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| United States Patent Application |
20060101482
|
| Kind Code
|
A1
|
|
Awano; Hiroyuki
; et al.
|
May 11, 2006
|
Recording and reproducing apparatus of thin optical disc
Abstract
In an apparatus for recording and reproducing a thin optical disc by
using the same optical system as that of a CD, a DVD or the like, the
invention provides a technique which can stably rotate the thin optical
disc at a high speed. The structure can be made such that a turbulence of
an airflow is not generated even if the thin optical disc on a turn table
is rotated at a high speed, by employing a transparent turn table and
arranging a recording and reproducing head or the like in an opposite
side to a thin optical disc mounting surface of the turn table.
| Inventors: |
Awano; Hiroyuki; (Noda, JP)
; Ota; Norio; (Yawara, JP)
; Ishizaki; Osamu; (Chikusei, JP)
|
| Correspondence Address:
|
BIRCH STEWART KOLASCH & BIRCH
PO BOX 747
FALLS CHURCH
VA
22040-0747
US
|
| Assignee: |
HITACHI MAXELL, LTD.
|
| Serial No.:
|
269842 |
| Series Code:
|
11
|
| Filed:
|
November 9, 2005 |
| Current U.S. Class: |
720/695; G9B/17.006 |
| Class at Publication: |
720/695 |
| International Class: |
G11B 17/028 20060101 G11B017/028; G11B 19/20 20060101 G11B019/20; G11B 17/03 20060101 G11B017/03 |
Foreign Application Data
| Date | Code | Application Number |
|---|
| Nov 10, 2004 | JP | 2004-326850 |
| Aug 10, 2005 | JP | 2005-231455 |
Claims
1. A recording and reproducing apparatus comprising: a transparent turn
table holding a thin optical disc; and an optical system including a
recording and reproducing head for recording and reproducing the thin
optical disc, wherein said optical system is arranged in an opposite
side of said transparent turn table to a surface in which the thin
optical disc is arranged, and a recording and reproducing light output by
said optical system transmits through said transparent turn table and is
focused on a recording surface of the thin optical disc.
2. A recording and reproducing apparatus as claimed in claim 1, wherein
said optical system is constituted by a DVD optical system.
3. A recording and reproducing apparatus as claimed in claim 2, wherein a
thickness of said transparent turn table and a protective film of said
thin optical disc is adjusted in such a manner that an optical path
length transmitting through said transparent turn table and the
protective film of said thin optical disc becomes approximately equal to
an optical path length of a substrate of a DVD disc in the DVD optical
system.
4. A recording and reproducing apparatus as claimed in claim 1, wherein a
spacer is arranged between said transparent turn table and the thin
optical disc.
5. A recording and reproducing apparatus as claimed in claim 2, wherein a
spacer is arranged between said transparent turn table and the thin
optical disc.
6. A recording and reproducing apparatus as claimed in claim 3, wherein a
spacer is arranged between said transparent turn table and the thin
optical disc.
7. A recording and reproducing apparatus as claimed in claim 4, wherein
an air layer is secured between said turn table and said thin optical
disc, on the basis of said spacer.
8. A recording and reproducing apparatus as claimed in claim 5, wherein
an air layer is secured between said turn table and said thin optical
disc, on the basis of said spacer.
9. A recording and reproducing apparatus as claimed in claim 6, wherein
an air layer is secured between said turn table and said thin optical
disc, on the basis of said spacer.
10. A recording and reproducing apparatus as claimed in claim 1, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
11. A recording and reproducing apparatus as claimed in claim 2, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
12. A recording and reproducing apparatus as claimed in claim 3, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
13. A recording and reproducing apparatus as claimed in claim 4, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
14. A recording and reproducing apparatus as claimed in claim 5, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
15. A recording and reproducing apparatus as claimed in claim 6, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
16. A recording and reproducing apparatus as claimed in claim 7, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
17. A recording and reproducing apparatus as claimed in claim 8, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
18. A recording and reproducing apparatus as claimed in claim 9, further
comprising a magnetic or mechanical means for fixing said thin optical
disc on said transparent turn table.
