JPH0348769Y2 - - Google Patents

Description

[Detailed explanation of the idea]

TECHNICAL FIELD The present invention relates to a disc holder that replaceably holds one disc and is incorporated into the main body of a multi-disc player. BACKGROUND ART A joke box is generally known as a disk player that can store a plurality of disks and can sequentially select any of the stored disks for continuous performance. However, conventional juice boxes were very large, making them unsuitable for home use. In recent years, digital audio discs (hereinafter referred to as
(abbreviated as DAD), by recording digital signals, it is possible to increase the amount of information that can be stored compared to conventional audio disks that input analog signals, and generate less noise during playback. Several types of disks have been developed and are widely used.
Among these, disks with an outer diameter of approximately 12 cm, which are generally called compact disks and which record and read signals using laser light, are easy to handle and allow the overall size of the disk player to be made smaller. be. Recently, a multi-disc player has been developed that can store a plurality of small DADs (for example, 5 to 6 discs) at any time and is suitable as a home-use joke box for playing these discs continuously. By the way, the playing time of a small DAD is 1 hour, which is about 1.5 hours longer than a conventional analog audio disk.
It can store twice the amount of information. Therefore,
For example, 6 discs can store approximately 120 songs with a playing time of around 3 minutes.
It is also easy to cover your favorite genres, such as Jiyaz or Enka. A multi-disc player basically has a performance means including a turntable, a pickup, etc.
It includes a disk body that holds a disk and is inserted into a mounting portion in the player housing, and a disk ejecting and transporting mechanism that transports the disk in the disk holder to a performance position, that is, onto a turntable. In multi-disc players that have already been developed, if you want to listen to songs from a certain genre, such as Jiyaz, you can pull out the disc holder that contains the discs containing songs from other genres from the player housing and play songs from the desired genre. Replace the stored disc with the stored disc holder, or replace one of the discs in a disc holder for another genre pulled out of the player housing with the disc you want to play, and then reinstall the disc holder into the player housing. things were being done. Furthermore, if there are a plurality of desired disks, the above-described replacement operation must be performed for each disk. Therefore, the operability of changing the disc is poor, and the listener feels bothered. Summary of the invention The present invention has been made in view of the above points, and its purpose is to provide a disc holder that can improve the operability of disc loading and disc replacement in a multi-disc player. In the disc holder according to the present invention, when the disc is held and inserted into the mounting part of the disc player, the disc holder is fixed to the mounting part by the fixing means, and when the disc holder is operated by the disc player, the disc is inserted into the mounting part of the disc player. The disc holder is provided inside the disc holder for disc performance, and includes a base body directly mounted in the mounting part, and a protruding position and a storage position relative to the base body along the mounting direction of the base body to the mounting part. a tray supporting member movable between the tray supporting member; a moving force applying means for applying a moving force to the tray supporting member in the protruding direction; and a unit movably provided on the tray supporting member and capable of supporting a disk. a tray, and a locking means for fixing the tray supporting member to the base body, the tray supporting member being fixed to the mounting part by the fixing means when the tray supporting member is in the storage position, and the locking means includes a lever member for releasing the locked state, and when the device is attached to the mounting portion, the lever member engages with a predetermined engagement portion provided in the mounting portion, and the locking state by the locking means is released. The lever member is disposed inward from the surface of the base body, and
It is characterized in that a manual release means is provided for releasing the locked state by the locking means. Embodiments Hereinafter, a single adapter serving as a disk holder and a multi-disc player incorporating the disk holder as an embodiment of the present invention will be described with reference to the accompanying drawings. The single adapter according to the present invention is shown in FIGS. 24 to 30 and 33 to 35. In the figure, reference numeral 1 indicates the entire multi-disc player to which a single adapter to be described later, which is an embodiment of the present invention, is attached. First, the configuration of this multi-disc player will be explained. As shown in FIG. 1, the front panel 3 of the player housing 2 is provided with a rectangular opening 3a for mounting a magazine 5 capable of accommodating six discs in the player housing. The opening 3a extends in the left-right direction. However, the left-right direction referred to herein refers to the front direction indicated by arrow Y, and the direction of arrow X is to the left. Further, arrow Z indicates upward. Also on the front panel 3 are a group of operation buttons 6 and a display section 7 for operating the multi-disc player.
is provided. As shown in FIGS. 2a to 2c, the magazine 5 includes a magazine body 8 as a generally flat rectangular parallelepiped housing, and a disk 1 on each main surface.
It has a total of six rectangular plate-shaped trays A11 and tray B12, two types of three trays each carrying 0. Tray A11 and tray B12, and thus each disk 10, are arranged in order at a predetermined pitch in a direction perpendicular to a disk supporting surface of a turntable, which will be described later, in this case, in an up-down direction (arrow Z direction and the opposite direction). It is stored. Tray A
11 and tray B12 are provided rotatably around a rotation support shaft 8a provided at the right rear end of the magazine main body 8 and extending in the arrangement direction (vertical direction) of the respective trays. It can be protruded and stored along each main surface. The configuration of the magazine 5 will be explained in more detail. The magazine body 8 is provided with seven partition walls 8b that are lined up in the vertical direction (arrow Z direction and the opposite direction), and the tray A11 and the tray B12 are arranged between the partition walls. As is clear from FIG. 3a, small circular openings 8c are concentrically formed in each partition wall 8b in the vicinity of the rotation support shaft 8a. 4a, b and 5a, b show the details of tray A11 and tray B12, and as shown in these figures, the openings 8c formed in each partition wall 8b and Openings 11a, 11a are also formed in each of the trays so that they can face each other. Here, the opening 8c formed in the partition wall 8b is referred to as a first opening, whereas the openings 11a and 12a provided in tray A11 and tray B12 are referred to as second opening.
Inside each of the openings 8c, 11a, and 12a are five spherical movable pieces 13a that can move along the direction in which the partition walls 8b are arranged (in the direction of arrow Z and in the opposite direction).
is inserted. The diameter of each spherical movable piece 13a is equal to the arrangement pitch dimension of each tray 11, 12 arranged alternately. Each of the spherical movable pieces is connected to a pair of leaf springs 1 disposed at the upper and lower ends of the magazine body 8.
3b in a direction toward each other. As shown in FIG. 2b, a press lever 14 is provided at the front left end of the magazine body 8 and extends substantially in the front-rear direction (in the direction of arrow Y and the opposite direction), and one end thereof In this case, the front end portion is swingably attached to the magazine body 8 via a pin 14a. However, the pin 14a extends in the vertical direction (arrow Z direction and the opposite direction). The other end, ie, the rear end, of the pressing lever 14 can smoothly engage the free end of each tray 11 and 12. A spring member 14 is attached to the pressing lever 14.
b is engaged. This spring member 14b urges the pressing lever 14 in the counterclockwise direction in FIG. 2b, thereby applying a tray pressing force to the pressing lever. The pressing lever 14 is formed with a protrusion 14c that can come into contact with the edge 3b of the opening 3a of the player housing 2 when the magazine 5 is removed from the magazine mounting portion in the player housing 2. This protrusion 14c comes into contact with the edge 3b of the opening 3a, so that each tray 11 and 1
The main body of the pressing lever 14 is swung so as to bias the magazine 2 toward the storage position within the magazine main body 8. The above-mentioned pressing lever 14 and spring member 14b push each tray 11 and 12 into the magazine main body 8.
A pressing means for pressing toward the storage position inside and the rotation support shaft 8a is configured. Further, the pressing means, the openings 8c (first openings) formed in each partition wall of the magazine main body 8, and the respective trays 11 and 12
openings 11a and 12a (second openings) formed respectively in , each spherical movable piece 13a, and a leaf spring 13b.
