JP2005025807A - Disk drive unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a disk drive unit having a structure where at least a read-write head housing space and space in a disk cartridge are kept clean irrespective of existence of loaded disk cartridge. <P>SOLUTION: In this disk drive unit 200, a partition (docking wall) 242 is set up between the read-write head housing space Sh and a loading space Sd where the disk cartridge 100 is loaded. In the disk drive unit, an aperture 241 for head access and an opening and closing door 243 which opens and closes it to a part of the partition 242 is set, and when the disk cartridge 100 is loaded in the loading space Sd, a head access aperture 122 of the disk cartridge 100 is contacted closely with the aperture 241 for head access to prevent a recording medium D in the disk cartridge 100 and the read-write head H from being contaminated with dust, gas etc. The disk drive unit is constituted of a structure which prevent the dust and gas from invading from outside by closing the aperture 241 for head access with the opening and closing door 243 when the disk cartridge 100 is not loaded. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disk drive device configured such that a disk cartridge containing a disk-shaped recording medium can be detachably mounted to perform recording and reproduction.
[0002]
[Prior art]
Hereinafter, the configuration and structure of some prior art disk drive devices will be described with reference to the drawings.
[0003]
9 is an exploded perspective view of the disk drive apparatus according to the first embodiment of the prior art, FIG. 10 is a sectional view of the disk drive apparatus shown in FIG. 9 with a disk cartridge mounted thereon, and FIG. 11 is a second embodiment of the prior art. 12 is a top view of the disk drive device with the cover removed, FIG. 12 is a cross-sectional view of the main part of the disk drive device shown in FIG. 11 with the disk cartridge ejected, and FIG. 13 is the disk drive device shown in FIG. FIG. 14 is a top view for explaining the operation showing the relationship between the disk drive device and the disk cartridge according to the third embodiment of the prior art.
[0004]
The disk drive device can be built in or attached to an electronic device capable of recording / reproducing information, such as a portable computer or a PDA (personal digital assistant). Such a computer or PDA is an example of an electronic apparatus provided with the disk drive device of the present invention.
[0005]
This type of disk drive device is configured so that a disk cartridge can be detachably mounted. The disc cartridge contains a disc-shaped recording medium. The disk-shaped recording medium is, for example, a hard disk, and is configured to magnetically record information on the recording medium or to reproduce information already recorded on the recording medium. Such a disk drive device is called a so-called removable hard disk drive device (R-HDD).
[0006]
FIG. 9 shows an example of this removable hard disk drive device which is the first form of the prior art. The disk drive device 1010 is read / written by mounting a detachable disk cartridge 1030 on the disk drive apparatus 1010.
[0007]
The disk drive device 1010 is assembled around a chassis 1012 in the housing 1011A, and a spindle motor 1013, a head arm 1014, a slider 1016, and a voice coil motor 1017 disposed in the center are assembled.
[0008]
The housing 1011A is sealed with a cover 1011B, and an insertion port 1018 for a disk cartridge 1030 is formed in the cover 1011B and the housing 1011A. The insertion slot 1018 is always closed by a front door 1023 that is rotatably attached to the cover 1011B when the disk cartridge 1030 is not attached to the disk drive device 1010.
[0009]
The disc cartridge 1030 can be inserted in the direction of the arrow X1 with respect to the insertion port 8, or can be taken out in the direction of the arrow X4.
[0010]
The head arm 1014 includes a suspension 1015, and a slider 1016 is provided at the tip of the suspension 1015. The slider 1016 includes a head (magnetic head) 1019. The head arm 1014 is configured to perform a seek operation in the arrow T direction by the operation of a voice coil motor 1017 as a head actuator.
[0011]
When the head arm 1014 performs a seek operation in the direction of arrow T, the head slider 1016 enters and exits the disk cartridge 1030 through the head opening / closing opening 1034 of the disk cartridge 1030, thereby moving the head 1019 of the head slider 1016 to the disk The recording medium D of the cartridge 1030 is accessed.
[0012]
By this access, the head 1019 magnetically records information on the disk-shaped recording medium D or magnetically reproduces information on the recording medium D.
[0013]
The spindle motor 1013 is a motor for magnetically chucking and continuously rotating the disk-shaped recording medium D of the disk cartridge 1030.
[0014]
Next, the disk cartridge 1030 has an upper shell 1031 and a lower shell 1033. The upper shell 1031 and the lower shell 1033 are formed of any one of plastics such as ABS (acrylonitrile butadiene styrene), PC (polycarbonate), PBT (polybutylene terephthalate), PPS (polyphenylene sulfide), and the like.
