Disk cartridge loading and ejecting mechanism in a recording and playback apparatus

In a recording and playback apparatus for a disk cartridge, a loading lever is supported rotatably on a pair of sidewalls, and rotatable between a loading position which it takes when a disk cartridge is inserted into the apparatus and an ejecting position which it takes when the disk cartridge is ejected from the apparatus. A locking member is supported on one of the sidewalls rotatably into engagement with the loading lever to hold it in its ejecting position. A cam plate is also supported on the same sidewall reciprocally movably between its retracted position in which the loading lever is in its ejecting position and its advanced position in which the loading lever is in its loading position. The cam plate has an unlocking device which is engageable with the locking member to disengage it from the loading lever when the cam plate is moved to its advanced position. A locking spring is connected to the locking member for urging it into engagement with the loading lever. A tension spring is connected to the cam plate for urging it into its retracted position.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates to a recording and playback apparatus for a disk 
cartridge. 
2. Description of the Prior Art 
Known recording and playback apparatuses for disk cartridges are 
complicated in construction and large in dimensions, as they include, for 
example, a complicated speed reduction mechanism which enables the 
insertion and ejection of a disk cartridge. They also have the 
disadvantage of being difficult to assemble accurately. 
SUMMARY OF THE INVENTION 
It is an object of this invention to provide a recording and playback 
apparatus for a disk cartridge which is simple in construction, small in 
size and easy to fabricate accurately. 
This object is attained by a recording and playback apparatus for a disk 
cartridge which comprises a loading lever supported rotatably between a 
pair of sidewalls and normally urged to its loading position, a locking 
member supported on one of the sidewalls rotatably into engagement with 
the loading lever to hold it in its ejecting position, a cam plate 
supported on the same sidewall reciprocally movably between its retracted 
position in which the loading lever is in its ejecting position and its 
advanced position in which the loading lever is in its loading position, a 
locking spring connected to the locking member for urging the locking 
member into engagement with the loading lever, and a tension spring 
connected to the cam plate for urging it into its retracted position, the 
cam plate having an unlocking device which is engageable with the locking 
member to disengage it from the loading lever when the cam plate is 
brought to its advanced position. 
The apparatus of this invention is simple in construction and small, since 
it does not require any complicated speed reduction mechanism of the type 
hitherto provided for enabling the loading and ejection of a disk 
cartridge. The apparatus is easy to fabricate accurately, since the cam 
plate having an unlocking device and the locking member for holding the 
loading lever in its ejecting position are both provided on one of the 
sidewalls and are, therefore, easy to place in their accurate positions 
relative to each other. 
Other objects, features and advantages of this invention will become 
apparent from the following detailed description and the accompanying 
drawings.

DETAILED DESCRIPTION OF THE INVENTION 
A magnetic recording and playback apparatus for a disk cartridge embodying 
this invention is generally shown in FIG. 1. It has a frame 1 supporting a 
disk rotating shaft 2, a carriage 3 carrying a magnetic head and a pad, 
and a stepping motor 4 for moving the carriage 3. A pair of sidewalls 5 
and 5' are screwed to the opposite sides of the frame 1. A loading lever 6 
and a cartridge holder 7 are provided between the sidewalls 5 and 5'. The 
cartridge holder 7 extends over the disk rotating shaft 2. The cartridge 
holder 7 has at its right end (FIG. 1) a cartridge inlet not shown, but 
provided for the loading and ejection of a disk cartridge 8. The disk 
cartridge 8 comprises a casing 11 formed from a hard synthetic resin and 
having an opening 9 for the magnetic head and an opening 10 for the disk 
rotating shaft 2, a magnetic disk 12 disposed rotatably in the casing 11, 
and a shutter 13 covering the opening 9. The cartridge holder 7 is 
provided between the carriage 3 and the sidewall 5 with an ejection lever 
14 for opening the shutter 13 and storing a force for the ejection of the 
disk cartridge 8. 
A cam plate 15 is longitudinally slidably supported on the inner surface of 
the sidewall 5. The sidewall 5 has two pins 17 and 17' and the cam plate 
15 has two horizontally extending elongated holes 16 and 16' in which the 
pins 17 and 17' are respectively received so that the cam plate 15 may be 
reciprocally movable to a certain extent along the sidewall 5. The cam 
plate 15 has a latching projection 18 at one end thereof, a spring 
fastening projection 19 in its mid-portion and a cam surface 20 formed on 
the opposite side of the projection 19 from the projection 18. A tension 
spring 21 has one end fastened to the projection 19, while the other end 
of the spring 21 is fastened to a spring fastening projection 22 formed on 
the loading lever 6. The spring 21 urges the cam plate 15 toward the 
cartridge inlet and loading lever 6 to its loading position, as will 
hereinafter be described in further detail. The cam surface 20 has an 
upper horizontal portion 20a, a lower horizontal portion 20c and a 
slanting portion 20b therebetween. The sidewall 5 has a vertically 
elongated hole 23 provided in the vicinity of the cam surface 20, and the 
other sidewall 5' also has a similar hole aligned with the hole 23, but 
not shown. 