19. A recording and reproducing apparatus comprising: an optical system
including a recording and reproducing head for recording and reproducing
by rotating a thin optical disc, wherein the recording and reproducing
apparatus has the thin optical disc and a turn table, an annular spacer
is arranged between said thin optical disc and said turn table, and an
air layer is kept between said thin optical disc and said turn table at a
time of recording and reproducing, on the basis of said annular spacer.
Description
TECHNICAL FIELD
[0001] The invention relates to a recording and reproducing apparatus of
a thin optical disc, and more particularly to a recording and reproducing
apparatus executing a recording and a reproduction of a thin optical disc
by using the same optical system as that of a compact disc (CD), a
digital versatile disc (DVD) or the like.
BACKGROUND ART
[0002] In connection with an advance of an information society and an
exchange of an enormous amount of information, a recording apparatus for
recording a high capacity information becomes common, and a recording
density of a recording medium is significantly improved. In general, in
the optical recording apparatus of the CD, the DVD or the like, a
physical limitation of the recording density is determined on the basis
of a used laser wave length and a numerical aperture of an objective
lens. Accordingly, an improvement of the recording density is intended by
making the laser wave length shorter and making the numerical aperture of
the objective lens larger. However, since a technical standard of the
optical system of the recording and reproducing apparatus, the recording
medium or the like is changed to a new one each time when the recording
density is improved in accordance with this method, a great cost is
required for developing the recording medium having the improved
recording density and the recording and reproducing apparatus thereof so
as to manufacture and sell.
[0003] On the other hand, it is considered to intend an increase of the
recording capacity by using a technique such as a red DVD which has been
already marketed and has been inexpensive. For example, in patent
document 1, there is proposed a method utilizing a thin substrate which
has an improved mechanical property, is inexpensive and can be easily
manufactured. In an embodiment in the patent document 1 (JP-B2-7-3690),
there is described a structure in which an optical disc is manufactured
by pinching a disc having a recording film formed on a substrate made of
a polyether sulfone resin and having a thickness of 100 .mu.m between two
acrylic discs having a thickness of 1.5 mm and a diameter of 200 mm at a
high pressure, and the optical disc is mounted on a turn table and is
optically read and written.
[0004] However, in the technique described in the patent document 1,
since the optical disc having the diameter of 200 mm is utilized as the
recording medium, there are problems that the apparatus becomes large in
size and complicated in comparison with the existing DVD recording and
reproducing apparatus or the like, and a manufacturing cost is increased.
Further, in order to achieve a higher capacity, it is necessary to
further enlarge the size of the optical disc.
[0005] Accordingly, there has been proposed to use a thin optical disc
having a thickness of about 100 .mu.m in which a recording film is
pinched by thin transparent sheets in place of an acrylic material, the
thin optical disc corresponding to a recording medium having a diameter
of about 120 mm in the same manner as the existing CD, DVD or the like.
If a cartridge type recording medium is structured by receiving a
plurality of thin optical discs mentioned above, it is possible to
increase a recording capacity without making the recording and
reproducing apparatus large in size and complicated.
[0006] Patent document 2 (JP-A-10-308059) describes a recording and
reproducing mechanism holding and rotating the thin optical disc as
mentioned above on a turn table. In this recording and reproducing
mechanism, the recording and reproduction can be executed by using the
same optical system as that of the existing CD, DVD or the like, on the
basis of a provision of an optical correction means having an equal
optical path length to the acrylic substrate used in the conventional DVD
recording medium or the like, between the optical system and the thin
optical disc.
DISCLOSURE OF THE INVENTION
Problem to be Solved by the Invention
[0007] In the recording and reproducing apparatus of CD, DVD or the like,
in order to improve a recording and reproducing speed, it is general to
rotate the recording medium at a high speed of some thousands rpm.
However, in the recording and reproducing mechanism described in the
patent document 2, when rotating the turn table and the thin optical disc
at a high speed, a turbulence of an airflow is generated under the
influence of a recording and reproducing head or the like existing just
above them, so that the thin optical disc having a flexibility can not
stably rotate. If the thin optical disc is not stable at a time of
rotating, there is generated a problem that a recording and reproducing
error is frequently generated or the like.
[0008] The present invention is made by taking the actual condition
mentioned above into consideration, and an object of the present
invention is to provide a technique which can stably rotate a thin
optical disc at a high speed, in an apparatus for recording and
reproducing the thin optical disc by using the same optical system as
that of the CD, DVD or the like.
