JP2004241048A - Optical disk recording/reproducing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical disk recording/reproducing device which does not damage bare optical disk. <P>SOLUTION: The device is the optical disk recording/reproducing device in which an optical disk 53, in which a recording area 54 which is optically recordable by light incidence is formed on at least one side of a plane inside a diameter of the disk and an external range for an outside diameter of a turntable for supporting the disk, can be inserted in a state where either it is accommodated in a cartridge or it is in a bare state, and the recording reproducing is made possible for the optical disk 53. The device is configured so that it has a disk receiving part 56 for contacting the part other than the recording area 54 for the inserted bare optical disk 53. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
According to the present invention, on at least one surface side, a recording area is formed in a range inside the disc diameter and outside the outside diameter of the turntable holding the disc, and a light-recordable recording area is formed by incidence of light. The present invention relates to an optical disk recording / reproducing apparatus which can be inserted into the optical disk in a state in which the optical disk is housed in a cartridge and in which the optical disk is naked, and which can record / reproduce on / from the optical disk.
[0002]
[Prior art]
FIG. 17 is a diagram showing the appearance of a conventional optical disk (for example, MO, CD-R, PD, etc.). FIG. 17A is a perspective view in which the front is up, and FIG. 17B is a perspective view in which the back is up. In these figures, the optical disc 1 is housed in a cartridge 3 in order to prevent scratches and dirt on the medium. Data is recorded / reproduced through an opening 7 of the cartridge 3 which is opened and closed by a shutter 5. In recent years, it has become possible to use even a bare optical disk by improving a protective film of the optical disk. In addition, there has been proposed an apparatus capable of recording and reproducing an optical disk housed in a cartridge as described in Patent Document 1 or a naked optical disk.
[0003]
[Patent Document 1]
JP-A-9-320170 (page 7, page 8, FIG. 7)
[0004]
[Problems to be solved by the invention]
When a bare optical disk is used, a structure that does not damage the recording surface is required. However, in the invention described in Patent Document 1, such a structure is not described. The present invention has been made in view of the above problems, and an object of the present invention is to provide an optical disc recording / reproducing apparatus that does not damage a bare optical disc.
[0005]
[Means for Solving the Problems]
The invention according to claim 1, which solves the above problem, is configured such that light is formed on at least one surface side in a range inside the disk diameter and outside the outside diameter of the turntable holding the disk. In an optical disk recording / reproducing apparatus capable of recording and reproducing data on / from the optical disk, the optical disk having an optically recordable recording area formed therein can be inserted in any of a state in which the optical disk is housed in a cartridge and a state in which the optical disk is naked. An optical disk recording / reproducing apparatus, characterized in that the optical disk recording / reproducing apparatus has a disk receiving portion with which a portion other than the recording area of the bare optical disk contacts. By having a disk receiving portion with which a part other than the recording area of the inserted bare optical disc abuts, even if the bare optical disc is inserted, it is not damaged.
[0006]
The invention according to claim 2 is the optical disk recording / reproducing apparatus according to claim 1, wherein the disk receiving portion is provided on a base having a hole through which the turntable is inserted. Since the disc receiving portion is provided on the base having the hole through which the turntable is inserted, it is possible to prevent the bare optical disc from being damaged by the base when the optical disc is inserted.
[0007]
The invention according to claim 3 is the optical disk recording / reproducing apparatus according to claim 2, wherein the disk receiving portion is provided on a member facing the base. By providing the disk receiving portion on the base side and the member facing the base, that is, by providing the disk receiving portion so as to sandwich the naked optical disk, even if the naked optical disk is violated at the time of ejection, the optical disk is not damaged. I can't get it.
[0008]
The invention according to claim 4 is the optical disk recording / reproducing apparatus according to any one of claims 1 to 3, wherein the hardness of the disk receiving portion is smaller than the hardness of a surface material of the optical disk. Since the hardness of the disk receiving portion is smaller than the hardness of the surface material of the optical disk, the optical disk is not damaged.