A holding mechanism for holding each of the trays 11 and 12 at a storage position within the magazine body 8 is configured. As is clear from FIGS. 4 a, b and 5 a, b, the tray A11 and the tray B12 have almost the same shape, and there is a claw portion on which the listener puts his or her fingertip when pulling out each tray from the magazine body 8. 11b, 12
The only difference is the shape of b and its position. The free ends of each tray 11 and 12 have notches 11c and 12c in which the above-described pressing lever 14 engages, and a pair of jig insertion holes 11d, 11e, 12d, and 12e.
is formed. Furthermore, flexible members 11f and 12f made of synthetic leather or the like are provided at predetermined positions on the main surfaces of adjacent trays that can face the disk supporting surfaces of each tray 11 and 12 so as to protrude beyond the main surfaces. Also,
Each of the trays 11 and 12 is provided with arcuate recesses 11h, 11i, 12h, and 12i along the movement locus of the flexible members 11f and 12f provided in the adjacent trays. These recesses 11h, 11i, 12h
By providing the trays 11 and 12i, the size of the total of six trays 11 and 12 stacked on top of each other in the stacking direction can be kept small. That is, magazine 5
The overall design is designed to be thinner. As shown in FIG. 2b, an engaging pawl 5a is provided approximately at the center of the right side of the magazine 5, and the engaging pawl 5a is attached to the magazine body 8 by a pin 5b so that it can swing freely within a predetermined range at one end. is attached to. In addition, another engaging pawl 5 is provided at the front end of the right side of the magazine 5.
c is provided at one end so as to be swingable within a predetermined range via a pin 5d. This engaging claw 5c has its free end urged outward by a coil spring 5e. Each of these engaging claws 5a and 5c
can engage with its free end an edge 3d of the opening 3a (see FIGS. 1 and 2b). The player housing 2
A mounting prevention means is configured to prevent the magazine 5 from being mounted when the mounting position of the magazine 5 with respect to the mounting portion inside the magazine 5 is incorrect. That is, when trying to attach the magazine 5 to the mounting part in an upside-down state, the engaging claw 5a swings due to its own weight and protrudes outward from the magazine 5, and the free end of the engaging claw opens. Part 3a
It engages with the edge 3b (described above) and prevents the magazine 5 from being mounted. In addition, when trying to attach the magazine 5 to the above mounting part with the front and back reversed,
The engaging pawl 5c projected outward by the coil spring 5e engages with the edge 3b of the opening 3a, thereby preventing the magazine 5 from being installed. Furthermore, by constructing the mounting prevention means using extremely simple members such as the engaging claws 5a, 5c and the coil spring 5e, the construction is simple and costs can be easily reduced. As shown in FIGS. 2b and 3b, a circular opening 14e is formed in the protrusion 14c of the pressing lever 14, which is swingably provided in the magazine 5. On the other hand, as shown in FIG. 3b, the magazine body 8, which is the housing of the magazine 5, is provided with a projecting portion 8d extending along the lower surface of the pressing lever 14, and a columnar projection 8d is provided on the projecting portion. 8e is formed. A circular recess 8f is formed at the upper end of the protrusion 8d, and a spherical movable piece 8g is mounted in the recess in the vertical direction (the direction of arrow Z and the opposite direction).
It is movably inserted in the The opening 14e formed in the protrusion 14c of the pressing lever 14 can face the recess 8f when the pressing lever is in the position shown by the solid line in FIG. 2b, and the spherical movable piece 8g
A portion thereof can fit into this opening 14e. The above-mentioned pressing lever 14 and movable piece 8g constitute a protrusion regulating means for regulating the protrusion of each tray 11 and 12 from the magazine body 8 when the magazine 5, which is a disk holder, is in an upside-down position. ing. That is, when the magazine 5 is in an upside-down state, the spherical movable piece 8g moves due to its own weight and a part of the movable piece fits into the opening 14e of the press lever.
4 is regulated, so that each tray 11, 12
The protrusion of the magazine body 8 to the outside of the magazine body 8 is restricted. Note that by configuring the protrusion regulating means with members having simple shapes such as the pressing lever 14 and the movable piece 8g, the structure is simple and costs can be easily reduced. Moreover, regarding the 8 g of spherical movable pieces, commercially available ones can be used without specially manufacturing them. As shown in FIG. 1, a chassis 16 as a support member is attached to a bottom plate 15 fixedly provided within the housing 2. As shown in FIG. The chassis 16 includes a flat part 16a extending in the front-rear direction (arrow Y direction and the opposite direction) and the left-right direction (arrow A pair of vertical surfaces 16b and 1 extending in the direction (arrow Z direction and the opposite direction, that is, the arrangement direction of the trays)
It consists of 6c. As shown in FIGS. 6 to 10, a pair of vertical surfaces 16b and 16 of the chassis 16 described above
A movable member 18 is disposed between the rear ends of the trays 18 and 18, and is attached to each vertical surface so as to be movable in the vertical direction, that is, in the arrangement direction of the trays 11 and 12. In detail, this moving member 18 is
A movable chassis A19 made of resin shown in FIGS. 11a and 11b and a flat movable chassis B20 made of a steel plate shown in FIG. 12 are connected by screws or the like. However, movable chassis A19
is fixed to the upper surface of the movable chassis B20. Here, as is particularly clear from Figure 11b,
A support plate 22 is attached to the upper surface of the movable chassis A19 made of resin via a vibration isolating member 21 made of rubber or the like, and a turntable 23 is attached to the support plate. A carriage 24 carrying an optical pickup means is also arranged on the carrier plate 22, and the carriage 24 is arranged along a plane including the disk carrying surface 23a of the turntable 23, in this case in the left-right direction (in the direction of the arrow X and It is attached to the carrier plate 22 so as to be movable in the opposite direction). Further, a screw shaft 26 is screwed into a part of the carriage 24, and a motor 2 is provided for applying rotational force to the screw shaft.
A carriage drive means for driving the carriage 24 is provided. The above turntable 23, the carriage 24 including an optical pickup means, and the carriage driving means constitute a playing means for performing a disc performance. That is, the playing means is supported on the moving member 18 and moves in the up and down direction (in the direction of arrow Z and the opposite direction) together with the moving member. As shown in FIGS. 11a and 11b, an arcuate guide surface 19a is formed on the lower surface of the movable chassis A19, on which the rotating ends of the trays 11 and 12 protruding from the magazine body 8 can slide. Also, the first
As shown in FIG. 2, the arcuate guide surface 19a faces the upper surface of the movable chassis B20 with a distance slightly larger than the thickness of each tray 11 and 12, and the rotating end of each tray slides into contact with the upper surface of the movable chassis B20. An arcuate guide protrusion 20a is formed. These arcuate guide surfaces 19a and arcuate guide protrusions 20a constitute a tray guide section that guides one tray protruding from the magazine body 8. As shown in Figures 6, 9 and 10,
Between the front ends of the pair of vertical surfaces 16b and 16c of the chassis 16 is a plate-shaped guiding and holding member 29 that slides on the lower surface of the magazine 5 to guide and hold the magazine.
The guiding and holding member is fixed to the flat surface 16a of the chassis 16 with screws or the like. FIG. 13 shows details of the guide holding member 29. A tray guide member 30 is provided on the upper surface of the left end portion of the guide holding member 29 . The tray guide member 30 includes a plurality of arcuate tray guides located between the above-described tray guide portion (consisting of the arcuate guide surface 19a and the arcuate guide protrusion 20a) and the tray guide path of the magazine body 8 and continuous therewith. Groove 30
a is formed. That is, the magazine body 8
The trays 11 and 12 protruding from the tray engage with the tray guide groove 30a, slide along it, and are then guided into the tray guide portion (described above) of the moving member 18. The tray guide paths of the magazine main body 8 are 8i and 8j in FIG. 2b, and although not shown, a plurality of guide grooves are formed therein, similar to the above-mentioned guide groove 30a. As shown in FIGS. 6, 10, and 14, a support body 32 made of resin is arranged near the magazine mounting section in the player housing 2, in this case, on the right side of the magazine mounting section. and is fixed to the lower surface of the flat portion 16a of the chassis 16 with screws or the like. Details of this support 32 are shown in FIGS. 15a to 15c. As shown in FIG. 14, a moving lever 33 made of a rope plate is attached to the upper surface of the support 32 so as to be movable along the magazine mounting direction, that is, the front-rear direction (arrow Y direction and the opposite direction). There is. Details of the moving lever 33 are shown in FIGS. 16a and 16b. As is clear from FIGS. 15a to 15c and FIGS. 16a and 16b, the movable lever 33 has a pair of linear openings 33a formed in the movable lever extending in the front-rear direction. Letter-shaped protrusion 32a
The support is attached to the support by a slidable fit. As shown in Figure 17,
A projection 32b is provided on the upper surface of the support body 32 for smoothly abutting against the lower surface of the moving lever 33 to support the moving lever.
is installed protrudingly. 1 extending downward at the left rear end of the moving lever 33
Two overhanging portions 33b are formed, and the support body 32
The projecting portion is slidably engaged in a linear groove 32c extending in the front-rear direction and formed on the upper surface of the left rear end portion of the vehicle. However, there is a protrusion 3 on the left side of the overhang 33b.
