KR100845291B1 - Dust removal apparatus of optical disc driver - Google Patents

Abstract

A dust removal apparatus of an optical device is provided to control high frequency applied to an actuator by using a microcomputer so as to remove dust effectively and enhance play and recording performance of the optical device. A dust removal apparatus of an optical device comprises an objective lens(31), an actuator(32), a microcomputer(33), and a dust amount sensor(35). The objective lens condenses laser beams. The actuator controls tracking and focus by driving the objective lens, and removes impurities attached to the objective lens by generating vibration. The microcomputer compares an RF signal reflected from an optical disk with a pre-set RF signal to judge whether impurities are attached to the lens, and controls the drive of the actuator and the frequency applied to the actuator. The dust amount sensor senses the dust amount attached to the objective lens.

Description

Dust removal apparatus of optical device

1 is a configuration diagram of an optical device according to an embodiment of the present invention,

2 is a block diagram of a pickup module of the optical device according to an embodiment of the present invention,

3 is a flowchart illustrating a method for removing dust from an optical device according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: optical disc 20: spindle motor

30: pickup module 31: lens

32: actuator 33: microcomputer

34: memory 35: dust level sensor

36: feeding motor 40: RF signal part

The present invention relates to an apparatus for removing dust of an optical device. More specifically, when dust is attached to a lens of an optical pickup and the performance is degraded, the dust is removed by high frequency vibration of the pickup lens to improve the playback and recording performance of the disk. It relates to a dust removing device of the optical device.

The optical recording and reproducing apparatus is growing into a general data storage and reproducing apparatus, and the recording density is increasing due to many technological developments. Recently sold Blu-ray discs can hold up to 25GB of data on one side, and multiple layers allow for more data. As the recording density increases, the disadvantage that data errors due to foreign substances on the surface of the disc are liable to increase. In the case of pickup, the presence of foreign substances such as dust in the objective lens may cause errors in data recording and playback, and may cause consumer claims.

In general, the deck operation is to rotate the disk by the spindle motor and the pickup is moved around and around by the feeding motor to read or write information of the disk. At this time, when the dust is introduced into the deck, air flow is generated due to the rotation of the disk, and the dust is evenly distributed in the deck by the flow, and in particular, the dust may be attached to the lens of the pickup. In this case, an error may occur easily when reading or writing information on the disk, and an operation error may occur due to actual dust.

Dust attached to the disc recording surface during disc rotation can be removed by the consumer, but only through the AS if it is actually attached to the pickup lens.

In this case, AS is washed with volatile alcohol to remove dust, but the lens is stained, so its performance is lower than the initial state. Therefore, it is very difficult for consumers to deal with dust.

Also, if there are dust or disc scratches on the lens, if the high frequency (RF) signal is deteriorated and a defect signal is generated, the pickup is repeatedly operated to find the signal, and the servo operation or the screen does not work even if it proceeds. Cracking, etc. appear. In particular, in the lead-in area, the disc is not recognized even when it is determined as the unloading of the disc.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to remove dust by vibration of the high frequency of the pickup lens when the dust inside the deck is attached to the lens and the recording and playback performance is degraded It is to provide a dust removing device of the optical device that can improve the disc playback and recording performance.

Another object of the present invention is to provide a dust removing device for optical devices that can minimize consumer complaints and reduce service costs by purifying itself by changing frequencies in various modes.

Technical means according to the present invention for achieving the above object is an objective lens for condensing a laser beam to form an optical spot on the optical disk; An actuator for controlling tracking and focus by driving the objective lens and generating vibration to remove foreign substances attached to the objective lens; And a microcomputer that controls driving of the actuator and controls a frequency applied to the actuator so that the actuator vibrates.

According to the present invention, it is possible to minimize consumer complaints and reduce AS costs by adding self-purifying capacity before receiving AS for contamination caused by dust or foreign substances when using optical devices, thereby increasing customer satisfaction and reproducing and recording performance, thereby improving quality reliability. It can be secured.