[0009]
The invention according to claim 5 is formed on at least one surface side in a range inside the diameter of the disk and outside the outside diameter of the turntable holding the disk, and is capable of optically recording by light incidence. In an optical disk recording / reproducing apparatus which can be inserted in any state of an optical disk having a recording area formed therein in a cartridge and in which the optical disk is naked, and which can record and reproduce the optical disk, the cartridge and the naked optical disk A chucking mechanism that moves at least one of a base into which an optical disc is inserted and a spindle motor that rotationally drives the turntable to hold / separate the inserted optical disc of the cartridge and the bare optical disc from / to the turntable; The cartridge, the naked optical disk provided on the base During insertion, the cartridge, in contact with a side surface of the bare optical disk, the cartridge is an optical disk recording and reproducing apparatus characterized in that a disc receiving means for holding the optical disc. At least one of the cartridge and the base into which the bare optical disc is inserted, and the spindle motor for rotating the turntable are moved to hold / separate the inserted optical disc of the cartridge and the bare optical disc from the turntable. A chucking mechanism for allowing the cartridge and the naked optical disk to be inserted into the cartridge and the bare optical disk when the cartridge and the naked optical disk are inserted; and a disk receiving means for holding the cartridge and the optical disk. As a result, even if a bare optical disc is inserted, it is not damaged.
[0010]
The invention according to claim 6 has a control unit that releases the contact of the disk receiving means with the side surface of the naked optical disk when the naked optical disk is held on the turntable by the chucking mechanism. An optical disk recording / reproducing apparatus according to claim 5, characterized in that: When the naked optical disk is held on the turntable by the chucking mechanism, the naked optical disk may be damaged by having a control unit that releases the abutment of the disk receiving means on the side surface of the naked optical disk. Instead, the optical disk can be rotated immediately after chucking.
[0011]
According to a seventh aspect of the present invention, there is provided a detecting means for detecting a displacement of the disc receiving means, and the control section fetches data from the detecting means and determines whether the inserted data is a cartridge or a bare optical disc. 7. The optical disc recording / reproducing apparatus according to claim 6, wherein the discrimination is performed. Detecting means for detecting the displacement of the disk receiving means is provided, and the control unit fetches data from the detecting means and determines whether the inserted optical disk is a cartridge or a bare optical disk, so that only the cartridge is detected. Compared to a case where a detecting unit and a unit for detecting a bare optical disk are provided, the number of detecting units is smaller, and the size and cost of the apparatus can be reduced.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
(First Embodiment (corresponding to claim 1, claim 2, claim 4))
A first embodiment will be described with reference to FIGS. FIG. 1 is a diagram showing a case where a naked optical disk is inserted, and FIG. 2 is a diagram showing a case where a cartridge for storing the optical disk is inserted. FIG. 1A shows a state immediately after a bare optical disk is inserted and immediately before ejection, and FIG. 1B shows a state in which chucking between the bare optical disk and the turntable is completed. FIG. 2A shows a state immediately after the cartridge is inserted and immediately before the cartridge is ejected, and FIG. 2B shows a state in which chucking between the optical disk in the cartridge and the turntable is completed.
[0013]
As shown in FIGS. 1 and 2, a bare optical disk 53 and a cartridge 57 containing the optical disk 53 are inserted into the upper surface of a base 51 having an upright wall portion 51 a on the outer edge. On the lower surface side of the base 51, a turntable 63 driven by a spindle motor 61 is provided. The optical disk 53 is formed on at least one surface side (one surface side in the present embodiment) in a range inside the disk diameter and outside the outside diameter of the turntable 63 holding the optical disk 53, A light-recordable recording area 54 is formed by the incidence of light. The base 51 is provided with a disc receiving portion 56 with which a part other than the recording area 54 of the inserted bare optical disc 53 (in the present embodiment, inside the recording area 54) comes into contact. In the present embodiment, the disk receiving portion 56 is made of a material (for example, nylon 6 Rockwell hardness) having a hardness smaller than the hardness of the surface material of the optical disk 53 (for example, polycarbonate Rockwell hardness R122 (ASTM-D785)). R118 (ASTM-D785) was used. A hole 65 through which the turntable 63 can be inserted is formed in the base 51, and the turntable 63 and the spindle motor 61 can project to the upper surface side of the base 51 through the hole 65 by a chucking mechanism (not shown). .
