KR0147184B1 - Optical disk with control pattern and apparatus for reproducing the same - Google Patents

Abstract

The present invention relates to an apparatus for reproducing an optical disc having a signal pattern capable of reproducing the signal pattern of the optical disc, which has a signal pattern related to optical disc reproduction at a predetermined portion, into recognizable data. To this end, the present invention relates to an audio signal or an audio / video. In an optical disc reproducing system in which a reproducing operation for an optical disc on which a signal is recorded is performed under the control of the servo control means 81, a disc type is provided on a label portion of the other side corresponding to one side of the top and bottom surfaces of the optical disc, the lead-in area being partitioned. The identification signal pattern 100 is formed, and under the control of the servo control means 81, the disk pattern discriminating signal pattern 100 is detected so that the bottom surface of the clamper 5 opposite to the signal pattern 100 can be detected. The type of the optical disc based on the signal pattern detecting means 71 provided in a predetermined portion and the detection signal from the signal pattern detecting means 71; Discrimination means (73) for discriminating the type and applying a discrimination signal to the servo control means (81), wherein the servo control means (81) selects the optical disc a predetermined number of times when the first regeneration mode setting signal is input. The disk pattern discrimination signal pattern 100 is detected by the signal pattern detecting means 71 during the rotation.

Description

Optical disc player with signal pattern

1 is a block diagram of a general optical disc playback system.

2 is a diagram showing an upper surface of an optical disk having a signal pattern according to an embodiment of the present invention.

3 is a diagram showing an upper surface of an optical disk with a signal pattern according to another embodiment of the present invention.

4 is a block diagram illustrating a playback apparatus of an optical disk having a signal pattern according to an embodiment of the present invention.

5 is a view showing an example of installation of the signal pattern detecting means shown in FIG.

6 is a block diagram illustrating a playback apparatus of an optical disc with a signal pattern according to another embodiment of the present invention.

FIG. 7 is a view showing an example of installation of the light emitting element and the light receiving element shown in FIG.

* Explanation of symbols for main parts of the drawings

11, 12: optical disk 71: signal pattern detection means

73: discrimination means 75: signal conversion unit

77: data storage unit 79: control unit

81: servo control means 83: motor speed detection means

85 light emitting element 87 light receiving element

89: signal conversion unit 91: control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for reproducing an optical disc having a signal pattern, and more particularly, to an optical disc having a signal pattern capable of reproducing, as recognizable data, a signal pattern on an optical disc having a signal pattern related to optical disc reproduction at a predetermined portion. Relates to a device.

Currently, signal areas recorded on optical discs such as compact discs or laser discs, which are noted as a large-capacity information recording medium, are roughly classified into lead-in areas, program areas, and lead-out areas from the inside of the optical disc. -Out Area). In the lead-in area, the address (position on the disc) of the information recorded on the optical disc, the reproduction time and the absolute reproduction time of each information are recorded, which is called a TOC (Table of Contents) area. In the program area, at least one piece of music information is recorded, for example, when music information is loaded on the optical disc, and the lead-out area contains information indicating the end of the program.

In general, according to the general optical disc reproducing system for reproducing the information recorded on the compact disc or the laser disc, a state in which the disc information of the optical disc is retained by reading information in the lead-in area (or TOC area) located inside the optical disc. In accordance with a signal such as a music selection command signal input from the outside, the disc information is reproduced sequentially or arbitrarily while referring to the disc information.

In other words, as shown in FIG. 1, the general optical disc reproducing system is a servo that is in charge of overall servo control of the optical disc reproducing system when the mode setting unit 28 sets the regeneration mode after the power-on mode is set. The microcomputer 30, which can be referred to as a control means, recognizes this and controls the spindle motor control unit 14 to drive the spindle motor 12 to rotate the optical disc 10 such as a compact disc or a laser disc and at the same time the pickup control unit ( 32, the pickup transfer motor 34 is driven to transfer the optical pickup device 60 to the initial position, and then the optical disc from the motor rotation speed detection sensor 44 for detecting the rotation speed of the spindle motor 12. When the normal rotational speed of 10 is detected, the microcomputer 30 controls the pickup control unit 32 to drive a light emitting element 36 such as a laser diode so that the laser light is transmitted to the optical disc 10. So that four. Here, the light emitted from the light emitting element 36 is, for example, the parallel beam forming means 65, the beam splitter 42 and the objective lens (Grating) 38 and the collimator lens (Collimate Lens) 40 The light irradiated to the optical disc 10 via the medium 46 and reflected from the optical disc 10 is again made of the objective lens 46 and the beam splitter 42, for example, the focusing lens 52 and the cylindrical lens 54. The focusing means 70 is applied to a light receiving element 56 such as a photodiode.

