a cartridge disk is inserted. FIG.
22 is a side view as seen from a vertical plane including a line BB in FIG. 5 in a state in which a cartridge disk is further inserted than FIG. 21;
23 is a side view as seen from a vertical plane including a line BB in FIG. 5 in a state where the cartridge disk is in contact with the lock arm assembly for discharging the cartridge disk.
24 is a side view seen from a vertical plane including the line BB in FIG. 5 in a state where the cartridge disk is ejected from the insertion port for discharging the cartridge disk.
25 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state where the cartridge disk is inserted. FIG.
26 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state where the cartridge disk is held by the guide assembly. FIG.
FIG. 27 is a plan view of the main part along the horizontal plane including the line AA in FIG. 2 in a state where the cartridge disk is positioned on the turntable.
[Explanation of main part codes]
1 Player housing
2 Front panel
3 Cartridge disc
4 slots
5 lid
6 12cm diameter bare disc
7 8cm diameter bare disc
8 Slit
20 Fixed chassis
35 Guide ring
40 Arm plate
41 Lock plate
43 Hold arm assembly
44 Disc guide frame
50 Centering plate
70 Rack member

Claims (5)

And both can be inserted the insertion opening of the cartridge disk housing the circular plate-shaped bare disc and the recording disk, occluded A disk player comprising a rotatable lid portion to the disk insertion direction the insertion opening,
A locking means for locking the rotation of the lid in the disc insertion direction;
A disc player characterized in that the lid portion is provided with a second insertion slot through which only the bare disc can be inserted, and a lock release means that is pressed in the disc insertion direction to release the lock . 2. The disc player according to claim 1, wherein the unlocking means is a projection that protrudes from the lid portion in a direction opposite to the disc insertion direction and is movable in the disc insertion direction. The locking means according to claim 1 or 2 disc player according to, characterized in that are provided at both ends of the lid. 4. The disc player according to claim 1, wherein the lid portion includes a guide member that guides the bare disc inserted from the second insertion port . 5. The disc player according to claim 4, wherein the guide member is retracted from an insertion path of the cartridge disc by inserting the cartridge disc into the insertion slot.

Images