Means for Solving the Problem
[0009] As a result of a devoted research while taking the problem
mentioned above into consideration, the inventor of the present invention
has found that a structure that the turbulence of the airflow is not
generated even if the thin optical disc on the turn table rotates at a
high speed can be obtained, by using a transparent turn table, and
arranging the recording and reproducing head or the like in an opposite
side to the thin optical disc mounting surface of the turn table, in the
apparatus for recording and reproducing the thin optical disc by using
the same optical system as that of the CD, DVD or the like.
[0010] In other words, in accordance with the present invention, there is
provided a recording and reproducing apparatus comprising:
[0011] a transparent turn table holding a thin optical disc; and
[0012] an optical system including a recording and reproducing head for
recording and reproducing the thin optical disc,
[0013] wherein the optical system is arranged in an opposite side of the
transparent turn table to a surface in which the thin optical disc is
arranged, and a recording and reproducing light output by the optical
system transmits through the transparent turn table and is focused on a
recording surface of the thin optical disc.
[0014] In the recording and reproducing apparatus in accordance with the
present invention, the optical system is constituted by a CD optical
system or a DVD optical system including HD-DVD. Further, a thickness of
the transparent turn table and a protective film of the thin optical disc
is adjusted in such a manner that an optical path length transmitting
through the transparent turn table and the protective film of the thin
optical disc becomes approximately equal to an optical path length of a
substrate of a DVD disc in the DVD optical system including HD-DVD. As
mentioned above, it is possible to use the existing DVD optical system as
it is, by adjusting the thickness of the transparent turn table and the
thin optical disc. Further, the same matter is applied to the case of
using the CD optical system.
[0015] In the recording and reproducing apparatus in accordance with the
present invention, a spacer is arranged between the transparent turn
table and the thin optical disc. An air layer can be secured between the
turn table and the thin optical disc, on the basis of the spacer.
[0016] In the recording and reproducing apparatus in accordance with the
present invention, there is further provided with a magnetic or
mechanical means for fixing the thin optical disc on the transparent turn
table. For example, the thin optical disc can be held on the transparent
turn table by using an easily detachable magnet chuck or the like.
Effect of the Invention
[0017] As described above, in accordance with the recording and
reproducing apparatus of the thin optical disc on the basis of the
present invention, since the recording and reproducing head or the like
is arranged in the opposite side to the thin optical disc mounting
surface of the transparent turn table, the turbulence of the airflow
generated by the existence of the recording and reproducing head or the
like at a time of rotating the thin optical disc does not have an effect
on the thin optical disc, but a stable recording and reproduction can be
achieved. Further, since the transparent turn table serves as an optical
correcting means having an equal optical path length to that of the
acrylic substrate which has been conventionally used in the DVD recording
medium or the like, it is possible to execute the recording and
reproduction by using the same optical system as that of the existing CD,
DVD or the like.
BRIEF DESCRIPTION OF THE DRAWINGS
[0018] FIG. 1 is a view schematically showing a structure of a thin
optical disc of one surface two layer recording type, which is used as a
recording medium in a recording and reproducing apparatus in accordance
with the present invention;
[0019] FIG. 2 is a view schematically showing a cartridge in which a
plurality of thin optical discs shown in FIG. 1 are received;
[0020] FIG. 3 is a view schematically showing a disc reading mechanism
used in the recording and reproducing apparatus in accordance with the
present invention;
[0021] FIGS. 4A and 4B are views in detail showing an installation
mechanism of a magnet chuck of the recording and reproducing apparatus
shown in FIG. 3, in which FIG. 4A is a bottom elevational view of the
magnet chuck, and FIG. 4B is a side elevational view of the magnet chuck,
a spindle motor, a turn table and the thin optical disc;
[0022] FIGS. 5A and 5B are views in detail showing a structure of a
spacer of the recording and reproducing apparatus shown in FIG. 3 in
which FIG. 5A shows a case that one spacer is used, and FIG. 5B shows a
case that at least one additional spacer is used; and
[0023] FIGS. 6A-6D are views showing an operation aspect executing a
recording and reproduction by taking out the thin optical disc from the
cartridge, in the recording and reproducing apparatus in accordance with
the present invention.