3c is formed, and the protrusion forms a linear groove 32c.
It is in smooth contact with the left wall inside. Furthermore, two projecting parts 33d and 33e are formed at the right front end of the moving lever 33, extending downward and spaced apart in the front-rear direction (arrow Y direction and the opposite direction). The projecting portions 33d and 33e are slidably engaged with two linear openings 32d and 32e extending in the front-rear direction. A projection 33f is formed on the right side surface of the projecting portion 33d, and smoothly contacts the right wall surface within the linear opening 32d. As is clear from FIGS. 16a and 16b, the rear end of the moving lever 33 has a magazine 5 extending downwardly.
A projecting portion 33g is provided to which the rear end portion can engage. That is, when the rear end of the magazine 5 engages with the projecting portion 33g, the moving lever 33 is moved rearward. Further, a coil spring 33h is connected to the movable plate 33, which applies a bias force toward the front (in the direction of the arrow Y) to the movable plate. As shown in FIGS. 14 and 16a and b, below the movable lever 33, projecting portions 33d and 33e of the movable lever that move back and forth engage with actuators 34a and 35a thereof. A pair of detection switches 34 and 35 are provided to operate each actuator.
is located. The above-described moving lever 33 and the detection switch 34
and 35 constitute a magazine attachment detection means for detecting that the magazine 5 is attached to the magazine attachment portion in the player housing 2. As shown in FIG. 17, burrs 33i generated when forming the linear openings by punching remain on the edges of the pair of linear openings 33a formed in the moving lever 33. However, since the moving lever 33 is attached to the support body 32 as described above, the burr does not come into contact with the support body 32. Next, the moving member 18 consisting of the movable chassis A19 and the movable chassis B20 is moved in the vertical direction (arrow Z
The moving member moving means for moving the moving member in the opposite direction will be explained. As shown in FIGS. 6 to 10, longitudinal moving plates 37 and 38, which are a pair of moving members extending in the front-rear direction, are provided on the outer surfaces of the left and right vertical surfaces 16b and 16c of the chassis 16. .
As is particularly clear from FIGS. 7 and 8, each moving plate 37, 38 has guide grooves 37a, 37b and 38 extending in the direction of extension of each moving plate.
a, 38b are formed, and each moving plate 3
7 and 38 are attached to the chassis 16, which is a supporting member, by movably fitting the respective guide grooves onto pins 16d protruding from the outer surfaces of the vertical surfaces 16b and 16c. That is, the movable plates 37 and 38 are reciprocated in the front and rear directions. Here, the moving member 18 consisting of the movable chassis A19 and the movable chassis B20 will be referred to as a first moving member, and the moving plates 37 and 38 will be referred to as a second moving member. As is clear from FIGS. 7 and 8, the movable plate 3 serving as the second movable member
Guide grooves 37a, 37b, 3 formed in 7, 38
Some of the guide grooves 37b, 38b among 8a, 38b
is provided offset to one side in the moving direction of each moving plate, in this case, to the lower side. The other guide grooves 37a, 38a are not provided so offset. A movable chassis b20, which is a constituent member of the moving member 18, which is the first moving member, is provided with three pins 20c, one on the left side and two on the right side. As is clear from FIG. 7 and FIG.
The movable chassis B20 is movably fitted into guide grooves 16e formed in vertically extending portions 6b and 16c, thereby guiding the movable chassis B20 in the vertical direction. Note that the guide groove 16e formed in the chassis 16
The guide grooves 37b and 38b formed in the moving plates 37 and 38, which are the second moving members, are called second guide grooves. Pins 20c protruding from both left and right sides of the movable chassis B20 protrude to the outside of the chassis 16 through a guide groove 16e, and cam grooves 37d formed on the inner surfaces of movable plates 37, 38, which are second movable members. , 38d are movably engaged with this pin 20c. The cam groove 37d formed in the movable plate 37 as a whole is formed so as to be inclined downward (counter to the direction of arrow Z) toward the front (direction of arrow Y). Further, the cam groove 38d formed in the movable plate 38 is formed so as to be inclined upwardly toward the front as a whole. That is, the moving plates 37 and 38 which are the second moving members
When the moving members 18 (movable chassis A19 and movable chassis B2), which are the first moving members, move relative to each other,
Each cam groove 3
7d and 38d are formed. The cam grooves 37d and 38d are connected to the moving plate 37,
They are formed between guide grooves 37b and 38b formed on one side (lower side) of the movable plates 38 in the moving direction and the other side (upper side) of each moving plate.
Further, each cam groove 37d, 38d has six linear portions 37e, 38e extending in the moving direction (front-back direction) of the moving plates 37, 38, and is continuous with and relative to each linear portion. Slanted diagonal portion 37
f, 38f, and the whole has a step-like cam groove. Further, as shown in FIGS. 7 and 8, the ends of the cam grooves 37d and 38d and the guide groove (second guide groove) 16e formed in the chassis 16
The ends of are matched. As is clear from the above configuration, the moving member 18
(The movable chassis B20, which is a constituent member of the movable chassis B20) is supported at three points on the chassis 16, which is a supporting member, via a pin 20c and moving plates 37 and 38, and as is clear from FIG. One of the points (that is, the position of the pin 20c) is determined by the tray guide groove 30a of the tray guide member 30 and the tray guide portion of the moving member 18 (the arcuate guide surface 19 of the movable chassis A19 and the arcuate guide protrusion 20a of the movable chassis B20). (configured) near the connection part. By arranging one of the support points of the movable member 18 at this position, the tray guide section provided on the movable movable member 18 can be positioned with high precision with respect to the tray guide groove 30a, and therefore, The disk is transported smoothly and with high precision. As shown in FIGS. 6 and 9, a rack portion 37h is formed at the right front end of the left movable plate 37 along the direction in which the movable plate extends. A small gear portion 40a of a double gear 40 provided on the flat surface portion 16a of the chassis 16 meshes with the rack portion 37h. The large gear portion 40b of the double gear 40 is connected to the output shaft of the motor 45 by a gear 41, a pulley 42 integrally formed with the gear 41, a belt 43, and a small pulley 44. In addition, the left and right moving plates 37 and 3
Between 8 and 8 is a rotary lever rotatably attached to the flat part 16a of the chassis 16 at approximately the center thereof via a rotary support shaft 47a extending in the vertical direction (arrow Z direction and the opposite direction thereof). 47, and both ends of the rotating lever 47 are pivotally attached to left and right moving plates 37, 38. The second moving member is constructed by the above-mentioned double gear 40, gear 41, pulley 42, belt 43, small pulley 44, motor 45, rotary lever 47, and peripheral small members related thereto. A driving force applying means for applying driving force to the barrel moving plates 37 and 38 is configured. Further, the movable member 18 consisting of the movable chassis A19 and the movable chassis B20 is moved in the vertical direction (arrow Z
and the opposite direction). As shown in FIG. 7, a detection switch 4 is provided on the inner surface of the left side vertical surface portion 16b of the chassis 16.
9 is provided. This detection switch 49 is
This is for detecting that the movable plate 37, which is a second movable member that reciprocates in the front-back direction, is at the most backward movement position (forward movement limit position), and is an engagement protruding from the left side of the movable plate 37. It operates when the protrusion 37i engages with its actuator. On the right side of the front end of the moving plate 37, six slits 50a are arranged along the moving direction of the moving plate.
An address plate 50 having an address plate 50 is provided. Further, behind the detection switch 49, a photo sensor 51 is provided corresponding to the slit 50 of the address plate for detecting the slit. Note that the detection switch 49 will be referred to as a first sensor, and the photo sensor 51 will be referred to as a second sensor. The slit detection signal obtained from the second sensor is sent to a counter (not shown) that counts the slit detection signal. Further, a control unit (not shown) that automatically controls the multi-disc player is disposed at a predetermined position in the plate housing 2, and the control unit determines the stop position of the movable plate 37 based on the count value of the counter. Know. The detection switch 49, which is the first sensor described above,
The address plate 50, the photo sensor 51 as the second sensor, the counter, and the control section constitute a positioning mechanism that moves the movable plate 37 to a desired address position and positions it at that position. The positioning mechanism moves the moving plate 37 by a distance corresponding to the difference between the current address and the desired address when a movement command is received while the second sensor, the photo sensor 51, is emitting a slit detection signal. If a movement command is received when no detection signal is being generated, the moving plate 37 is moved (backwards) until a detection signal is obtained from the detection switch 49, which is the first sensor, and then moved to the desired address position. There is. As shown in FIGS. 6 and 10, each tray 11, 1 in the magazine 5 is provided at the front right end of the upper surface of the movable chassis B20, which is a component of the moving member 18.