In addition, the focus controller 16 detects a focus error signal from the output signal of the light receiving element 56 and controls the focusing driving device 50 for moving the objective lens 46 to move the objective lens 46 up and down. The focusing error is corrected by moving, and the tracking control unit 18 detects a tracking error signal from the output signal of the light receiving element 56 to control the left and right tracking driving element 48 of the objective lens 46. The tracking error is corrected by moving the objective lens 46 horizontally.

In addition, the preamplifier 20 amplifies and smoothes the signal detected by the light receiving element 56 to remove noise and distortion, and then performs waveform shaping, and the data strobe unit 22 performs the preamplifier 20. For example, the pulse width is measured by measuring the time interval from the edge to the edge of the waveform-formed and output signal, and the signal processing unit 24 outputs the signal output from the data strobe unit 22 to the optical disc 10. For example, the interleaved and scrambled states performed during recording are maintained as they are, so that the interleaved and scrambled processes are canceled and output to the digital / analog (D / A) converter 26, for example.

As described above, in the above-described optical disc reproducing operation, the first operation to be performed is to determine the type of the optical disc currently seated on the tentable. As an example of the optical disc type discrimination method, the size of the optical disc is determined and the There is a way to determine the type.

That is, when loading is performed with any optical disk mounted on the tray, the optical pickup apparatus moves to the outer peripheral end of the preset compact disk, irradiates the laser light to detect the reflected light, and then moves to the outer peripheral position of the laser disk. If the reflected light is irradiated with the laser light, it is discriminated by the laser disk, whereas if the reflected light is not detected, it is discriminated by the compact disc.

However, according to the method of disc type determination by the size detection of an optical disc using the optical pickup device described above, the track access of the optical disc from the point of time when the optical pick-up device moves to the position of the outer peripheral end of the optical disc or the disc type is determined. There is a disadvantage that the playback time of the optical disc is considerably delayed, for example, because the transfer time to the TOC (Table of Content) area is consumed.

Also, similarly to the above, there is a method of determining the type of optical disc, and the operation thereof is as follows.

First, the laser disk is initially set unconditionally, and when the loading is completed, the optical pickup device is set to be positioned outside the compact disc having a diameter of 12 cm and the focusing operation is performed by the objective lens of the optical pickup device. In this case, a laser disk having a diameter of 20 cm and a laser disk having a diameter of 30 cm can be accurately focused, but focusing is not performed when a compact disk having a diameter of 8 and 12 cm or an optical disk is not mounted.

Here, a method of distinguishing a laser disk having a diameter of 20 and 30 cm in which the correct focusing is performed by the focusing operation will be described. Since the outer diameter and the weight of the two laser disks are different, the moment of inertia is also largely used. By driving the spindle motor, the cycle of the FG pulse detected by the frequency generator sensor (FG sensor) of the spindle motor is checked and classified.

In other words, when a 30cm diameter laser disk with a large moment of inertia is mounted on a tray, the speed increases slowly compared to a 20cm diameter laser disk during the acceleration operation of the spindle motor, thus reaching a disk speed of approximately 1800 rpm, which enables data reading from the optical disk. This is slower than laser discs with a diameter of 20 cm. Based on this, it is possible to know which optical disk is the current optical disk.

On the other hand, if the focusing operation is performed by positioning the position of the optical pickup device outward from the compact disc having a diameter of 12 cm, and if the focusing operation is not accurate, the optical pickup device is moved to position the inside of the compact disc having a diameter of 8 cm. If it is not checked by focusing, it is judged that there is no optical disc, while when focusing, it is judged as a compact disc and moved to the TOC lead in area. The TOC lead-in area of the compact disc of 8 cm diameter and 12 cm diameter Since the positions are different from each other, discrimination is possible.

However, according to the optical disc type discrimination method, since the type of the optical disc can be determined only through many paths, the fire time is very slow and the mechanical operations such as the spindle motor start and the optical pickup device are required several times. Will cause problems in the durability and reliability of the.