BEST MODE FOR CARRYING OUT THE INVENTION
[0024] A description will be in detail given below of a best mode for
carrying out a recording and reproducing apparatus of a thin optical disc
in accordance with the present invention with reference to the
accompanying drawings. FIGS. 1 to 6 are views exemplifying an embodiment
in accordance with the present invention. In these drawings, the same
reference numerals denote the same elements, and basic structures and
operations thereof are the same.
Structure of Thin Optical Disc
[0025] FIG. 1 is a view schematically showing a structure of a thin
optical disc used as a recording medium in a recording and reproducing
apparatus in accordance with the present invention. FIG. 1 shows a layer
structure of a thin optical disc of one surface two layer recording type.
The thin optical disc is manufactured by forming a groove and an address
pattern together with an eccentric correction marker on a protection coat
1 of 15 micron in accordance with a hot emboss process or the like, and
gluing two layers of recording films 2 together by an adhesive agent 4. A
thickness of the disc is about 50 micron. In this case, reference numeral
3 denotes a transparent sheet of 15 micron for holding the recording film
2. At present, in a research of a write once type recording medium
employing a pigment, and a rewritable type recording medium employing a
phase change recording film, it is said that the recording can be
executed up to four layers. Accordingly, it is possible to apply the
methods to the recording and reproducing apparatus and the thin optical
disc in accordance with the present invention. A thickness of the thin
optical disc used in the recording and reproducing apparatus in
accordance with the present invention is preferably set to be equal to or
less than 200 micron in order to prevent a side run-out from being
generated by a centrifugal force of a disc rotation.
[0026] FIG. 2 is a view schematically showing a cartridge 100 in which a
plurality of thin optical discs 10 shown in FIG. 1 are received. The
recording and reproducing apparatus in accordance with the present
invention can utilize the cartridge 100 as the recording medium, and is
structured such that a disc carrier apparatus (not shown) takes out the
disc to be recorded and reproduced from the cartridge 100 so as to carry
to a predetermined position at a time of recording or reproducing. For
example, if about two hundreds of thin optical disc having a recording
capacity of 4.7 GB are received in the cartridge having a thickness of 30
mm, a recording capacity of about 940 GB is achieved in an entire of the
cartridge 100. Reference numeral 11 denotes a disc identification
element.
Structure of Recording and Reproducing Apparatus
[0027] A description will be given below of a recording and reproducing
apparatus for executing a recording and a reproduction with respect to
the thin optical disc shown in FIG. 1 or the thin optical disc received
in the cartridge shown in FIG. 2. FIG. 3 is a view schematically showing
a disc reading mechanism of the recording and reproducing apparatus in
accordance with the present embodiment. The disc reading mechanism of the
recording and reproducing apparatus in accordance with the present
embodiment is constituted by a transparent turn table 21 mounting the
thin optical disc 10, a spindle motor 22 rotating the turn table 21, a
spacer 23 formed around a center on the turn table 21, a magnet chuck 24
fixing the thin optical disc 10 on the turn table 21, and a recording and
reproducing head 25 using the same optical system as that of the DVD.
[0028] The spacer 23 is arranged in an upper surface of the turn table
21, and the thin optical disc 10 is structured such as to be held between
the spacer 23 and the magnet chuck 24 by setting a lower surface to a
recording surface. Further, the recording and reproducing head 25 is
arranged below the turn table 21.
[0029] The turn table 21 is constituted by a transparent substrate having
a thickness of about 0.6 mm and formed by a transparent material such as
a glass or the like (a plastic in which a surface is hard coated may be
employed), and a laser light passes through the transparent substrate at
a time of recording and reproducing the thin optical disc 10. The
transparent substrate is structured such as to execute an optical
correction for the purpose of processing the thin optical disc 10 having
a different structure from the recording medium of the DVD by the same
optical system as that of the DVD. In other words, taking into
consideration the matter that the transparent substrate layer (made of a
polycarbonate or the like) of about 0.6 mm is formed on the recording
layer in the recording medium of the existing DVD, the turn table 21
adjusts its thickness so as to give a corresponding optical path length.