[0014]
As shown in FIG. 1A → FIG. 1B, the turntable 63 and the spindle motor 61 are raised to the upper surface side of the base 51 through the hole 65, so that the bare optical disk in which the turntable 63 is inserted. The chucking (holding of the optical disk 53) is performed by engaging with the hub 58 of 53. At this time, the optical disk 53 separates from the base 51, and the contact between the optical disk 53 and the disk receiving portion 56 is released. As shown in FIG. 2A → FIG. 2B, the turntable 63 and the spindle motor 61 project toward the upper surface of the base 51 through the hole 65, so that the cartridge 57 into which the turntable 63 is inserted is inserted. Is engaged with the hub 58 of the optical disk 53, and chucking is performed.
[0015]
According to the above configuration, the following effects can be obtained.
(1) By providing the disk receiving portion 56 in which a portion other than the recording area 54 of the bare optical disk 53 inserted on the base 51 is in contact, even if the bare optical disk 53 is inserted, no damage occurs.
(2) Since the hardness of the disk receiving portion 56 is smaller than the hardness of the surface material of the optical disk 53, the optical disk 53 is not damaged.
[0016]
Note that the present invention is not limited to the above embodiment. In the above embodiment, as the chucking mechanism, the turntable 63 and the mechanism for moving the spindle motor 61 with respect to the fixed base 51 have been described. And a mechanism for moving the turntable 63, the spindle motor 61, and the base 51, respectively. Further, although the disk receiving portion 56 is provided so as to abut on the inside of the recording area 54 of the bare optical disk 53, it may be made to abut on the outside of the recording area 54 of the bare optical disk 53. Further, as shown in FIG. 3, a disk receiving portion 59 may be provided which is in contact with substantially the entire back surface other than the recording area 54 of the bare optical disk 53.
(Second embodiment (corresponding to claim 1, claim 2, claim 3, or claim 4))
A second embodiment will be described with reference to FIG. 4A and 4B are diagrams showing a case where a naked optical disk is inserted, FIG. 4A shows a state immediately after the insertion of the naked optical disk, and a state immediately before ejection, and FIG. 4B shows a state between the naked optical disk and the turntable. This shows a state in which chucking has been completed. Note that, in FIG. 4, the same portions as those in FIGS. 1 and 2 are denoted by the same reference numerals, and overlapping description will be omitted.
[0017]
In the present embodiment, a cartridge box 71 having an upright wall portion 71 a at the outer edge portion, facing the base 51, and covering the upper surface of the base 51 is provided. Then, on the inner surface of the cartridge box 71, a disk receiving portion 73 is provided in which a portion other than the recording region 54 of the inserted bare optical disk 53 (in the present embodiment, the inside of the recording region 54) abuts. Further, the standing wall portion 51a of the base 51 is also provided with a disk receiving portion 75 to which the end surface on the outer edge side of the bare optical disk 53 other than the recording area 54 of the inserted bare optical disk 53 comes into contact.
[0018]
According to the above configuration, the following effects can be obtained in addition to the effects of the first embodiment.
(1) When the spindle motor 61 is moved down to separate the hub 58 and the turntable 63 of the bare optical disk 53 in order to eject the bare optical disk 53 rotated by the spindle motor 61, the optical disk 53 It may continue to rotate, and may ramp up between the base 51 and the cartridge box 71 (see FIG. 3A). However, in the present embodiment, the disk receiving portion 56 is provided on the base 51 and the disk receiving portion 73 is provided on the cartridge box 71 opposed to the base 51, that is, the disk receiving portion is sandwiched between the naked optical disks 53. 56, the provision of the disk receiving portion 73 prevents the optical disk 53 from being damaged even if the naked optical disk 53 is exposed during ejection. Further, in the present embodiment, the disk receiving portion 75 is also provided on the upright wall portion 51a of the base 51, so that the optical disk 53 is not further damaged.