Since the reproducing operation of the optical disc is performed only when the rotation speed of the spindle motor is normally (for example, about 1500 to 1800 rpm), in order to detect the rotation speed of the spindle motor 12, for example, a circle in which a plurality of slits are formed along the outer circumferential side thereof. The plate-shaped disk wheel should be installed integrally with the turntable at a predetermined portion of the lower end of the turntable, but the work process according to the installation is not easy.

Accordingly, the present invention has been made in view of the above circumstances, and an object thereof is to provide an apparatus for reproducing an optical disc having a signal pattern which makes it possible to easily reproduce the signal pattern during a reproducing operation of an optical disc on which a signal type for disc type discrimination is formed. In providing.

It is still another object of the present invention to provide an apparatus for reproducing an optical disc having a signal pattern which makes it possible to easily detect the number of disc revolutions by using the signal pattern during a reproducing operation of an optical disc on which a revolution number detection signal pattern is formed. have.

In an optical disk having a signal pattern according to an embodiment of the present invention, in an optical disk having a lead-in area partitioned on one surface, a signal pattern for rotation speed detection is patterned on a label portion of the other surface corresponding to the lead-in area.

In an optical disk having a signal pattern according to another embodiment of the present invention, in an optical disk having a lead-in area partitioned on one surface, a signal pattern for rotation speed detection is patterned on a label portion of the other surface corresponding to the lead-in area.

Here, the rotation speed detection signal pattern is formed of a concave-convex pit pattern in which the reflective surface and the non-reflective surface maintain equal intervals.

In addition, a metal film having a high reflectance is deposited on the reflective surface of the uneven fit pattern.

Preferably, the metal film is made of aluminum having a very thin thickness.

In addition, the predetermined portion of the uneven fit pattern is formed with a reference pit for setting the initial position of the rotation speed detection operation.

On the other hand, the apparatus for reproducing an optical disc with a signal pattern according to an embodiment of the present invention is an optical disc reproducing system in which a reproducing operation for an optical disc on which an audio signal or an audio / video signal is recorded is performed under the control of servo control means. A disk type discrimination signal pattern is formed on a label portion of the other surface corresponding to one surface of the lead-in area partitioned from the upper and lower surfaces of the optical disk, and the disk type discrimination signal pattern is detected under the control of the servo control means. Discriminating means for discriminating the type of the optical disk based on a signal pattern detecting means provided in a predetermined portion of the lower surface of the clamper opposite to the signal pattern, and applying a discriminating signal to the servo control means based on the detected signal from the signal pattern detecting means. The servo control unit is further configured to receive the first regeneration mode setting signal. The optical disc is rotated a predetermined number of times and the signal pattern detecting means detects the disc type discriminating signal pattern during the rotation.

The signal pattern detecting means is provided in a predetermined portion of the bottom surface of the clamper opposite to the signal pattern.

The discriminating means includes a signal converting unit for binarizing the detection signal from the signal pattern detecting means, a data storage unit for storing predetermined disk type determination reference data in advance, and reference data stored in the data storage unit. And a control unit for comparing the signals from the signal converting unit to determine the type of the current optical disk which is waiting for reproduction, and then applying the determination signal to the servo control means.

Finally, an optical disc reproducing apparatus having a signal pattern according to another embodiment of the present invention is directed to an optical disc reproducing system in which a reproducing operation for an optical disc on which an audio signal or an audio / video signal is recorded is performed under the control of servo control means. And forming a rotation speed detection signal pattern on a label portion of the other surface corresponding to one surface of the lead-in area of the upper and lower surfaces of the optical disk, and rotating the optical disk under the control of the servo control means. And motor speed detection means for detecting the current motor speed based on the speed detection signal pattern and applying the same to the servo control means.

Preferably, the rotation speed detection signal pattern is formed of a concave-convex pit pattern in which the reflective surface and the non-reflective surface maintain equal intervals.

Here, a metal film having a high reflectance is deposited on the reflective surface of the uneven fit pattern.

In addition, the metal film is made of very thin aluminum.

Further, at a predetermined portion of the uneven pit pattern, a reference pit for setting an initial position of the rotation speed detection operation is formed.

The motor speed detecting means may include a light emitting device that emits a predetermined beam toward a signal pattern of the optical disk, a light receiving device that receives a beam reflected from a reflecting surface of the signal pattern, and a signal from the light receiving device. And a control unit for calculating the current motor speed based on the signal from the signal converting unit and applying it to the servo control means.