A tray protruding member 53 is provided for engaging one of the two trays and protruding each tray to the outside of the magazine body 8. FIG. 18 shows details of the tray protruding member 53. As is clear from FIG. 18, the tray protrusion member 53 is formed in a generally L-shape as a whole, and the two arcuate guide grooves 20 with different radii are formed on the movable chassis B20.
e and 20f (for example, see FIG. 12), a pair of pins 53a protruding from the tray protruding member are movably engaged and guided. That is,
The tray protruding member 53 is connected to each arcuate guide groove 20e, 20.
It rotates about the center of curvature f as the rotation axis, and pushes the trays 11 and 12 with the rotating end 53b to make them protrude from the magazine body 8. In addition, the second
As is clear from FIG. 6 and FIG.
The positions of a are made to match. In addition, each tray 11 and 12 has an area 11 near its rotation support shaft 8a.
k and 12k (see FIG. 2b, FIG. 4a, and FIG. 5a) are pushed by the tray protrusion member 53 to protrude outside the magazine body 8. The tray protruding member 53 is made of relatively soft resin, and the rotating end 53b of the tray protruding member is flexible in the vertical direction, that is, in the arrangement direction of each tray 11, 12, and has a small amount of play in the vertical direction. is held. Therefore, when a portion of the rotating end 53b of the tray protruding member 53 fits into the tray guide path (described above) of the magazine body 8, the rotating end moves along the tray guide path due to its flexibility. I'm starting to do that. In addition, the tray protruding member 53
When the rotating end portion 53b is not in operation, it engages with the Y-shaped groove 20g (shown in FIG. 10) of the movable chassis B20, and its movement in the Z direction (upward) is restricted. Note that since the tray protrusion member 53 is provided on the movable chassis B21, which is a component of the moving member 18, the above-mentioned moving member moving means (consisting of the moving plates 37, 38, etc.) and the address plate 50, etc. The tray (11) carrying the disc 10 to be played is
or 12) in a position where it engages with the tray protruding member 5.
A tray protruding member moving means for moving the tray protruding member 3 together with the moving member 18 is configured. Next, a tray protrusion member 53 is used to make each of the trays 11 and 12 protrude from the magazine body 8.
The tray protruding member driving means for rotationally driving the tray protruding member will be explained. As shown in FIGS. 6, 9, and 10, a moving body 56 extending in the front-rear direction is disposed on the right side of the chassis 16, and the chassis 16 is movable in the extending direction. is attached to. Details of the mobile body 56 are shown in FIGS. 19a and 19b. A rack member 56a is formed at the front left end of the movable body 56 along the direction of extension of the movable body. A small gear portion 57a of a double gear 57 provided on the flat member 16a of the chassis 16 meshes with the rack portion 56a. The large gear portion 57b of the double gear 57 is connected to the output shaft of a motor 62, which is a torque generating means, via a gear 58, a pulley 59 formed integrally with the gear 58, a belt 60, and a small pulley 61. has been done.
These double gears 57, gears 58, and pulleys 5
9, belt 60, small pulley 61, and motor 6
2 and peripheral small members related to these,
A driving force applying means for applying a drive to the moving body 56 is configured. As shown in FIGS. 10 and 13, near the deepest part of the magazine mounting part in the player housing 2, there is a hole for allowing the magazine 5 mounted in the magazine mounting part to protrude outside the magazine mounting part. The swing lever 64 is arranged to extend substantially in the left-right direction, and is swingably attached to the lower surface of the guide holding member 29 via a pin 64a at its substantially central member. However, the pin 64a extends in the vertical direction (arrow Z direction and the opposite direction).
As is clear from FIG. 13, the right end of the swing lever 64 is provided with a projecting portion 64b extending upward, and the swing lever 64 is attached to the rear end of the magazine 5 at the projecting portion. come into contact with Further, a gear portion 64c having the pin 64a as the center of curvature is formed at the left end portion of the swing lever 64, and a braking gear 65a of the damper 65 meshes with this gear portion 64c. The damper 65 applies braking force using the viscous resistance of a viscous agent such as grease held therein. Note that the swing lever 64 is given magazine protruding force by a coil spring 64d. The above-mentioned swing lever 64, damper 65, and coil spring 64d constitute a protruding means for protruding the magazine 5 from the magazine mounting portion in the player housing 2 to the outside. In addition, as is clear from FIG. 13, the swing lever 6
θ is the angle between a straight line 66a connecting the pivot center (pin 64a) of the pivot lever 4 and the engagement point (projection 64b) of the pivot lever with the magazine 5, and a straight line 66b passing through the center of the coil spring 64d. Then, the coil spring 64d is stretched so that θ is always an acute angle regardless of the swing angle position of the swing lever 64. With this configuration, the magazine protrusion force that the coil spring 64d applies to the swing lever 64 is always approximately constant regardless of the swing angle position of the swing lever 64. As shown in FIG. 19a, near the movable body 56, one end 67a of the rotating body engages with the locking recess 5g of the magazine 5 (see FIGS. 2b and 2c), thereby locking the magazine. A locking member 67 for locking the player housing 2 in the installed position is rotatably provided around a pin 67b.
The position of the locking member 67 shown in FIG.
The position where the rotating end 67a is released from the locking recess 5g of the magazine 5 by rotating by a predetermined angle in the counterclockwise direction in FIG. . The locking member 67 is biased by a spring member (not shown) so that the rotating end 67a fits into the locking recess 5g of the magazine 5. 19th
As shown in FIG. b, a pin 56b is protruded from a predetermined position on the upper surface of the moving body 56, and a tapered portion 67d is formed at the other rotating end of the locking member 67.
can be engaged with this pin. That is,
The locked state of the magazine 5 by the lock mechanism consisting of the lock member 67 and the spring member (not shown) is released by the forward movement of the movable body 56. The locking mechanism is also used as a fixing means for fixing a single adapter, ie, a disk holder according to the present invention, which will be described later, to a magazine mounting portion in which the magazine 5 is mounted. A bending portion 67e extending substantially to the left is provided at the other end of the locking member 67, and when the locking member is in the second position and its vicinity, the bending member 67e moves toward the movable body 56. The rearward movement of the movable member is restricted by engaging with the pin 56b. As shown in FIGS. 6, 9, and 10, there is a pin 70a on the lower surface of the moving member 18 (the movable chassis B20, which is a component thereof) that moves in the vertical direction (arrow Z direction and the opposite direction). An intermediate lever 70 is rotatably attached via the .
At one end of the rotation of the intermediate lever 70, there is a U-shaped notch 70 that can smoothly engage with a cylindrical engagement part 56d formed at the rear end of the movable body 56 and extending in the vertical direction.
b is formed. As shown in FIGS. 20 and 21, a first lever member 71 extending in the left-right direction is provided at the front end of the lower surface of the movable chassis B20.
and a second lever member 72 are arranged, and the movable chassis B20 is connected to the movable chassis B20 via a plurality of pins 73.
is attached to the shaft so as to be able to reciprocate in each direction of extension. Details of the first lever member 71 and the second lever member 72 are shown in FIGS. 22a and 22b. For example, as shown in FIG. 10, a pin 70c is protruded from the other rotating end of the intermediate lever 70, and the pin is formed at the right end of the second lever member 72 and extends in the front-rear direction. It is slidably fitted into the elongated hole 72a. That is, when the movable body 56 reciprocates back and forth (in the direction of arrow Y and the opposite direction), the intermediate lever 70 rotates about the pin 70a, thereby causing the second lever member 72 to move left and right (in the direction of arrow X and the opposite direction). It is designed to reciprocate in the opposite direction. The above-mentioned moving body 56,
A driving force applying means (described above) that applies driving force to the movable body 56 including the motor 62 and the like, and an intermediate lever 70
A drive mechanism for driving the second lever member 72 is constituted by these and related small peripheral members. The first lever member 71 engages with the tray protruding member 53 at its right end, and its reciprocation (movement to the right) serves to rotate the tray protruding member. In addition, the second lever member 72
is for moving a support body (described later) which is a component of a clamp mechanism to be described later. As shown in FIGS. 10, 20, and 21, the first lever member 71 has a mechanism for biasing the first lever member in its forward movement direction, that is, to the right (counter to the direction of arrow X). One end of a coil spring 75 serving as a biasing means is connected. The coil spring 75 is interposed between the first and second lever members 71 and 72, and the other end of the coil spring is connected to the second lever member 72. As shown in FIG. 20, movable chassis B2
A first recess 20h extending in the left-right direction (the direction of arrow is formed. The first lever member 7 is located so as to be sandwiched between the movable chassis B20 and the second lever part 72.