(Third embodiment (corresponding to claims 5, 6, and 7))
A third embodiment will be described with reference to FIGS. The same parts as those in FIGS. 1 to 4 are denoted by the same reference numerals, and redundant description will be omitted. 5 to 10 are configuration diagrams of the optical disc recording / reproducing apparatus according to the present embodiment viewed from above, FIG. 11A is a cross-sectional view taken along a cutting line AA in FIG. ) Is a cross-sectional view taken along line BB in FIG. 7B, FIG. 12 is a cross-sectional view taken along line CC in FIG. 10B, and FIG. 13 is an optical disc recording / reproducing apparatus according to the present embodiment. 14 to 16 are flow charts for explaining the operation of the control unit shown in FIG.
[0019]
First, the configuration will be described with reference to FIG. On the base 51, two pairs of arms, that is, a first arm 101 and a first arm 101 ', and a second arm 103 and a second arm 103' are provided with the hole 65 interposed therebetween. The first arm 101, the first arm 101 ', the second arm 103, and the second arm 103' are urged by urging means (not shown). When viewed from the top of the apparatus, the urging directions are clockwise for the first arm 101 and the second arm 103, and counterclockwise for the first arm 101 'and the second arm 103' (see FIG. 5A). ). Furthermore, on the base 51, a first arm 111, a first arm 101 ', a second stopper 103, a first stopper 111 for inhibiting further rotation of the second arm 103', a first stopper 111 ', A second stopper 113 and a second stopper 113 'are provided. Therefore, when nothing is inserted into the base 51, the first arm 101 and the first arm 101 are connected to the first stopper 111 and the first stopper 111 ', and the second arm 103 and the second arm 103' are connected to the first stopper 111 and the second arm 103 '. The second stopper 113 and the second stopper 113 'are pressed against each other. Hereinafter, in this specification, a position where each arm is pressed against each stopper is referred to as an initial position. The first stopper 111, the first stopper 111 ', the second stopper 113, and the second stopper 113' are only shown in FIGS. 5A and 8A showing an initial state, and are omitted in other drawings. .
[0020]
The first arm 101 and the first arm 101 ′ and the second arm 103 and the second arm 103 ′ are provided with detecting means for detecting the rotation angle of each arm from the initial position, that is, the first arm 101 has The first angle detecting means 121 'is provided on the first arm 101', the second angle detecting means 123 is provided on the second arm 103, and the second angle detecting means 123 'is provided on the second arm 103'. Is provided. The rotating ends of the first arm 101, the first arm 101 ', and the second arm 103, the second arm 103' are formed in a constricted drum shape at the center, and are made of a low-hardness material such as resin. A first disk receiving portion 131, a first disk receiving portion 131 ', a second disk receiving portion 133, and a second disk receiving portion 133' are rotatably mounted. Further, the first arm 101 and the first arm 101 ', and the second arm 103 and the second arm 103' are rotationally driven in a direction opposite to the urging force of the urging means by an arm driving mechanism (not shown). It has become.
[0021]
Next, the electrical configuration of the above configuration will be described with reference to FIG. Reference numeral 201 denotes a rotation angle signal from the initial position of each arm, that is, a signal (θ1) from the first angle detection means 121, a signal (θ1 ') from the first angle detection means 121', and a second angle detection means 123. And a signal (θ2 ′) from the second angle detecting means 123 ′, and drives the chucking mechanism 203 and the arm driving means 205.
[0022]
Next, the operation of the above configuration will be described.
(Schematic operation when a naked optical disk is inserted: FIGS. 5 to 7 and 11)
When nothing is inserted into the base 51, the first arm 101, the first arm 101 ', the second arm 103, and the second arm 103' on the base 51 are at the initial position. When the bare optical disk 53 is inserted into the base 51, first, the second arm 103, the second disk receiving portion 133 of the second arm 103 ', and the second disk receiving portion 133' are pushed by the naked optical disk 53 to be urged. It starts rotating against the urging force of the means (FIG. 5 (a)). Further, when the bare optical disk 53 is inserted, the first arm 101, the first disk receiving portion 131 of the first arm 101 ', and the first disk receiving portion 131' are pushed by the naked optical disk 53, and the urging means is pressed. (Fig. 5 (b)). Since the first disk receiving portion 131, the first disk receiving portion 131 ', the second disk receiving portion 133, and the second disk receiving portion 133' are in a drum shape with a narrow central portion, the plurality of disk receiving portions are bare. The bare optical disk 53 is guided so as to be located at the center of each disk receiving portion by contacting the outer edge side end surface of the optical disk 53. Prevents sticking.