Here, the light emitting element and the light receiving element are installed on the bottom surface of the clamper so as to face the signal pattern while maintaining a predetermined distance therebetween, and the light emitting element and the light receiving element are provided to be biased with a predetermined angle to facilitate light emission and light reception with respect to the reflective surface of the signal pattern. .

According to the present invention configured as described above, a signal pattern for facilitating disc type discrimination or rotational speed detection operation is formed on the label portion of the other surface corresponding to one surface where the lead-in area of the optical disk is partitioned, thereby discriminating the means for reproducing the optical disk. Can determine the type of the current optical disc on the basis of the signal detected by the signal pattern detection means, and the current rotation speed is detected by the motor rotation speed detection means when the optical disc is rotated.

Hereinafter, with reference to the accompanying drawings will be described the present invention in more detail.

2 is a view showing an upper surface of an optical disk having a signal pattern according to an embodiment of the present invention, the upper surface corresponding to the lead-in area partitioned on the lower surface of the optical disk 11 seated on a turntable (not shown). On the label part, a bar code for discriminating the type of the optical disk 11 (for example, a compact disk having a diameter of 8 cm, a compact disk having a diameter of 12 cm, a laser disk having a diameter of 20 cm, and a laser disk having a diameter of 30 cm) can be determined. A signal pattern composed of (Bar Code) 100 is formed.

3 is a view showing an upper surface of an optical disk having a signal pattern according to another embodiment of the present invention, wherein a label formed on the upper surface of the optical disk 12 corresponds to a lead-in area on the lower surface of the optical disk 12, and a predetermined reflective surface 1 ) And a signal pattern 110 for detecting the rotational speed of the uneven fit pattern formed at even intervals of the non-reflective surface 2, and a metal film such as aluminum having a high reflectance is deposited very thinly on the reflective surface 1. The predetermined portion of the uneven pit pattern is formed with a reference pit (for example, a pit having a length of approximately three times or more than the length of the non-reflective surface 2) which becomes an initial position when the rotation speed detection operation is performed.

4 is a block diagram illustrating a reproducing apparatus of an optical disk having a signal pattern according to an embodiment of the present invention, and FIG. 5 is a diagram showing an example of installation of signal pattern detecting means shown in FIG. An embodiment of preferably comprises a signal pattern detecting means 71 and a discriminating means 73.

The signal pattern detecting means 71 performs the overall servo operation (e.g., focus servo, tracking servo, pickup servo) of the optical disc reproducing system as the optical disc 11 on which the audio signal or the audio / video signal is recorded is seated on the turntable 4; Under the control of the servo control means 81 for controlling the operation of the < Desc / Clms Page number 2 > and the like. The signal pattern 100 for disc type discrimination formed on the upper surface of the optical disc 11 is detected and applied to the discriminating means 73.

Here, the signal pattern detecting means 71 is made of a bar code scanner capable of reading the disc type discriminating signal pattern 100 formed in the form of a bar code on the optical disc 11, and the signal pattern detecting means. The 71 is provided in the bottom surface of the clamper 5 formed at the front end of the clamper arm 6, but is installed so as not to match the upper surface of the optical disk 11.

The determination means 73 discriminates the type of the optical disc 11 currently seated on the turntable 4 based on the signal detected and applied by the signal pattern detection means 71 and the servo control means 81. The discrimination signal is applied to

In particular, the discriminating means 73 is composed of a signal converter 75, a data storage 77, and a controller 79.

The signal converter 75 is made of, for example, an analog / digital converter to binarize an electrical signal for a bar code read by the signal pattern detecting unit 71.

The data storage unit 77 is a reference data for determining a predetermined disk type that can be compared with the signal converted by the signal conversion unit 75 (for example, a compact disk having a diameter of 8 cm and a diameter of 12 cm Case 1, 10 for a 20 cm diameter laser disk, and 11 for a 30 cm diameter laser disk are previously stored, for example, a memory element consisting of an EEPROM.

The control unit 79 compares the signal input from the signal conversion unit 75 with each reference data stored in the data storage unit 77 to determine the type of the optical disc 11 currently seated on the turntable 4. Then, the determined signal is applied to the servo control means 81.

Referring to the operation of an embodiment of the present invention configured as described above are as follows.

In the description of one embodiment of the present invention, the optical disc is set and described as the optical disc 11 of FIG. 2 in which a signal pattern for disc type discrimination (i.e., a bar code form) is recorded.