The cam plate 15 is provided at the top of its mid-portion with a lever 24 
which is rotatable about a shaft 25. The lever 24 has a folded end 26 on 
which the disk cartridge 8 is brought into abutment. A holding plate 27 
formed from a leaf spring has one end secured to the top of the cartridge 
holder 7, while the other end of the holding plate 27 rests resiliently on 
the lever 24. The cam plate 15 has a projection defining a stop 28 which 
prevents downward rotation of the lever 24 beyond its horizontal position. 
A locking lever 29 is rotatably supported by a pin 30 on the inner surface 
of the sidewall 5. The locking lever 29 has one end provided with a 
shoulder 31 which is engageable with the latching projection 18 on the cam 
plate 15. The locking lever 29 is provided at the other end thereof with a 
depending portion 32 having a lower end connected to an armature 34 
projecting from an electromagnetic solenoid 33. A coiled spring 35 
surrounds the armature 34 and normally urges the locking lever 29 in a 
direction which enables its shoulder 31 to be kept in engagement with the 
latching projection 18. 
A locking member 36 is rotatably supported by a shaft 37 on the inner 
surface of the sidewall 5 in the vicinity of its mid-portion. A locking 
spring 38 extends between the pin 17 and the locking member 36 and 
normally urges the locking member 36 in a direction approaching the 
cartridge inlet. 
The loading lever 6 is rotatably supported by pins 39 on the sidewalls 5 
and 5', respectively. The tension spring 21 normally urges the loading 
lever 6 in a downward direction to its loading position. The loading lever 
6 and the cartridge holder 7 are rotatably connected to each other by pins 
40 and 40' received in the holes 23 of the sidewalls 5 and 5', 
respectively, as shown in FIGS. 4 and 5. A roller 41 contacting the cam 
surface 20 is rotatably fitted on the pin 40. The loading lever 6 has an 
inner end with which a shoulder 42 provided at the top of the locking 
member 36 is engageable to prevent rotation of the loading lever 6 and 
maintain it and the cartridge holder 7 in their ejecting position. The cam 
plate 15 has an unlocking pin 43 which is adapted to abut on the locking 
member 36 to disengage its shoulder 42 from the loading lever 6. The cam 
plate 15 is also provided with another pin 44 on the opposite side of the 
locking member 36 from the unlocking pin 43 for bringing the shoulder 42 
back into engagement with the loading lever 6. 
The ejection lever 14 has a folded abutment projection 45 at one end, a 
hole 46 at the other end and a spring fastening projection 47 in its 
mid-portion, as shown in FIGS. 6 and 7. The ejection lever 14 is disposed 
between the top 48 and bottom 49 of the cartridge holder 7. The lever 14 
is rotatably supported on the cartridge holder 7 by a shaft 50 secured 
thereto and extending loosely through the hole 46. A torsion spring 51 is 
fitted about the shaft 50 and has one end held by the projection 47 on the 
ejection lever 14, while the other end of the spring 51 is held by the 
bottom 49 of the cartridge holder 7. The spring 51 urges the ejection 
lever 14 in a position in which it is directed toward the cartridge inlet. 
Prior to the insertion of the disk cartridge 8, the tension spring 21 
maintains the cam plate 15 in its retracted position closer to the 
cartridge inlet, and the upper horizontal portion 20a of the cam surface 
20 faces the hole 23 of the sidewall 5, as shown in FIG. 2. The roller 41 
rests on the upper horizontal portion 20a and prevents downward rotation 
of the loading lever 6. The cartridge holder 7 is, therefore, held in its 
standby or ejecting position, as shown in FIG. 4. 
Insofar as the solenoid 33 is not energized, the coiled spring 35 holds the 
locking lever 29 in abutment on the cam plate 15. As the cam plate 15 is 
in its retracted position, its latching projection 18 is out of engagement 
with the shoulder 31 on the locking lever 29. The loading lever 6 has its 
inner end resting on the shoulder 42 of the locking member 36 and is, 
therefore, held against downward rotation. The ejection lever has its free 
end directed toward the cartridge inlet as shown in FIG. 1. The leaf 
spring 27 has its free end resting on the lever 24 between the shaft 25 
and the folded end 26 and holds the lever 24 against the stop 28, as shown 
in FIGS. 1 and 2. 