[0023]
When the naked optical disk 53 is further inserted, the first arm 101, the first disk receiving portion 131 of the first arm 101 ', the first disk receiving portion 131', the second arm 103, and the second arm 103 '. The second disk receiving portion 133 and the second disk receiving portion 133 'roll on the outer edge side end surface of the bare optical disk 53 (FIG. 6 (a) → FIG. 6 (b)). Then, the hub 58 of the bare optical disk 53 reaches the turntable 63 (FIGS. 7A and 11A). Then, the chucking mechanism is driven, the turntable 63 is raised, and the turntable 63 is engaged with the hub 58 of the bare optical disc 53. After the engagement, the arm driving means 205 is driven, and the first arm 101 and the first arm 101 ′, and the second arm 103 and the second arm 103 ′ are separated from the end face of the bare optical disk 53 on the outer edge side, and the first disk The holding of the bare optical disk 53 by the receiving portion 131, the first disk receiving portion 131 ', the second disk receiving portion 133, and the second disk receiving portion 133' is released (FIGS. 7B and 11B). . Then, the bare optical disk 53 is driven to rotate by the spindle motor 61, and data recording / reproduction is performed on the naked optical disk 53.
[0024]
(Schematic operation when cartridge is inserted: FIGS. 8 to 10 and 12)
When nothing is inserted into the base 51, the first arm 101, the first arm 101 ', the second arm 103, and the second arm 103' on the base 51 are at the initial position. When the cartridge 57 is inserted into the base 51, first, the first arm 101, the first disk receiving portion 131 and the first disk receiving portion 131 'of the first arm 101' are pushed by the cartridge 57, and the urging force of the urging means is applied. (Fig. 8 (a)). Further, when the cartridge 57 is inserted, the second arm 103 and the second disk receiving portion 133 and the second disk receiving portion 133 'of the second arm 103' are pushed by the cartridge 57, and the urging force of the urging means is reduced. It starts rotating against it (FIG. 8 (b)). When the cartridge 57 is further inserted, the first arm 101, the first disk receiving portion 131 of the first arm 101 ', the first disk receiving portion 131', and the second arm 103 and the second arm 103 'of the second arm 103'. The two-disk receiving portion 133 and the second disk receiving portion 133 'roll on the end surface on the outer edge side of the cartridge 57 (FIG. 9A → FIG. 9B). Then, the rotation base end sides of the second arm 103 and the second arm 103 'are pushed by the front end surface of the cartridge 57, and the second disk receiving portion 133 and the second disk receiving portion 133' are once removed from the cartridge 57 (FIG. 10 (a)). Then, when the second disk receiving portion 133 and the second disk receiving portion 133 'come into contact with the side surface of the cartridge 57 and the hub 58 of the optical disk 53 of the cartridge 57 reaches the turntable 63 (FIG. 10B, FIG. 12). ), The chucking mechanism is driven, the turntable 63 is raised, and the turntable 63 and the hub 58 of the optical disk 53 are engaged. The optical disk 53 in the cartridge 57 is driven to rotate by the spindle motor 61, and data is recorded / reproduced on / from the optical disk 53.
[0025]
(Operation of control unit)
Next, the operation of the control unit 201 will be described with reference to FIGS. Until the cartridge 57 or the naked optical disk 53 is inserted, as shown in FIG. 14, the control unit 201 controls the first angle detection unit 121, the first angle detection unit 121 ′, the second angle detection unit 123, and the second angle detection unit. The signal from the detecting means 123 'is received. Then, first, the first arm 101 and the first arm 101 'start rotating, that is, the signal (θ1) from the first angle detecting means 121 and the signal (θ1') from the first angle detecting means 121 'are changed. When it is no longer 0 ° (step 1), it is determined that the cartridge 57 has been inserted (step 2). On the other hand, first, the second arm 103 and the second arm 103 'start rotating, that is, the signal (θ2) from the second angle detecting means 123 and the signal (θ2') from the second angle detecting means 123 'are changed. When the angle is no longer 0 ° (step 3), it is determined that the naked optical disk 53 has been inserted (step 4). When the control unit 201 determines that the cartridge 57 is inserted, as shown in FIG. 15, the signal (θ1) from the first angle detection unit 121 and the signal (θ1 ′) from the first angle detection unit 121 ′ are set to αc When the signal (.theta.2) from the second angle detecting means 123 and the signal (.theta.2 ') from the second angle detecting means 123' become .beta.c (step 1), the chucking mechanism 203 is driven (step 2). The table 63 is raised, and the turntable 63 and the hub 58 of the optical disk 53 are engaged.