Once the optical disc 11 is correctly supported on the turntable 4 by the clamper 5 after the regeneration mode is set, the servo control means 81 drives the spindle motor 12 to rotate the optical disc 11. In this case, the signal pattern detecting means 71 is a disc type recorded on the upper surface of the optical disk 11 while the optical disk 11 is rotated several times (about 1 to 2 times) under the control of the servo control means 81. The discrimination signal pattern is read.

The read signal is digitally converted into a binarized signal by the signal conversion unit 75 and applied to the control unit 79. The control unit 79 mutually converts the reference data stored in the data storage unit 77 and the input signal. In comparison, the type of the optical disk 11 currently seated is determined. For example, if the input signal is 0, it is determined as a compact disc having a diameter of 8 cm. If the input signal is 1, it is determined as a compact disc having a diameter of 12 cm. If the input signal is 10, a diameter is 20 cm. If the input signal is 11, it is discriminated as a laser disk having a diameter of 30 cm. Therefore, the discrimination signal is applied to the servo control means 81 to perform servo control of the optical disk.

FIG. 6 is a block diagram illustrating an apparatus for discriminating an optical disk having a signal pattern according to still another embodiment of the present invention. FIG. 7 is a view showing an example of installation of a light emitting device and a light receiving device shown in FIG. Another embodiment of the present invention is constituted by the motor speed detecting means 83.

The motor rotation speed detecting means 83 rotates after the optical disk 12 on which the audio signal or the audio / video signal is recorded is seated on the turntable 4, and then rotates the entire servo control (e.g., focus servo control, Under the control of the servo control means 81 responsible for tracking servo control, pickup servo control, etc., the current motor speed (for example, based on the speed detection signal pattern 110 formed on the upper surface of the optical disc 12) The number of revolutions of the disc) may be detected and applied to the servo control means 81.

Here, the motor speed detecting means 83 is composed of a light emitting element 85, a light receiving element 87, a signal conversion unit 89, and a control unit 91.

The light emitting device 85 is fixed to the bottom surface of the clamper 5 so as to face the rotation speed detection signal pattern 110 formed on the upper surface of the optical disk 12 and under the control of the controller 91 to be described later. A predetermined beam (eg, a laser beam) is emitted toward the pattern 110.

The light receiving element 87 is fixed to the bottom surface of the clamper 5 while maintaining a predetermined distance from the light emitting element 85, and is reflected by the reflecting surface 1 of the signal pattern 110. The beam will be received.

Here, the light emitting element 85 and the light receiving element 87 are installed to be deflected by a predetermined angle with respect to the reflecting surface 1 so as to facilitate light emission / reception of the reflecting surface 1 of the signal pattern 110. This is preferred.

In addition, the signal converter 89 is configured as, for example, an analog / digital converter, and when the low-level signal (for example, a signal without a received beam) is input from the light receiving element 87, the binary data 0 is inputted. When a high level signal (eg, a signal when there is a received beam) is input from the light receiving element 87, the binarization data 11 is applied to the control unit 91.

In addition, the control unit 91 has a predetermined rotation speed detection program therein, and controls the operation of the light emitting element 85 under the control of the servo control unit 81 and from the signal converting unit 89. The current motor speed is detected and applied to the servo control means 81 based on the applied signal.

Referring to the operation of another embodiment of the present invention configured as described above are as follows.

In the description of another embodiment of the present invention, the optical disc is set and described as the optical disc 12 of FIG. 3 in which the rotation speed detection signal pattern (i.e., the uneven fit pattern) is recorded.

Once the optical disc 12 is correctly supported on the turntable 4 by the clamper 5 after the regeneration mode is set, the spindle motor 12 is driven to control the optical disc 12 under the control of the servo control means 81. In addition, the control unit 91 receives the rotation speed detection control signal from the servo control means 81 and controls the light emitting element 85 to perform light emission. Accordingly, the beam emitted from the light emitting element 85 is incident on the uneven fit pattern 110 formed on a predetermined portion of the upper surface of the optical disc 12 currently rotating in one direction, and the reflective surface of the uneven fit pattern 110 The beam reflected at (1) is incident on the light receiving element 87. Subsequently, the beam received by the light receiving element 87 is converted into an electrical signal, input to the signal conversion unit 89, converted into a digital signal by the signal conversion unit 89, and transmitted to the control unit 91.