[0015]
The upper shell 1031 and the lower shell 1033 are substantially rectangular or square shells. As shown in FIG. 10, a rotor 1035, a storage space formed in the upper shell 1031 and the lower shell 1033, A recording medium D or the like is incorporated (FIG. 10).
[0016]
A circular drive opening 1032 is formed at the center of the lower shell 1033, and the rotating shaft 1021 of the disk drive device 1010 and the chucking magnet 1022 fit into the drive opening 1032, chuck and spindle. The rotational force of the motor 1013 is transmitted to the recording medium D.
[0017]
Further, a shutter 1034 (FIG. 10) is slidably attached so as to open and close a driving opening 1032 which is bent from one side surface of the disk cartridge 1030 to the lower shell 1033 and opened in the lower shell. The shutter 1034 is configured to slide in accordance with the movement of inserting the disk cartridge 1030 toward the back of the insertion slot 1018 of the disk drive device 1010 and open the drive opening 1032.
[0018]
Further, a head access opening 1036 (FIG. 9) is opened at a portion deviated from the front surface of the disk cartridge 1030. This access opening 1036 is opened and closed by the rotation of the rotor 1035. That is, when the disk cartridge 1030 is inserted from the insertion port 1018 of the disk drive device 1010, the rotor 1035 opens by rotation, and the head 1019 enters the disk cartridge 1030 through the access opening 1036 and reads / writes from / in the recording medium D. Therefore, when the disk cartridge 1030 is pulled out from the disk drive device 1010, the rotor 1035 automatically rotates and closes the access opening 1036.
[0019]
The disk drive device 1010 and the disk cartridge 1030 having the configuration and structure described above perform the following operations.
[0020]
That is, after the disk cartridge 1030 is inserted into the disk drive device 1010 through the insertion port 1018 in the direction of the arrow X1, the disk-shaped recording medium D in the disk cartridge 1030 is in relation to the disk table of the spindle motor 1013. It is chucked by the chucking magnet.
[0021]
When the spindle motor 1013 is operated, the recording medium D rotates and the head arm 1014 enters the disk cartridge 1030 through the access opening 1036. The head 1019 moves substantially in the radial direction of the recording medium D, that is, performs a seek operation, and performs magnetic recording of information on the tracks of the recording medium D or magnetic reproduction of information.
[0022]
As described above, in the disk drive device using the disk cartridge 1030 that is detachable from the disk drive device 1010, the disk cartridge is used as a measure for preventing dust and gas from adhering to the recording medium D and the read / write head 1019. When removed from the device, measures are taken to improve the sealing performance of the disk cartridge so that it is not affected by dust or gas from the atmosphere surrounding the disk cartridge. Measures have been taken not to contaminate the disk cartridge housing space in the disk drive device by improving the sealing performance of the front door 1023 provided at the mouth.
[0023]
However, when the disk cartridge 1030 is inserted into the disk drive device 1010, the read / write head 1019 is associated with the access opening 1014 for accessing the recording medium D and the spindle motor 1013 for rotating the recording medium D. Since the driving opening 1032 and the like for opening the disk cartridge 1030 in the disk drive device 1010 remain open with respect to the read / write head accommodating space, dust and deposits attached to the surface of the disk cartridge 1030 The gas generated from the disk diffuses into the disk cartridge 1030 and the read / write head housing space, contaminates the recording medium D in the disk cartridge 1030 through the read / write head 1019 and the drive opening 1032, and cannot read or write. Head 1019 there has been a cause greatly impair accident the reliability of such damage.
[0024]
In addition, the disk cartridge 1030 in the disk drive device 1010 and the read / write head housing space are contaminated by dust and gas in the atmosphere surrounding the disk drive device 1010 when the disk cartridge 1030 is attached and detached or when the front door 1023 is intentionally opened and closed by the user. As a result, the read / write head 1019 and the recording medium D in the disk cartridge are contaminated in the same manner as described above, and the same quality accident may occur.
[0025]
Therefore, in order to prevent the recording medium D from being contaminated from the access opening 1036, the disc cartridge 1030 has a storage space between the upper shell 1031 and the lower shell 1033 as shown in FIG. The rotor 1035 includes a rotor 1035 that is rotatably disposed between the upper shell 1031 and the recording medium D. The rotor 1035 includes a first wall portion 1037 that is formed along the circumferential direction of the rotor 1035, and A first opening is provided by opening a part of the wall portion 1037, and the lower shell 1033 overlaps the inside of the first wall portion 1037 over the outer peripheral portion of the recording medium D on the outer side in the radial direction of the outer peripheral portion of the recording medium D. The second wall portion 1038 and the third wall portion 1039 are formed as follows. The labyrinth structure 100 that separates the recording medium D from the outside of the recording medium D is configured, and the first opening and the second opening rotate the rotor 1035 so that the opening 1014 for the head 1019 enters and exits. And the labyrinth structure 100 that isolates the recording medium D from the outside of the recording medium D is configured to sufficiently block the intrusion of dust and gas into the disk cartridge. We try to prevent rattling. Details are disclosed in Japanese Patent Application Laid-Open No. 2002-237052 “Disc Cartridge and Recording Medium Drive Device” invented by the present inventor and filed by the present applicant.