[0026]
Note that αc is an initial value of the first arm 101 and the first arm 101 ′ when the cartridge 57 is inserted until the hub 58 of the optical disk 53 of the cartridge 57 reaches the turntable 63 as shown in FIG. This is the rotation angle from the position. βc is the rotation angle of the second arm 103 and the second arm 103 ′ from the initial position when the cartridge 57 is inserted until the hub 58 of the optical disc 53 reaches the turntable 63 as shown in FIG. It is.
[0027]
When the chucking is completed (Step 3), the driving of the chucking mechanism 203 is stopped (Step 4), and a series of operations is ended. On the other hand, when the control unit 201 determines that the naked optical disk 53 has been inserted, as shown in FIG. 16, the signal (θ1) from the first angle detection unit 121 and the signal (θ1) from the first angle detection unit 121 ′ are used. ′) Is αb, the signal (θ2) from the second angle detecting means 123 ′ and the signal (θ2 ′) from the second angle detecting means 123 ′ are βb (step 1), and the chucking mechanism 203 is driven (step 1). 2) The turntable 63 is raised, and the turntable 63 and the hub 58 of the optical disk 53 are engaged.
[0028]
Note that αb is the first arm 101 and the first arm 101 ′ when the bare optical disc 53 is inserted until the hub 58 of the bare optical disc 53 reaches the turntable 63 as shown in FIG. This is the rotation angle from the initial position. As shown in FIG. 6A, the initial position of the second arm 103 and the second arm 103 'when the bare optical disc 53 is inserted until the hub 58 of the bare optical disc 53 reaches the turntable 63 as shown in FIG. Is the rotation angle from
[0029]
When the chucking is completed (Step 3), the driving of the chucking mechanism 203 is stopped (Step 4), and the arm driving means 205 is driven to drive the first arm 101, the first arm 101 ', and the second arm. 103, the second arm 103 'is moved away from the outer edge of the bare optical disk 53 (step 5). The signal (θ1) from the first angle detecting means 121, the signal (θ1 ') from the first angle detecting means 121' is αb ', the signal (θ2) from the second angle detecting means 123, the second angle detection When the signal (θ2 ′) from the means 123 ′ becomes βb ′ (step 6), the driving of the arm driving means 205 is stopped (step 7), and a series of operations is ended.
[0030]
Note that αb ′ is the first arm 101 and the first arm 101 ′ when the bare optical disc 53 is inserted until the hub 58 of the bare optical disc 53 reaches the turntable 63 as shown in FIG. 6B. In the state, the first arm 101 and the first arm 101 'are rotated against the urging force, and the first disk receiving portion 131 and the first disk receiving portion 131' are separated from the end surface on the outer edge side of the bare optical disk 53. This is the rotation angle from the initial position in the state. 6b, the state of the second arm 103 and the second arm 103 'when the naked optical disk 53 is inserted until the hub 58 of the naked optical disk 53 reaches the turntable 63, as shown in FIG. Then, the second arm 103 and the second arm 103 ′ are rotated against the urging force, and the second disk receiving portion 133 and the second disk receiving portion 133 ′ are separated from the end surface of the bare optical disk 53 on the outer edge side. Is the rotation angle from the initial position.
[0031]
According to the above configuration, the following effects can be obtained.
(1) At the rotating ends of the first arm 101, the first arm 101 'and the second arm 103, the second arm 103', a first disk receiving portion 131 for holding the bare optical disk 53 and a first disk receiving portion. By providing the portion 131 ', the second disk receiving portion 133, and the second disk receiving portion 133', even if a bare optical disk is inserted, it is not damaged.