In addition, by removing the foreign matter attached to the lens automatically in the periodic cleaning mode it can prevent the accumulation of dust on the lens.

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

1 is a configuration diagram of an optical device according to an embodiment of the present invention, an optical disc 10, a spindle motor 20, a pickup module 30, an RF signal unit 40, a signal processing unit 50, a decoder 60 ), A buffer 70, a servo unit 80, a laser diode driver 90, a control unit 100, an encoder 110, a storage unit 120, and a codec 130, and FIG. 2 shows a pickup module ( A detailed configuration diagram of 30 includes a lens 31, an actuator 32, a microcomputer 33, a memory 34, a dust amount sensor 35, and a feeding motor 36. As shown in FIG.

The optical disc 10 is driven to rotate by the spindle motor 20. The spindle motor 20 rotates the motor drive unit (not shown) by the control drive signal generated from the controller 100 to rotate the optical disc 10. Let's do it.

The optical disc can be any one of CD-R, CD-RW, DVD-R, DVD-RW, DVD-RAM, HD DVD-RW, HD DVD-R, Blue-ray Disc (BD) -RE or BD-R. An optical disc is used, and such optical discs are optical discs capable of recording data at least once. Among them, the R type can write data once, and the RW, RE and RAM types can write data twice or more (about thousands to hundreds of thousands of times).

The pickup module 30 picks up the reflected light by shining a laser at a predetermined position of the disk, and the pickup module 30 detects the lens 31, the actuator 32, the microcomputer 33, the memory 34, and the amount of dust. It consists of a sensor 35 and a feeding motor 36, the laser beam emitted from the pickup module is composed of a laser diode, the receiving of the reflected laser is composed of a photodiode.

In addition, the laser light emitted from the pickup module 30 reads a signal by illuminating the surface of the optical disc. Since the minutely fine pit track marked on the optical disc must be recognized as a non-contact, a case of vibrating the optical disc that rotates at a high speed in the mechanism occurs. It will automatically position the pickup so that the track fit is always in focus. For this purpose, focusing and tracking are controlled, that is, the pickup module 30 controls the actuator 32 according to the instruction of the microcomputer 33 to drive the objective lens 31 in the focus direction and the track direction.

In addition, the microcomputer 33 of the pickup module 30 controls the driving of the actuator 32 to control the direction of focusing and tracking of the objective lens 31, and the range of the reference RF signal is preset in the memory 34. When the RF signal transmitted from the RF signal unit 40 and the reference RF signal extracted from the memory 34 are compared, and the RF signal transmitted from the RF signal unit 40 is out of the range of the reference RF signal, the objective lens ( It is determined that foreign matter such as dust is attached to 31, and a frequency is applied to the actuator 32 to control the vibration.

The frequency applied to the actuator 32 is preferably an ultrasonic frequency of 20kHz or more.

In addition, the frequency applied to the actuator 32 is a frequency that gradually increases from a frequency of 0 Hz, or a frequency of gradually increasing and then decreasing and increasing again between a minimum frequency and a maximum frequency at a predetermined range of frequencies.

The frequency is set in the microcomputer 33 in a plurality of modes according to the frequency output method, and the actuator 32 may be vibrated at a frequency corresponding to each mode selected by the user.

In addition, when it is determined that the foreign matter is attached to the objective lens 31, the microcomputer 33 moves the pickup module 30 to move the pickup module 30 to the outermost circumference of the optical disc 10 or an area not in contact with the optical disc 10. 36, and when the pickup module 30 is moved by the feeding motor 36, and then controls the vibration drive of the actuator 32 for removing foreign matter.

Here, the feeding motor 36 is a motor for moving the pickup module 30 to the position of the optical disc 10 to be reproduced. When the dust of the objective lens is removed, the feeding module 36 moves the pickup module to an area not in contact with the optical disc.