1 is provided with an opening 71a that can face the first and second recesses 20h and 72c. Inside the opening 71a, there are a first recess 20h and a second recess 7.
A spherical movable piece 76 that can be engaged with 2c is arranged. Here, the dimension indicated by db in FIG. 20, ie, the distance between opposing surfaces within the relative movement range of the movable chassis B20 and the second lever member 72, is smaller than the outer diameter dimension of the movable piece 76.
Also, the dimensions indicated by da in FIG.
h and the bottom surface of the second recess 72c that faces the one surface is slightly larger than the outer diameter of the movable piece 76. The first and second recesses 20h and 72c described above,
The opening 71a, the movable piece 76, etc.
Then, the second lever members 71 and 72 are locked, and in this locked state, the first and second lever members move forward (rightward = counter-arrow X direction) to move the first lever member 7
1 reaches the vicinity of the most forward position (that is, the position where the tray protruding member 53 rotated by the first lever member completely protrudes the trays 11 and 12 from the magazine body 8), the locked state is released. A lock/release means is configured. It should be noted that the slight movement of the first lever member 71 to the forwardmost position after the locking state with the second lever member 72 is released is performed by the biasing force of the coil spring 75 mentioned above. During the slight movement of the first lever member, the arcuate portions 11 of the trays 11 and 12
m, 12 m (see Fig. 4 a, Fig. 5 a, etc.) is an arc-shaped predetermined contact portion 19 formed on the movable chassis A19.
c (see FIGS. 6 and 10), and the disk 10 supported on the tray is brought into contact with the disk supporting surface 23a of the turntable 23 (see FIG. 11b).
ie, positioned directly below the disk carrying surface. The locking/releasing means described above (consisting of the movable piece 76 etc.) and the first and second lever members 71 and 72
A second lever member 7 includes a coil spring 75 as a biasing means, a moving body 56, a motor 62, etc.
The drive structure for driving the trays 2 (described above) constitutes a tray protrusion member driving means that rotationally drives the tray protrusion member 53 (shown in FIG. 18) to cause the trays 11 and 12 to protrude from the magazine body 8. Further, the tray protruding member driving means, a chassis 16 as a supporting member, and a moving member 18 as a first moving member (a movable chassis A19 and a movable chassis B2
0), a tray protrusion member 53, and a tray protrusion member moving means consisting of moving plates 37, 38, etc., to cause the tray 11 or 12 carrying the disc 10 to be played to protrude from the magazine body 8. A protruding means is configured. As shown in FIG. 10, the left side of the lower surface of the movable member 18 (the movable chassis B20, which is a constituent member of the movable member 18) is
A plate-shaped support body 79 is provided that extends to
Further, it is swingably attached to the movable chassis B20 at its left end via a pin 79a.
The pin 79a extends in the front-rear direction (arrow Y direction and the opposite direction), and therefore, the swing direction of the support body 79 is aligned with the disk supporting surface 23 of the turntable 23.
a (see FIG. 11b) in a plane perpendicular to point a (see FIG. 11b). At the free end of the support 79 is a disk 10.
A disc-shaped pressing member 80 is rotatably attached to the surface opposite to the turntable 23 and cooperates with the turntable to perform a disk clamping action. Although not shown, a coil spring is provided that biases the support body 79 in a direction in which the pressing member 80 approaches the disk supporting surface 23a of the turntable 23. The above-mentioned support body 79, pressing member 80, etc. constitute a clamp mechanism that clamps the disk. As shown in FIG. 10, a pin 79c extending forward is protruded from the free end of the support body 79, and the pin engages with a flat guide portion 72e at the rear edge of the upper surface of the second lever member 72. It matches. A tapered portion 72f is formed on the left end portion of the second lever member 72 on an extension of the planar guide portion 72e so as to be engageable with a pin 79c of the support body 79. As is particularly clear from FIG. 20, the tapered portion 72f is inclined toward the left (in the direction of arrow X) and upward (in the direction of arrow Z). That is, as the second lever member 72 moves forward (movement to the right = in the opposite direction of the arrow The pin 79 is held in the release position and is pushed along the tapered portion 72f.
By lowering c, the pressing member 80 is moved to the clamp position. Here, the shapes of the turntable 23 and the pressing member 80 will be described in detail. As shown in FIG. 23, an annular projection 23c is formed on the outer periphery of the disc-shaped turntable 23 and extends around the entire circumference of the turntable.
It carries 0. On the other hand, an annular projection 80a that contacts the main surface of the disk 10 is also formed on the outer periphery of a disk-shaped pressing member 80, which is a main member of the clamp mechanism and performs a disk clamping action in cooperation with the turntable 23. Annular projection 80a of pressing member 80
The diameter of the annular projection 23c of the turntable 23 is smaller than that of the annular projection 23c. As described above, the pressing member 80 is rotatably supported by the support member 79 which is movable with respect to the turntable 23 via the spherical bearing member 80b. A cylindrical guide portion 23d protrudes from the rotation center of the turntable 23 and fits into the center hole of the disk 10 to position the disk relative to the turntable. Further, a projection 80c is formed at the center of rotation of the pressing member 80 to fit into the guide portion 23d and to center the pressing member 80 with respect to the turntable 23. The above-described clamp mechanism and the second lever member 72
and the drive mechanism (described above) that drives the second lever member, the disk 10 carried on the tray 11 or 12 that is protruded outside the magazine body 8 by the tray protrusion means described above is moved onto the turntable 23. in a direction perpendicular to the disk supporting surface 23a (see FIG. 11b), in this case upward (arrow Z
A disk moving means is configured to move the disk in the direction (direction). Further, the disk moving means and the tray projecting means constitute a disk ejecting and conveying mechanism that sequentially selects any disk 10 in the magazine 5 and conveys it onto the disk supporting surface 23a of the turntable 23. . The second lever member 72 and the drive mechanism (described above) for driving the second lever member serve as both the tray projecting means and the disk moving means. As shown in FIGS. 6, 9 and 10, a movable chassis A19 constituting the moving member 18
A plate-shaped disk holding member 83 is arranged so as to be sandwiched between the movable chassis B20 and a plurality of pins 83a protruding from the disk holding member. It is attached to the movable chassis A by movably engaging with 19e. As shown in FIG. 11b, the cam groove 19e is formed to be inclined, for example, toward the left (in the direction of arrow X) and upward (in the direction of arrow Z). That is, the cam groove 19e is formed so that when the disc pressing member 83 moves left and right, the disc pressing member 83 moves up and down. As is clear from FIGS. 9 and 10, a projection 83b extending downward is formed on the lower surface of the right rear end of the disk holding member 83, and one end 70e of the rotating intermediate lever 70 (see FIG. 10) ) pushes the right edge of this protrusion 83b, thereby moving the disk holding member to the left (in the direction of arrow X). The disk holding member 83 is biased toward the right (in the direction opposite to the arrow X) by a coil spring 84 shown in FIG. 9, for example. The above-mentioned disk holding member 83 is connected to the disk-supporting surface of a disk that is moved in a direction (vertical direction) perpendicular to the disk-supporting surface 23a (see FIG. 11b) of the turntable 23 by the disk moving means described above. The lower surface of the disk 1 is brought into contact with the opposing surface of the disk 1, so that the disk 1
This is to maintain parallelism of 0. The story goes back and forth, but for example, as shown in FIGS. 6 and 8, there is a pair of front and rear detection switches 86, 87 on the inner surface (left surface) of the right elevational portion 16c, which is a part of the chassis 16. is installed. Both detection switches 86 and 87 are for detecting the moving position of the moving body 56 driven by the motor 62. As is particularly clear from FIG. 8, each detection switch 86, 87 has actuators 86a, 87a that protrude obliquely with respect to the switch body and swing.
have. A pair of rollers 88 and 89 are provided on a support 32 (see FIG. 15, etc.) fixed to the chassis 16 so as to be movable only in the vertical direction (in the direction of arrow Z and the opposite direction). , 87a.