(2) When the naked optical disk 53 is held on the turntable 63 by the chucking mechanism 203, the control unit 201 drives the arm driving means 205, and the first arm 101, the first arm 101 ', and the second arm 103, the second arm 103 'is separated from the end surface on the outer edge side of the bare optical disk 53, and is separated by the first disk receiving portion 131, the first disk receiving portion 131', the second disk receiving portion 133, and the second disk receiving portion 133 '. The holding of the bare optical disk 53 is released. Therefore, the optical disk 53 can be rotated immediately after chucking without damaging the naked optical disk 53.
(3) A first angle detecting means 121, a first angle detecting means 121 ', a second angle detecting means 123, and a second angle detecting means 123' for detecting a rotation angle of each arm from an initial position are provided. In the case where the means for detecting only the cartridge 57 and the means for detecting the bare optical disk 53 are provided by determining whether the inserted cartridge is the cartridge 57 or the bare optical disk 53 based on the data from the detecting means, In comparison, the number of detecting means is small, and the size and cost of the apparatus can be reduced.
[0032]
【The invention's effect】
As described above, according to the first aspect of the present invention, since the inserted bare optical disk has a disk receiving portion with which a portion other than the recording area abuts, even if the naked optical disk is inserted, a scratch is prevented. I can't get it.
[0033]
According to the invention described in claim 2, the disc receiving portion is provided on the base having the hole through which the turntable is inserted, so that when the optical disc is inserted, the bare optical disc is not damaged by the base. Can be prevented.
[0034]
According to the third aspect of the present invention, by providing the disk receiving portion on the base side and the member facing the base, that is, by providing the disk receiving portion so as to sandwich the bare optical disk, Even if one of the optical disks is violent, the optical disk is not damaged.
[0035]
According to the fourth aspect of the present invention, since the hardness of the disk receiving portion is smaller than the hardness of the surface material of the optical disk, the optical disk is not damaged.
[0036]
According to the invention as set forth in claim 5, at least one of the base into which the cartridge and the bare optical disk are inserted, and the spindle motor that rotationally drives the turntable are moved, and the optical disk of the inserted cartridge, A chucking mechanism for holding / separating a bare optical disc from / on a turntable; and a cartridge provided on the base, when the cartridge and the bare optical disc are inserted, contacting the cartridge and the side face of the bare optical disc, By providing the disk receiving means for holding the optical disk, even if a naked optical disk is inserted, it is not damaged.
[0037]
According to the invention described in claim 6, when the naked optical disk is held on the turntable by the chucking mechanism, a control unit that releases the disk receiving means from abutting the side surface of the naked optical disk is provided. With this, the optical disk can be rotated immediately after chucking without damaging the naked optical disk.
[0038]
According to the seventh aspect of the present invention, a detecting means for detecting a displacement of the disc receiving means is provided, and the control unit takes in data from the detecting means and inserts a cartridge or a bare optical disc. By discriminating the above, the number of detecting means can be reduced as compared with the case where the means for detecting only the cartridge and the means for detecting the bare optical disk are provided, and the size and cost of the apparatus can be reduced.
[Brief description of the drawings]
FIGS. 1A and 1B are diagrams showing a case where a bare optical disc is inserted according to the first embodiment, and FIG. 1A shows a state immediately after a bare optical disc is inserted and immediately before ejection, and FIG. The figure shows a state in which chucking between the naked optical disk and the turntable is completed.
FIGS. 2A and 2B are diagrams illustrating a case where a cartridge accommodating an optical disk according to the first embodiment is inserted, and FIG. 2A illustrates a state immediately after the cartridge is inserted and immediately before ejection; The figure shows a state where chucking between the optical disk in the cartridge and the turntable is completed.
FIG. 3 is a diagram showing a modification of the first embodiment.
4A and 4B are diagrams illustrating a case where a bare optical disc is inserted according to the second embodiment, and FIG. 4A illustrates a state immediately after a bare optical disc is inserted and immediately before ejection, and FIG. The figure shows a state in which chucking between the naked optical disk and the turntable is completed.