In addition, when the dust removal command is input from the user, the microcomputer 33 detects the command signal and then controls the actuator 32 at the frequency of the mode selected by the user to generate vibration to attach the dust to the objective lens 31. Remove it.

In addition, when the optical disc 10 is inserted into the tray and a playback signal instructed by the user is input, the microcomputer 33 detects whether the foreign matter is attached before performing the playback operation and vibrates the actuator to perform the foreign material removal operation. At this time, the microcomputer 33 repeatedly detects whether the foreign matter is attached, and if it is determined that the foreign matter removal operation is necessary, the microcomputer 33 controls to output a message informing the user of the necessity of removing the foreign matter through a display unit (not shown). When the foreign matter removal command signal is input by the control the actuator 32 to vibrate so that the foreign matter removal operation is performed.

In addition, the microcomputer 33 periodically detects the adhesion of the foreign matter even during the regeneration operation, and controls the vibration drive of the actuator 32 to remove the foreign matter when it is determined that the foreign matter is attached to the objective lens 31.

In addition, when the microcomputer 33 is set to the automatic mode, it is possible to remove dust from the objective lens 31 by vibrating the actuator 32 automatically when it is determined that the foreign material of the objective lens is periodically checked by checking the RF signal.

In this way, by periodically removing the foreign matter attached to the lens in the periodic cleaning mode it is possible to prevent the accumulation of dust on the lens.

Dust amount sensor 35 is a sensor for detecting the amount of dust attached to the objective lens 31, and transmits the detected amount of dust data to the microcomputer 33.

In addition, the microcomputer 33 vibrates the actuator 32 by automatically selecting any one of a plurality of modes stored in the microcomputer 33 according to the amount of dust detected by the dust detection sensor 35, and the objective lens 31. ) Remove dust.

In addition, the pickup module 30 irradiates a recording surface of the optical disk 10 with a laser having a power corresponding to the recording power through a laser diode to record data transmitted from an external system to the optical disk 10, and generates a power corresponding to the reproduction power. The laser beam is irradiated to the optical disc 10 to reproduce (read) the data recorded on the optical disc 10.

When the encoder 110 records data on the optical disc 10, the encoder 110 encodes the video and audio data buffered in the buffer 70 after being transmitted from an external system, and transmits the encoded video and audio data to the laser diode driver 90. 100 provides a drive signal for causing the encoded data to be recorded on the data recording surface of the optical disc 10 to the laser diode driver 90 to change the recording power of the laser diode.

When the data recorded on the optical disc 10 is reproduced, a laser having a power corresponding to the reproduction power is generated from the laser diode in the pickup module 30 and irradiated to the data recording surface of the optical disc 10, and the irradiated laser emits the optical disc ( Reflected by the data recording surface of 10) is received by the R / F signal section 40, and then amplified and converted into a binary signal.

The DSP (signal processing section 50) restores the binary signal converted by the R / F signal section 40 into digital data. In this case, the restored digital data is in an encrypted state, and is then decoded by the decoder 60 as digital data before encryption while passing through the decoder 60.

In addition, the RF signal of the signal processing unit 50 is also supplied to the servo unit 80. The servo unit 80 generates a tracking error signal and a focus error signal from the RF signal, and refers to the tracking error signal and the focus error signal. The tracking and focus of the pickup module 30 is controlled.

3 is a flowchart illustrating a method for removing dust of an optical device according to an embodiment of the present invention, which will be described with reference to FIGS. 1 and 2.

First, when the optical disk is inserted into the tray of the optical device (S1), and a recording or reproduction command is input by the user, the RF signal reflected from the optical disk 10 is detected through the microcomputer 33 (S2).

At this time, if the foreign substance is not attached to the objective lens 31 for condensing the laser beam, the RF signal reflected from the optical disk 10 is normal, and the data recording or data reproducing operation is normally performed on the optical disk 10. If foreign matter is attached to the objective lens 31 for condensing, the RF signal is out of the range of a preset reference RF signal, and data recording and data reproduction of the optical disc 10 are not normally performed.