If the disk cartridge 8 is inserted into the cartridge holder 7, the free 
end of the ejection lever 14 abuts on the edge of the shutter 13. Further 
insertion of the cartridge 8 causes the ejection lever 14 to rotate 
clockwise in FIG. 1 so that force may be stored in the torsion spring 51. 
The rotation of the ejection lever 14 causes the shutter 13 to open and 
expose the opening 9 for the magnetic head (see FIG. 6). 
During the insertion of the disk cartridge 8, its inner end abuts on the 
folded end 26 of the lever 24 and moves the cam plate 15 toward the 
locking lever 29 by overcoming the force of the tension spring 21 until 
the latching projection 18 engages the shoulder 31. This engagement locks 
the cam plate 15 in its advanced position as shown in FIG. 3. This 
movement of the cam plate 15 causes the slanting portion 20b of its cam 
surface 20 to face the hole 23 of the sidewall 5, and when the cam plate 
15 has been locked in its advanced position, approximately the lower end 
of the slanting portion 20b faces the hole 23. When the cam plate 15 has 
been locked in its advanced position, the inner end of the loading lever 6 
still rests on the shoulder 42 of the locking member 36. This prevents 
downward rotation of the loading lever 6 and holds the cartridge holder 7, 
which is connected to the lever 6 by the pins 40 and 40', in its initial 
ejecting position as shown in FIG. 4. Therefore, the roller 41 is located 
in the upper portion of the hole 23 and away from the slanting portion 20b 
of the cam surface 20. 
If the disk cartridge 8 is further inserted after the cam plate 15 has been 
locked in its advanced position, its unlocking pin 43 abuts on the locking 
member 36 and causes it to rotate counterclockwise by overcoming the force 
of the locking spring 38, as shown in FIG. 3. This rotation disengages the 
locking member 36 from the loading lever 6, and the tension spring 21 
causes the lever 6 to rotate down about the pins 39 to its loading 
position. This rotation causes the lowering of the pins 40 and 40' and the 
roller 41 in the holes 23 and thereby the lowering of the cartridge holder 
7 toward the disk rotating shaft 2 to place the disk cartridge 8 in 
position and make it ready for recording or playback. As the ejection 
lever 14 is supported on the cartridge holder 7, the cartridge holder 7, 
the disk cartridge 8 and the ejection lever 14 are lowered together. 
Therefore, there is no friction between the disk cartridge 8 and the 
ejection lever 14, but the disk cartridge 8 can be moved to its loading 
position smoothly. When the apparatus is loaded with the disk cartridge 8, 
the leaf spring 27 rests resiliently on the lever 24 in a location between 
the shaft 25 and the cartridge inlet. This and the lowering of the 
cartridge holder 7 causes the lever 24 to rotate about the shaft 25 
clockwise in FIG. 2 and away from the inner end of the disk cartridge 8 as 
shown in FIG. 3. When the disk cartridge 8 has been loaded in position, 
the roller 41 rests on the lower horizontal portion 20c of the cam surface 
20 as shown in FIG. 3. 
Description will now be made of the ejection of the disk cartridge 8. If 
the solenoid 33 is energized in response to an ejection signal transmitted 
from a control system not shown, the armature 34 is pulled against the 
force of the coiled spring 35. The locking lever 29 is, therefore, rotated 
counterclockwise in FIG. 3 and its shoulder 31 is disengaged from the 
latching projection 18 on the cam plate 15, whereupon the cam plate 15 is 
brought back by the tension spring 21 toward the cartridge inlet to its 
retracted position. This movement of the cam plate 15 causes the roller 41 
to rise along the slanting portion 20b of the cam surface 20 until it 
rides on the upper horizontal portion 20a as shown in FIG. 2. The loading 
lever 6 is rotated upwardly about the pins 39 against the force of the 
tension spring 21, and engaged again with the shoulder 42 on the locking 
member 36 which has been rotated back to its original position by the 
spring 38 and the projection 44 on the cam plate 15 as a result of the 
retraction of the cam plate 15. The cartridge holder 7 containing the disk 
cartridge 8 is raised from its loading position to its ejecting position. 
As the ejection lever 14 moves with the cartridge holder 7, there is no 
friction between the disk cartridge 8 and the ejection lever 14, but the 
disk cartridge 8 can be moved to its ejecting position smoothly. The 
rotation of the ejection lever 14 by the spring 51 and the retraction of 
the lever 24 resulting from the retraction of the cam plate 15 cause the 
disk cartridge 8 to be ejected from the cartridge holder 7. Upon ejection 
of the disk cartridge 8, a spring not shown closes the shutter 13 and 
thereby the opening 9 for the magnetic head, as shown in FIG. 1. The leaf 
spring 27 rests on the lever 24 between the shaft 25 and the folded end 26 
and urges the lever 24 into abutment on the stop 28. The apparatus is now 
ready to receive another disk cartridge.