FIG. 5 is a configuration diagram of an optical disc recording / reproducing apparatus in which a bare optical disc is inserted according to a third embodiment as viewed from above.
FIG. 6 is a configuration diagram of an optical disc recording / reproducing apparatus in which a bare optical disc is inserted according to a third embodiment as viewed from above.
FIG. 7 is a configuration diagram of an optical disc recording / reproducing apparatus in which a bare optical disc is inserted according to a third embodiment, as viewed from above.
FIG. 8 is a configuration diagram of an optical disc recording / reproducing apparatus in which a cartridge according to a third embodiment is inserted, as viewed from above.
FIG. 9 is a configuration diagram of an optical disc recording / reproducing apparatus in which a cartridge according to a third embodiment is inserted, as viewed from above.
FIG. 10 is a configuration diagram of an optical disc recording / reproducing apparatus in which a cartridge according to a third embodiment is inserted, as viewed from above.
11A is a cross-sectional view taken along line AA in FIG. 7A, and FIG. 11B is a cross-sectional view taken along line BB in FIG. 7B.
FIG. 12 is a cross-sectional view taken along section line CC of FIG. 10 (b).
FIG. 13 is a block diagram illustrating an electrical configuration of an optical disc recording / reproducing apparatus according to a third embodiment.
FIG. 14 is a flowchart illustrating the operation of the control unit in FIG. 13;
FIG. 15 is a flowchart illustrating the operation of the control unit in FIG. 13;
FIG. 16 is a flowchart illustrating the operation of the control unit in FIG. 13;
17A and 17B are views showing the appearance of a conventional optical disk (for example, MO, CD-R, PD, etc.), wherein FIG. 17A is a perspective view with the front face up, and FIG. FIG.
[Explanation of symbols]
51 Base
53 optical disk
54 recording area
56 Disc receiver

Claims (7)

On at least one surface side, an optical disc formed inside a disc diameter and outside a turntable outer diameter of a turntable holding the disc, and having a recording area capable of optical recording by light incidence is formed. In an optical disk recording / reproducing apparatus which can be inserted in any state of being housed in a cartridge and the optical disk is in a naked state and capable of recording / reproducing on / from the optical disk,
An optical disc recording / reproducing apparatus, comprising: a disc receiving portion to which a part other than the recording area of the inserted bare optical disc abuts. The disk receiving section,
2. The optical disk recording / reproducing apparatus according to claim 1, wherein the optical disk recording / reproducing apparatus is provided on a base having a hole through which the turntable is inserted. The disk receiving section,
The optical disk recording / reproducing apparatus according to claim 2, wherein the optical disk recording / reproducing apparatus is provided on a member facing the base. The disk receiving section,
4. The optical disk recording / reproducing apparatus according to claim 1, wherein the hardness is lower than the hardness of a surface material of the optical disk. On at least one surface side, an optical disc formed inside a disc diameter and outside a turntable outer diameter of a turntable holding the disc, and having a recording area capable of optical recording by light incidence is formed. In an optical disk recording / reproducing apparatus which can be inserted in any state of being housed in a cartridge and the optical disk is in a naked state and capable of recording / reproducing on / from the optical disk,
By moving at least one of the cartridge and the base into which the bare optical disc is inserted, and the spindle motor for rotating the turntable, the inserted optical disc of the cartridge and the bare optical disc are held / separated from the turntable. A chucking mechanism to
A disc receiving means is provided on the base, the disc receiving means for holding the cartridge and the optical disc in contact with a side surface of the cartridge and the bare optical disc when the cartridge and the bare optical disc are inserted. Optical disk recording and playback device. 6. The apparatus according to claim 5, further comprising a control unit configured to release the abutment of the disk receiving means on the side surface of the naked optical disk when the naked optical disk is held on the turntable by the chucking mechanism. Optical disk recording and reproducing device. Providing detection means for detecting the displacement of the disk receiving means,
7. The optical disc recording / reproducing apparatus according to claim 6, wherein the control unit fetches data from the detection unit and determines whether the inserted data is a cartridge or a bare optical disc.

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