As shown in FIGS. 19a and 19b, each roller 8
8 and 89 are engaged with a protrusion 56f having a trapezoidal cross section and formed on the lower surface of the front end of the movable body 56 and extending in the front-rear direction. That is, by moving the movable body 56 back and forth by a predetermined distance, the protrusion 56f
The rollers 88 and 89 are moved up and down as appropriate, thereby operating the detection switches 86 and 87. However, rollers 88, 8
9 is moved upward by each detection switch 86, 87.
This is achieved by a bias force applied to each actuator 86a, 87a by a bias force applying means such as a spring provided therein. In addition, each of the above-mentioned detection switches 34, 35, 4
Detection signals emitted from the photo sensors 9, 86, and 87 and the photo sensor 51 are transmitted to the aforementioned control unit (not shown), and the motors 27, 45, 6
2 and turntable 23 operate at predetermined timings to be described later. 24 to 26 show a disk holder according to the present invention, which includes a single adapter 90 that is detachable from the magazine mounting portion of the multi-disc player 1 described above and that accommodates one disk 10 in a replaceable manner. It shows. In addition, the second
FIG. 9 and FIG. 30 are conceptual diagrams showing the structure of the single adapter conceptually and in terms of wirework. This conceptual diagram of the mechanism is drawn based on the following concept abbreviation drawing method.

[Table] As shown in the figure, the single adapter 90 includes a first member 91 serving as a base that is directly mounted in the magazine mounting section, and a first member 91 that is mounted on the magazine mounting section with respect to the first member. It has a second member 92 that is slidable within a predetermined range along the direction, that is, between the protruding position and the storage position, and supports the disk. The first member 91 is a bottom plate 93 in the shape of a rectangular plate.
and a top plate 94 which is positioned to sandwich the second member 92 together with the bottom plate and has a semicircular notch 94a formed at the front end with a radius of curvature slightly larger than the radius of the disk 10. It is something. The second member 92 also includes a sliding plate 95 as a tray supporting member that is slidably attached to (the bottom plate 93 of) the first member 91, and a pin protruding from the right rear end of the sliding plate. The tray C96 is rotatable about a center 95a and carries a disk 10. A circular disk supporting surface 10a having a diameter slightly larger than the diameter of the disk 10 is formed on the tray C96, which is a component of the second member 92. As is clear from FIG. 24, the second member 92 is attached to the first
When moving relative to member 91, the arcuate portions of circular disk carrying surface 96a and semicircular notch 94a coincide. Note that the dimension indicated by dc in FIG. 24, that is, the circular disk supporting surface 9
The gap between 6a and the top plate 94 is larger than the thickness of the disk 10 and smaller than twice the thickness. This configuration prevents double insertion of disks into the single adapter 90. As shown in FIG. 27, a projecting portion 9 formed on a sliding plate 95 that is a component of the second member 92
A plurality of rope balls 95c attached to the first member 91 are in smooth contact with the upper surface of the bottom plate 93, which is a component of the first member 91. In addition, a linear guide groove 93c is formed in the center of the bottom plate 93, and a pin 95 protruding from the lower surface of the sliding plate 95 is formed.
The sliding plate is guided by sliding in the guide groove. A plate spring 93d made of a rope plate is arranged at a position sandwiching the above-mentioned overhanging portion 95b together with the rope ball 95c, and is attached to the main body of the bottom plate 93 with a screw 93e. This plate spring 93d is the bottom plate 93
form part of The bottom plate 93 is made of resin except for the leaf spring 93d, and the sliding plate 95 is made of resin.
All parts except 5c are made of resin. That is, one of the sliding contact portions of the first and second members 91 and 92 is made of resin, and the other is made of metal. As shown in FIG. 25, a rail portion 93g extending parallel to the linear guide groove 93c is formed on the bottom plate 93, and a slider 97a made of a steel plate is movably attached to this rail portion 93g. . A coil spring 97b is installed between the rear end of the slider 97a and the front end of the bottom plate 93. This coil spring 97b acts as a moving force applying means that applies a moving force to the second member 92 including the sliding plate 95 in the forward, ie, protruding direction. A damper 98 having a braking gear 98a is attached to the slider 97a with a screw, and a rack portion 95e formed on the sliding plate 95 extending in the front-rear direction is connected to the braking gear 98a.
It meshes with. The braking gear 98a also includes a rack portion 9 formed on the bottom plate 93 and extending in the front-rear direction.
It meshes with 3h. The damper 98 applies braking force by utilizing the viscous resistance of a viscous agent such as grease held therein. As shown in FIG. 25, a pressing lever 101 is provided at the front left end of the sliding plate 95 in the approximately front-back direction (arrow Y
and the opposite direction), and is swingably attached to the sliding plate 95 via a pin 95f at its front end.
However, the pin 95f extends in the vertical direction (arrow Z direction and the opposite direction). Press lever 1
The rear end of the tray C96 can be smoothly engaged with a notch 96b formed in the free end of the tray C96. A spring member 101a is engaged with the pressing lever 101 to apply a tray pressing force to the pressing lever. By these pressing lever 101 and spring member 101a,
A holding mechanism is configured to hold the tray C96 at the storage position within the sliding plate 95. As shown in FIG. 25, a locking member 103 is arranged at the right end of the bottom plate 93, and a substantially central portion of the locking member is arranged to protrude in the left-right direction (in the direction of arrow X and the opposite direction). A pair of pins 103a formed in the bottom plate 93 are swingably attached to the bottom plate by fitting smoothly into the bearing portion 93j of the bottom plate 93. One swinging end of the locking member 103, in this case the rear end 103b, is connected to the lower surface of a linear guide portion 95h extending in the front-rear direction on the lower surface of the sliding plate 95, and to the front end 95i of the locking member 103.
can be engaged with. The locking member 103 is biased by a coil spring 104 so that the rear end member 103b of the locking member approaches this linear guide portion. A locking means 105 (see FIG. 29 and (shown in Figure 30) is constructed. That is, the coil spring 104
The rear end member 103b of the lock member 103 biased by the front end 95i of the linear guide portion 95h
by engaging the second member 91 with respect to the first member 91.
The forward movement of the member 92 is restricted. A lever member 103c for releasing the locked state is integrally provided at the other swinging end of the lock member 103, that is, the front end. As shown in FIG. 26, this lever member 103c is made to protrude outward from the single adapter 90, and when the single adapter is attached to the attachment part in the player housing 2, the lever member 103c It is adapted to engage with a front end portion, that is, a predetermined contact portion, of a guide rail 2a (shown in the first diagram) provided within the mounting portion. When the lever member 103c engages with the front end of the guide rail 2a, the lock member 103 is swung such that the rear end member 103b is separated from the front end 95i of the guide portion 95h of the sliding plate 95. Thus, the locked state by the locking means is released. As shown in FIG. 26, a linear guide groove 93 that engages with the guide rail 2a (shown in the first figure) and guides the single adapter 90 is formed on the lower surface of the bottom plate 93, and a lever member 103c is formed.
is positioned within this guide groove 93.