Accordingly, in the recording and reproducing apparatus in accordance
with the present embodiment, it is possible to execute the recording and
the reproduction with respect to the thin optical disc 10. It is assumed
that a diameter of the turn table 21 is structured such as to become 2 mm
or more larger (preferably 5 mm or more larger) than the diameter of the
thin optical disc 10.
[0030] In this case, since the thin protection film 1 is actually formed
on the surface of the thin optical disc 10 as shown in FIG. 1, it is
preferable to adjust the optical path length taking the thickness thereof
into consideration. Further, in order to prevent a reflection factor
fluctuation caused by a multiple reflection of an incident light to the
thin optical disc and secure a signal resistance property against an
attachment of foreign particle or the like on the thin optical disc
surface, it is preferable to set the thickness of the thin protection
film of the thin optical disc to be equal to or more than 0.01 mm.
[0031] FIGS. 4A and 4B are views in detail showing an installation
mechanism of the magnet chuck 24 of the recording and reproducing
apparatus shown in FIG. 3. As shown in FIG. 4A corresponding to a bottom
elevational view of a magnet chuck 24, the magnet chuck 24 is provided
with a magnet 26 in a center portion of a bottom surface thereof, and is
provided with a plurality of concave portions 27 in the periphery
thereof. The magnet 26 is fitted to a spindle portion 29, and the concave
portion 27 is fitted to a convex portion 28 formed on the turn table 21,
thereby fixing the thin optical disc 10 on the turn table 21. A hole
corresponding to the convex portion on the turn table 21 is formed in the
thin optical disc 10. As mentioned above, since the structure is made
such that the concave portion 27 is provided not only in the center
portion of the magnet chuck 24 but also in the periphery thereof so as to
be fitted to the convex portion 28 on the turn table 21, the thin optical
disc 10 is not displaced due to the existence of the fitting portion in
the periphery of the fitting portion in the center portion even if the
fitting portion in the center portion is deformed. In this case, in order
to prevent a fitting error from being generated, it is preferable to
employ a mechanism of rotating the magnet chuck 24 to some degree so as
to align. Further, it is further preferable that a means for detecting a
failure of the fitting on the basis of a position of the magnet chuck 24
or the like is provided. In the above description, the method of chucking
by means of the magnet 26 is shown, however, the other mechanism clamping
method may be employed.
[0032] Further, there is considered a possibility that the displacement
between the convex portion 28 on the turn table 21 and the hole of the
thin optical disc 10 is generated in a state in which the thin optical
disc 10 is mounted on the turn table 21. In this case, it is possible to
recognize the displacement by making the convex portion 28 on the turn
table 21 transparent and detecting a reflected light by means of an
optical sensor or the like provided below the turn table 21. In this
case, it is preferable that there is further provided with a means for
correcting the position of the thin optical disc 10 by slightly rotating
the turn table 21.
[0033] FIGS. 5A and 5B are views in detail showing a structure of the
spacer 23 of the recording and reproducing apparatus shown in FIG. 3. As
shown in FIG. 5A, in the spacer 23, an outer diameter ro is larger than
the magnet chuck 24, an inner diameter ri is equal to or more than 15 mm,
and a thickness is equal to or more than 10 micron. Accordingly, an air
layer having a thickness equal to or more than 10 micron is secured
between the thin optical disc 10 and the transparent turn table 21. Since
the air layer executes a corresponding operation to the protection film,
it is possible to effectively prevent the reflection factor fluctuation
caused by the multiple reflection of the incident light to the thin
optical disc 10. In the case that one spacer 23 is insufficient to
prevent the deflection of the thin optical disc 10, a plurality of
spacers 23 may be arranged on the turn table 21. For example, as shown in
FIG. 5B, it is possible to arrange an annular additional spacer 23 along
an outer periphery 31 or a middle periphery 30 (a position corresponding
to a non-recorded portion of the thin optical disc 10) of the turn table
21, or a radial spacer extending from the center of the turn table 21.
Particularly, an annular spacer is preferable because the annular spacer
is hard to be affected by a centrifugal force at a time of always
synchronously rotating the thin optical disc and the turn table at a high
speed together with the recording and reproducing. Alternatively, in the
case that the same concave and convex portions as those of the spacer
shown in FIG. 5B are formed on the substrate surface at a time of forming
the substrate of the thin optical disc 10, the same effect can be also
obtained.