Thus, the controller 91 detects the current motor speed based on the internal rotation speed detection program. For example, the controller 91 includes the uneven fit pattern 110 formed on the upper surface of the optical disc 12. The number of revolutions of the optical disk 12 that is currently rotating is determined by determining how many times the beam reflected by the reflecting surface 1 after the reference pit 3 is received per rotation based on the reference pit 3. The servo control means 81 is applied to the servo control means 81, and the servo control means 81 performs the servo control operation for the current optical disc based on the rotation speed detection signal.

According to the present invention as described above, the signal pattern for disc type discrimination is recorded on the upper surface (that is, the area corresponding to the lead-in area) of the optical disc seated on the turntable, and the signal pattern can be discriminated simply. Not only the disc type discrimination is performed, but also the mechanical movement of the optical pickup device is not required, and the reliability is greatly improved.

In addition, the rotation speed detection signal pattern is recorded on the upper surface (that is, the area corresponding to the lead-in area) of the optical disk seated on the turntable, and the rotation speed can be detected using the signal pattern, thereby making the optical disk more efficient. Will increase.

Claims (8)

An optical disc reproducing system in which a reproducing operation for an optical disc on which an audio signal or an audio / video signal is recorded is performed under the control of the servo control means 81, wherein the lead-in area of the upper and lower surfaces of the optical disc corresponds to one surface partitioned. The disk type discrimination signal pattern 100 is formed on the label portion of the other surface, and is opposed to the signal pattern 100 so as to detect the disk type discrimination signal pattern 100 under the control of the servo control means 81. The type of the optical disc is discriminated based on the signal pattern detecting means 71 provided in a predetermined portion of the bottom of the clamper 5 and the detection signal from the signal pattern detecting means 71, and the servo control means 81 is determined. And a discriminating means (73) for applying a discriminating signal. The servo control means (81) rotates the optical disc a predetermined number of times when the first reproducing mode setting signal is input. By said signal pattern detection means 71 in the power of the optical disc playback apparatus with a signal pattern characterized in that the control such that the pattern detection signal 100 for the disc type determination. 2. The discriminating means (73) according to claim 1, wherein the discriminating means (73) stores in advance a signal converting portion (75) for binarizing the detection signal from the signal pattern detecting means (71), and predetermined data for determining the disc type. Comparing the signal from the signal conversion unit 75 based on the data storage unit 77 and the reference data stored in the data storage unit 77 to determine the current optical disc type to be reproduced, and then the determination signal. And a control unit (79) for applying to the servo control means (81). In an optical disc reproducing system in which a reproducing operation for an optical disc on which an audio signal or an audio / video signal is recorded is performed under the control of the servo control means 81, a lead-in area of the upper and lower surfaces of the optical disc corresponds to one surface partitioned. The rotation speed detection signal pattern 110 is formed on the label portion of the other surface, and the rotation speed detection signal pattern 110 is a concave-convex pit pattern in which the reflective surface 1 and the non-reflective surface 2 maintain equal intervals. As the optical disk is rotated, the current motor speed is detected based on the speed detection signal pattern 110 under the control of the servo control means 81 to the servo control means 81. An apparatus for reproducing an optical disc having a signal pattern, characterized in that it comprises a motor speed detection means (83) to be applied. 4. The apparatus of claim 3, wherein a metal film having a high reflectance is deposited on the reflecting surface (1). 5. The apparatus of claim 4, wherein the metal film is made of aluminum having a very thin thickness. 4. The reproducing apparatus of an optical disc with a signal pattern according to claim 3, wherein a reference pit (3) for setting an initial position of the rotational speed detection operation is formed at a predetermined portion of the uneven pit pattern. 4. The light emitting device (85) according to claim 3, wherein the motor speed detecting means (83) emits a predetermined beam toward the signal pattern (110) of the optical disc, and the reflecting surface (1) of the signal pattern (110). ) A light receiving element 87 for receiving a beam reflected by the light source, a signal converting unit 89 for binarizing a signal from the light receiving element 87, and a signal from the signal converting unit 89 And a control unit (91) for calculating the motor rotational speed of the motor and applying it to the servo control means (81). The method of claim 7, wherein the light emitting element 85 and the light receiving element 87 is provided on the bottom surface of the clamper 5 so as to face the signal pattern 110 while maintaining a predetermined distance from each other, the signal pattern ( An apparatus for reproducing an optical disc having a signal pattern, characterized in that it is provided to be deflected by a predetermined angle with respect to the reflective surface (1) of 110 to facilitate light emission and light reception.