That is, the lever member 103c is provided inward from the surface of the bottom plate 93, which forms a part of the base of the single adapter 90. By doing so, even if a listener carelessly places the single adapter on a desk or the like, the lever member 103c will not engage with the placing surface, and the locking means will prevent the single adapter from engaging with the placing surface. First member 91
The locked state of the second member 92 relative to the second member 92 is maintained. As shown in FIG. 25, locking member 103
A manual release button 103e, ie, manual release means, is integrally provided at the front end of the lever member 103c to manually release the locked state of the second member 92 to the first member 91 by the locking means. As shown in FIG. 26, the manual release button 103e is exposed outside the single adapter through an opening formed in the bottom plate 93, so that the manual release button 103e can be pressed with a finger or the like. Further, the pressed surface of the manual release button 103e is aligned with the surface of the bottom plate 93 or is positioned inward from this surface. By doing so, even if the listener carelessly places the single adapter 90 on a desk or the like, the manual release button 103e will not be pressed by the placement surface, and the locking means will not be pressed. Therefore, the locked state of the second member 92 with respect to the first member 91 is maintained. As shown in FIGS. 24 and 25, at the left rear end of the top plate 94, which is a component of the single adapter 90, there is a A recess 94c into which the extended overhang 64b can fit is provided. That is, when the single adapter 90 is inserted into the mounting portion in the player housing 2 in the correct posture (the posture shown in FIG. 24), the swing lever 6
4, the overhanging portion 64b is smoothly pushed by the single adapter to allow it to oscillate through almost its entire oscillating stroke, but when the single adapter 90 is upside down and the mounting position is incorrect, The protruding portion 64b of the swinging lever 64 fits into the recess 94c, and the insertion of the single adapter into the mounting portion and the swinging of the swinging lever 64 are counterbalanced, so that the single adapter cannot be mounted. is prevented. As shown in FIG. 25, the right side surface of the sliding plate 95, which is a component of the single adapter 90, has an engagement into which the rotating end 67a of the locking member 67 shown in FIG. 19a can be fitted. A locking recess 95k is formed. As shown in FIG.
When the second member 91 is moved relative to the first member 91 in order to place the player housing 2, the first member 91 is also made to protrude outside the magazine mounting section in the player housing 2. However, the movement of the second member 92 relative to the first member 91 is performed by a coil spring 97b, and the protrusion of the first member 91 from the mounting portion is caused by the swing lever 64 and coil spring 64d shown in FIG. 10, for example. It will be done. In addition, the first
The locking of the member 91 and the second member 92 within the magazine mounting portion is achieved by a locking member 67 or fixing means shown in FIG. 19a. As is clear from FIG. 28, the amount by which the first member 91 is made to protrude from the mounting portion (for example, 50
mm ² ) and the amount of movement of the second member 92 relative to the second member 91 (for example, 75 mm ² ) (125 mm ² ) is slightly larger (5 mm ² ) than the diameter of the disk 10 (120 mm ² ). is being done. With this configuration, the dimension indicated by U in Fig. 28, that is, the second member protrudes from the mounting portion in order to attach and detach the disk 10 to and from the second large member 92 (the tray C96 thereof). 1st time when
The overlapping dimension of the member 91 and the second member 92 is relatively large. Note that the storage position of one disk 10 in the single adapter 90 described above corresponds to the position of the approximately central disk among the six disks stored in the magazine 5 (see FIGS. 1 to 5). It is being done as much as possible. As a result, the disk loading state for the single adapter 90 is stabilized, and
A beautiful appearance can be obtained when the first and second members 91 and 92 protrude outside the magazine mounting portion. Here, the single adapter 90 is inserted into the player main body by the detection switches 34 and 35 shown in FIG. It is also detected that the device is attached. Specifically, an overhang 33g formed on the moving lever 33 for operating the detection switches 34, 35
A recess is formed in the portion of the single adapter 90 that is to be brought into contact with the magazine 5 (the rear end of the magazine 5 is brought into contact with this). With this configuration, when the single adapter 90 is attached and when the magazine 5 is attached, the amount of movement of the moving lever 33 changes, and the on/off state of each detection switch 34, 35 changes. It is determined which of the adapter 90 and the magazine 5 is attached. Next, the operation of the single adapter 90 having the above-mentioned configuration will be briefly explained along with the performance means, with reference to FIGS. 31 to 35 as well as the operations of the multi-disc player and magazine 5 described above. First, the operation of the multi-disc player when the magazine 5 is installed will be explained. 1st
When the disc to be played is designated by operating the operation button group 6 shown in the figure, a driving voltage is supplied to the motor 45, and as shown in FIG. direction) or backwards (counter-arrow Y direction). Therefore, the stepped cam grooves 37d and 38d formed in the moving plates 37 and 38 and the chassis 1
By the action of the guide groove 16e formed in 6,
The pins 20c movably fitted into the respective grooves are moved up and down, and the moving member 18 including the movable chassis B20 from which the pins 20c are protruded is moved up and down. The tray projecting member 53 provided on the moving member 18 thus reaches a position of engagement with the tray 11 or 12 carrying the disc to be played. Here, the longitudinal movement and positioning of the movable plate 37 and the vertical movement and positioning of the tray protruding member 53 will be described in detail. The DCNT signal shown in FIGS. 31 and 32 is a slit detection signal emitted from the photo sensor 51. Further, the DCHM signal is a detection signal emitted from the detection switch 49 that detects that the movable plate 37 is at its most backward movement position (forward movement limit position), that is, the home position.
As shown in FIG. 31, the photo sensor 51
If a movement command is issued while the DCNT signal is being issued, the moving plate 37 is moved by a distance corresponding to the difference between the current address (current DISC) and the desired address (search DISC). Furthermore, if a movement command is received while the photo sensor 51 is not emitting the DCNT signal, the movement plate 37 will be activated by the detection switch 4.
The desired address (search
DISC) position. When the tray projecting member 53 is thus positioned in the engagement position with the tray carrying the disc to be played, the motor 62 then begins to rotate.
The moving body 56 is driven backward (in the direction opposite to the arrow Y). Therefore, the intermediate lever 70 is rotated counterclockwise in FIG. 10, and the second lever member 72 connected to the intermediate lever is rotated to the right (counterclockwise in FIG.
direction). As shown in Figure 20,
The second lever member 72 is locked with the first lever member 71 by a locking/releasing means comprising a movable piece 76 or the like. Therefore, the first lever member 71 also
It moves to the right together with the lever member 72, thereby rotating the tray protrusion member 53, for example, clockwise in FIG. 10. Therefore, as shown in FIG. 2b, a tray carrying a disk to be played (for example, tray B12) protrudes from the magazine body 8, and the disk is placed on the disk carrying surface 23a of the turntable 23 (see FIG. 11b). The disk is moved to a concentric position with respect to the disk, that is, directly below the disk carrying surface. However, the rotation of the tray protruding member 53, therefore,
Immediately before the rightward movement of the first lever member 71 is completed, the first and second lever members 71 are
The lever members 71 and 72 are released from the locked state,
The subsequent slight rightward movement of the first lever member 71 is performed by the biasing force of the coil spring 75 (see FIG. 20, etc.), and the arc-shaped portion 12m (second The positioning of the tray is completed when the tray (see FIG. b) comes into contact with the arc-shaped predetermined contact portion 19c of the movable chassis A19. The completion of ejection of the tray from the magazine body 8 is detected by a detection signal from a detection switch 87 (see FIG. 8, etc.) which is activated by the movement of the movable body 56. The second lever member 72, which has been released from the locked state with the first lever member 71, is further driven to the right (in the opposite direction of arrow X), and the tapered portion 72 of the second lever member
2f (shown in the 20th drawing) of the clamping mechanism by a pin 79c (shown in the 10th drawing)
swings upward (in the direction of arrow Z). The disc is thus lifted upwards and clamped against the turntable 23. Note that this upward movement of the disk is shown as DISC/Load in FIG. Further, as the disk moves upward, the disk pressing member 83 also rises together with the disk due to the rotation of the intermediate lever 70. However, when the loading of the disc onto the turntable is completed, the disc holding member 8
3 is slightly separated from the disk, and the disk pressing member does not hinder the rotation of the disk. In this way, it becomes possible to play, and the turntable 23
Then, the carriage 24 (see FIG. 9, etc.) operates to start playing. When the performance is finished, the disc is stored in the magazine main body 8, but the disc storage operation is performed by following the reverse process of the disc loading operation described above, so a detailed description thereof will not be given. Thereafter, the above operation is repeated according to the specified number of songs. Incidentally, the ejecting operation of the magazine 5 to the outside of the player body is performed by pressing the button for magazine ejecting among the operation button group 6. When the magazine eject button is pressed, the movable body 56 (for example, see FIG. 19) is moved forward (in the direction of arrow Y) by a predetermined amount, thereby releasing the locked state of the magazine 5 by the locking member 67. be done. As a result, the swing lever 64 shown in FIG. 10 etc. swings about the pin 64a, and the magazine 5 engaged with the free end of the swing lever is pushed out of the player body. On the other hand, how to use the single adapter 90 is as shown in FIGS. 29, 30, and 33 by removing the magazine 5 and the magazine 5 in which the single adapter is to be replaced. That is, the single adapter 90 is inserted into the mounting portion through the insertion port 3a. At this time, the locking means 105 that locks the second member 92 with respect to the first member 91 is released. Here, it is pushed in further against the biasing force of the coil spring 97b. Then, the locking member 67 engages with the locking recess 95k provided in the sliding plate 95, which is a component of the second member 91. Here, when a performance is instructed, as is clear from FIGS. 29, 30, and 34, the tray C96 is rotated and the performance is performed in the same way as in the case of the magazine 5. Now, when the listener wants to change the disk, as shown in FIG. 35, he operates the same magazine eject button as when using the magazine. As a result, the tray C96 is rotated in the opposite direction in the same way as the magazine 5, and the locking member 67 is subsequently disengaged. Then, the first and second members 91 and 92 protrude until the tray C96 is completely exposed to the outside of the main body, as shown in FIGS. 28 and 29. The listener now replaces the disc on the tray with the desired one and starts the second one.