Manufacturing Method of Thin Optical Disc and Treating Method of
Cartridge
[0034] A description will be given next of an example of a manufacturing
method of the thin optical disc 10 used in the recording and reproducing
apparatus in accordance with the present invention, and a treating method
of the cartridge receiving the thin optical disc 10.
[0035] A desired pattern is formed as it is on a PET sheet by arranging
7.times.7 totally forty nine Ni stampers each formed from an original
plate having a format forming an address information and a tracking
groove at a track pitch of 0.74 um and a groove depth of 120 nm on the
PET sheet having a thickness of 100 micron and a width of 1 meter,
overheating them to 180.degree. C. so as to press on the PET sheet by a
uniform force for five second, slowly lifting up the stamper from one
direction, and detaching the PET sheet from the heated stamper. At this
time, a marking for making an eccentricity of the disc small is applied
at the same time of the pattern transcription mentioned above. A pigment
for write once is applied to an entire surface thereon, and an Al alloy
reflection film is next formed in accordance with a sputtering process.
Further, an ultraviolet curing resin having 15 micron is applied, and is
hardened by an ultraviolet irradiation, thereby a protection coat is
formed. Next, a punching step is started for forming a disc shape,
however, a position of a punching machine is adjusted and fixed on the
basis of the marking for making the disc eccentricity small, and an inner
diameter punching and an outer diameter punching are executed. The
punched disc is held in an inner peripheral side of a disc recording area
by a vacuum chuck robot, and is received in the cartridge 100 shown in
FIG. 2 one by one. A magnitude of the cartridge 100 is 130 mm.times.130
mm.times.30 mm, and a number of the received discs is forty.
[0036] Next, the cartridge 100 is loaded to the recording and reproducing
apparatus. A leading end portion of a cassette pushes up a cassette
insertion confirmation lever by the loading, and cancels a cover closing
mechanism in an interlocking manner. Accordingly, a cover releasing
mechanism opens the cover. In this case, if a data writing signal is
input to the disc, the disc corresponding to the signal is moved onto the
glass transparent substrate, and is fixed by the magnet chuck. The disc
is rotated and the recording and reproducing head is moved to a lead-in
region in an innermost periphery, whereby the recording is started. An
operation aspect up to this is shown in FIGS. 6A to 6D. In order to
replace with a new disc after the recording is finished, the coupling is
cancelled by a magnet chuck attaching and detaching apparatus. The disc
10 is recovered in a waiting thin tray, and is received in the original
position of the cartridge. When taking out the disc, a receive assisting
mechanism having a wide frontage waits in the place to be returned, and
is utilized. Next, the marker attached to a drawer portion of a thin
receiving bag in which the disc to be next recorded and reproduced is
received is searched by the optical detector, and is hooked by a picker
so as to be pulled out. This is moved onto a glass tray, and the thin
receiving bag is evacuated from the spindle so as to stand ready. The
spindle is slightly moved on the basis of the signal of the positioning
sensor using the protruding portion on the glass turn table 21 described
in the embodiment 1, and the new thin optical disc 10 is chucked. As
mentioned above, the disc is replaced. A disc replacing time is about ten
second.
[0037] In this case, it is preferable that the disc information within
the cartridge 100 is structured such as to be recorded in a 64 MB flash
memory installed in the cartridge 100. Accordingly, since a file within
the cartridge 100 can be searched without accessing the disc 10, an
access time can be shortened. Further, since the disc replacing time is
about ten seconds, about 125 MB data is in a process waiting state if the
recording and reproducing rate is 100 Mbps. In the case of the recording,
the input data may be buffered in the flash memory, a micro drive or the
like. In the case of the reading, it is desirable to employ a device of
discharging the data of the recovery disc in delay so as to apply no
impression of a waiting time to the user.
[0038] The description is given above of the recording and reproducing
apparatus of the thin optical disc in accordance with the present
invention by showing the particular embodiment, however, the present
invention is not limited to them. Those skilled in the art can apply
various changes and modifications to the structure and the function of
the present invention in accordance with the embodiment or the other
embodiment within the scope of the present invention.
* * * * *