Accordingly, the microcomputer 33 compares the incident RF signal with the reference RF signal whether the incident RF signal is out of the range of the reference RF signal (S3), and then the incident RF signal is out of the reference RF signal, and thus the objective lens. If it is determined that foreign matter is attached to 31, it is determined that cleaning of the objective lens 31 is necessary (S4), and a message informing the user of the necessity of cleaning is output (S5).

Next, when the user views the output message and wants to clean the foreign matter attached to the objective lens (S6) by inputting a command key (not shown), the microcomputer 33 inputs an ultrasonic frequency of 20 kHz or more to the actuator 32 to vibrate. (S7)

At this time, the general mode to apply the ultrasonic frequency of 20kHz or more, the increase mode to apply the frequency gradually increasing from the frequency of 0Hz, the increase and decrease mode to apply the frequency to increase and decrease while reciprocating between the minimum frequency and the maximum frequency of a predetermined range, etc. The frequency of any one of the plurality of modes selected by the user may be applied to the actuator 32.

In addition, before the actuator 32 vibrates, the microcomputer 33 controls the feeding motor 36 to move the pickup module 30 to an area not in contact with the optical disc 10, and then vibrates the actuator 32. desirable.

If the foreign matter cleaning command signal attached to the objective lens 31 is not input from the user, the user determines whether the playback or recording is possible without cleaning, and if the playback or recording operation is possible, the playback or recording operation is performed.

In this case, when it is determined that the foreign material is attached to the objective lens 31, the frequency is automatically applied to the actuator 32 when it is determined that the foreign material is attached to the objective lens 31, and when the dust amount data is input by the dust amount sensor 35, A frequency of the corresponding mode is applied to the actuator 32 to vibrate automatically.

Next, the optical disk is re-recognized (S8) whether the foreign matter attached to the objective lens 31 is removed by the vibration of the actuator 32 (S8), and the RF signal reflected from the optical disk is detected and compared with the reference RF signal, and the optical disk is re-recognized (S9). If it is not possible to play or record the optical disc (S11), if not re-recognized outputs a message to confirm the disc recording surface so that the user can easily recognize, and outputs a message indicating that the final recognition is not (S10) .

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

As described in detail above, the present invention adds a self-purifying capacity before receiving an AS for contamination due to dust or foreign matters when using optical devices to minimize consumer complaints and to reduce AS costs, thereby increasing customer satisfaction and reproducing and It is possible to secure quality reliability by increasing recording performance.

In addition, by removing the foreign matter attached to the lens automatically in the periodic cleaning mode it can prevent the accumulation of dust on the lens.

Claims (7)

An objective lens for condensing a laser beam such that an optical spot is formed on the optical disc; An actuator for controlling tracking and focus by driving the objective lens and generating vibration to remove foreign substances attached to the objective lens; And A microcomputer that compares the RF signal reflected from the optical disk with a preset reference RF signal to determine whether a foreign material is attached to the lens, and controls the driving of the actuator but controls the frequency applied to the actuator to vibrate the actuator; Dust removing device of the optical device, characterized in that. The method of claim 1, Dust removal device of the optical device further comprises; dust amount sensor for detecting the amount of dust attached to the objective lens. The method of claim 1, wherein the microcomputer Dust removing device of the optical device, characterized in that the control in any one of the normal mode, increase mode or increase or decrease mode according to the vibration frequency. The method of claim 1, wherein the vibration is The dust removal device of optical equipment characterized by the vibration of intensity | strength of 20kHz or more of ultrasonic frequency. The method of claim 1, wherein the vibration is An apparatus for removing dust of optical equipment, wherein the intensity of vibration gradually increases from a frequency of 0 Hz. The method of claim 1, wherein the microcomputer And moving the actuator to vibrate after moving to the outermost circumferential region of the optical disk or to a region not in contact with the optical disk. delete

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