Since disk replacement is completed by simply pushing the member 92 together with the first member 91, there is no need to remove the single adapter 90 again. Moreover, by further pulling out the first and second members 91 and 92 in the protruding state, the single adapter 90 can be removed and replaced with the magazine 5. In the embodiment described above, when inserting the disk holder 90 into the magazine mounting section, the lever member 103c engages with the guide rail 2a provided on the magazine mounting section side, and the sliding plate 95, that is, the tray holding member Although the lock state of the first member 91 is released, it is also possible to configure the lock state to be released when the disk holder 90 is ejected from the magazine mounting portion. Effects of the Invention As detailed above, the disc holder according to the present invention holds a disc and is inserted into the mounting part of a disc player, and at the same time is fixed to the mounting part by the fixing means, so that the disc holder is not inserted into the mounting part of the disc player. A disc holder that feeds the disc into a disc player in response to an operation for disc performance, the disc holder having a base body that is directly mounted in the mounting part, and a protruding position along the mounting direction of the base body to the mounting part. a tray supporting member movable between the tray supporting member and the storage position; a moving force applying means for applying a moving force to the tray supporting member in the protrusion direction; and a moving force applying means movably provided on the tray supporting member to support the disk. and locking means for securing said tray carrier member to said base body, said tray carrier member being secured to said mounting part by said fixing means when said tray carrier member is in said storage position. , the locking means includes a lever member for releasing the locked state, and when the locking means is mounted on the mounting section, the lever member engages with a predetermined engagement section provided in the mounting section, thereby locking the locking means. The lever member is provided inwardly from the surface of the base body, and a manual release means is provided for releasing the locked state by the locking means. That is, in the disc holder according to the present invention, the tray supporting member and the tray are made to protrude outside the player housing by the force applied by the moving force applying means while the base body is fixed in the player housing, and in this protruding state, the tray is attached to the tray. After the disks are loaded or replaced, the tray supporting member is housed in the player housing and fixed by the disk holder fixing means on the player body side, so that the multi-disc player can be handled like a so-called single-disc player. In this way, the operability of loading and replacing disks is improved. In addition to this configuration, in order to improve the operability when an operator handles the disk holder outside the player, a locking means is provided to fix the tray supporting member and the tray at the storage position to the base,
Furthermore, when the disk holder is inserted into the mounting portion, the locking state by the locking means is automatically released, thereby further improving the operability. Furthermore, by providing the lever member, which is a constituent member of the locking means, on the inner side of the outer surface of the disk holder, that is, the outer surface of the base, the disk holder can be easily placed on a desk or the like. In addition, by providing a manual release means for manually releasing the locked state by the locking means, the operator does not have to forcefully operate the lever member. This makes it easy to release the lock when handling only the disk holder. a second member 92 carrying a disk of
a moving force applying means (coil spring 97b) that applies a moving force to the second member so that the second member protrudes outside the mounting portion; and a moving force applying means (coil spring 97b) that locks the second member with respect to the first member. The locking means (locking member 103 and coil spring 104) includes a lever member 103c for releasing the locked state, and when the disk holder is mounted on the mounting portion, the lever member is engaged with a predetermined engaging portion 2a provided in the mounting portion, and the locked state by the locking means is released. The locking means is provided because it is not preferable for the listener to handle only the disc holder if the second member is always movable relative to the first member. When the second member is to be mounted on the mounting portion, the locking state of the locking means is released so that the second member is movable relative to the first member fixed within the mounting portion. It needs to be able to protrude and be stored freely. However, if the listener had to manually release the locked state each time he or she attached the disk holder, the operation would be complicated. As described above, in the disk holder according to the present invention, the locking state is automatically released as soon as the disk holder is inserted into the mounting portion, so that the operability regarding disk replacement is further improved. Furthermore, in the task holder according to the present invention, the lever member is provided inward from the surface of the housing of the task holder. Therefore, even if the listener carelessly places the disk holder on a desk or the like, the lever member will not engage with the placement surface, and the locking means will not engage the second member with respect to the first member. The locked state is maintained. Further, in the disk holder according to the present invention, a manual release button 103e is used for the listener to manually release the locked state by the locking means.
is provided. There are cases where the listener wishes to move the second member relative to the first member by handling only the disk holder, regardless of the player body. In such a case, it is not always easy to operate the lever member located inward from the housing surface of the disk holder. The provision of the manual release button as described above makes this work extremely easy.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing the entire multi-disc player to which a single adapter according to an embodiment of the present invention is to be installed, and FIGS. 2a to 5b are the views shown in FIG. FIG. 6 is a plan view of the internal structure of the multi-disc player, and FIGS. 7 to 9 are views in the direction of FIG. 6, and FIG. View and -
10 is a view taken along the line X-X in relation to FIG. 9, FIGS. 11a to 23 are partial detailed views of the internal structure, and FIGS. 24 to 28 are embodiments of the present invention. 29 and 30 are mechanical conceptual diagrams conceptually and wirework-wise showing the configuration of the single adapter, and FIGS. 31 and 32 are diagrams for explaining the multi-disc player. 33 to 35 are flowcharts showing the operation of the single adapter. 2...Player housing, 3...Front panel, 5...Magazine, 8...Magazine body, 1
0... Disk, 11... Tray A, 12... Tray B, 16... Chassis, 18... Moving member,
19... Movable chassis A, 20... Movable chassis B, 23... Turntable, 23a... Disk carrying surface, 24... Carriage, 27, 45, 6
2...Motor, 30...Tray guide member, 33...
...Movement lever, 34, 35, 49, 86, 87...
...Detection switch, 37, 38...Moving plate,
47... Rotating lever, 50... Address plate, 51... Photo sensor, 53... Tray protruding member, 56... Moving body, 64... Rocking lever, 6
7...Lock member, 70...Intermediate lever, 71...
...First lever member, 72...Second lever member, 7
9... Support body, 80... Pressing member, 83... Disk pressing member, 90... Single adapter, 91
. . . first member (substrate), 95 . . . sliding plate (tray supporting member), 96 . . . tray C.

Claims (1)

[Claims for Utility Model Registration] (1) When the disc is held and inserted into the mounting part of the disc player, it is fixed to the mounting part by the fixing means 67 and the disc is inserted into the mounting part of the disc player and is fixed to the mounting part in response to the operation from the disc player. A disc holder for supplying a disc into a disc player for disc performance, which includes a base body 91 that is directly mounted in the mounting part, and a base body 91 that protrudes from the base body along the mounting direction of the base body to the mounting part. a tray supporting member 95 that is movable between a position and a storage position; a moving force applying means 97b that applies a moving force to the tray supporting member in the projecting direction;
a single tray 96 movably disposed on the tray carrying member and capable of carrying a disk; and locking means 103 for fixing the tray carrying member to the base; The locking means includes a lever member 103c for releasing the locked state, and the lever member 103c is fixed to the mounting portion by the fixing means when the device is in the mounting portion. The locking state by the locking means is released by engaging with a predetermined engaging portion 2a provided in the mounting portion, and the lever member is provided inwardly from the surface of the base body and locks the locking member. Manual release means 103 for releasing the locked state by the means
A disk holder characterized in that e is provided. (2) The scope of the utility model registration claim, characterized in that the manual release means comprises a button, and the pressed surface of the button is aligned with the surface of the base body or is located inward from the surface of the base body. The disk holder according to item 1.