[0026]
In addition, the applicant of the present invention has also disclosed a sealing structure for preventing contamination of the disk cartridge 1030 in the disk drive device 1010 from the drive opening 1032 for engaging with the spindle motor 1013 for rotating the recording medium D. It is disclosed in Japanese Patent Application Laid-Open No. 2001-76477 “Disc Drive Device and Seal Member”. The point will be described with reference to FIGS. 11 to 13. In the disk drive device 2010 according to the second embodiment, the mounting unit 2034 to which the cartridge 2030 containing the recording medium D is mounted and the disk cartridge 2030 to the mounting unit 2034 are installed. When mounted, the disk cartridge 2030 enters the disk drive opening 2014 on the lower surface, and is attached to the rotary table 2037 that clamps and rotates the recording medium D and the mounting unit 2034, and the disk cartridge 2030 is attached to the mounting unit 2034. A seal member 2047 having a lip 2048 formed on the lower surface of the disk cartridge 2030 is disposed so as to surround the disk drive opening 2014 when the disk cartridge 2030 is mounted, and dust and gas enter the disk cartridge 2030. Is sufficiently shut off. The seal member 2047 has a through hole, and the seal member 2047 is attached to the mounting portion 2034 with the through hole penetrating the positioning protrusion 2049. By adopting such a structure, as shown in FIG. 13, the rotary table 2037 enters from the disk drive opening 2014 formed on the lower surface of the disk cartridge 2030 to rotate the disk-shaped recording medium D. Sometimes, air containing dust is prevented from entering the disk cartridge 2030.
[0027]
Furthermore, as another measure for preventing dust and gas from entering through the access opening 1036 of the disk cartridge 1030 in FIG. 9, this is also disclosed in Japanese Patent Application Laid-Open No. 2000-90639 “Disk Device” filed by the present applicant. Is disclosed.
[0028]
The disk drive device 3010 of the third embodiment is provided with air outflow restricting means 3023 that can move in a direction away from and coming into the access opening 3036 of the read / write head of the disk cartridge 3030, and the disk-shaped recording medium D is mounted on the disk mounting portion. The air outflow restricting means 3023 moves in a direction approaching the access opening 3036 to close the access opening 3036, and the air A and B generated by the rotation of the disk-shaped recording medium D from the access opening 3036 It is constructed by adopting a structure that regulates the outflow. With this configuration, the outflow of air A and B from the case body 3034 of the disk cartridge 3030 is reduced, and the intrusion of dust into the case body 3034 from the outside is reduced.
[0029]
[Patent Document 1]
JP 2002-23702 (pages 15 to 29, FIGS. 1 to 11)
[Patent Document 2]
JP 2001-76477 (pages 9 to 10, FIG. 5, FIG. 6, FIG. 9)
[Patent Document 3]
JP2000-90639 (7th page, FIG. 14)
[Problems to be solved by the invention]
However, in recent years, for example, the floating clearance between the recording surface of the hard disk and the read / write head in the hard disk drive device is as extremely small as about 0.01 μm. On the other hand, the size of dust and gas particles is about several μm in diameter and has various particle sizes larger than this, and is much larger than the floating clearance. Therefore, even if extremely small dust or gas is attached to the recording surface of the disk or the tip of the read / write head for some reason, the recording surface of the disk is damaged or contaminated, and the read / write head is damaged. There is a fear.
[0030]
In any of the disk drive devices 1010, 2010, and 3010 described above, the technique is devised so that dust and gas do not enter the disk cartridge from the spindle motor side or the read / write head side. When it is taken out from the mounting portion of the drive device, it is an integral space without any partition between the disk cartridge mounting space and the storage space for storing the read / write head.
[0031]
Therefore, if dust or gas is present in the disk cartridge mounting space, the dust or gas may adhere to the read / write head. As described above, when the disc cartridge is ejected, the insertion space of the disc cartridge is not attached to the disc drive device even if the insertion slot is closed strictly by the front door. Since it is exposed to an external adverse environment, dust and gas adhere to its outer surface. When a disc cartridge with dust or gas attached is inserted into and installed in the disc cartridge installation space of the disc drive device, the attached dust or gas floats and adheres to the installation space, and the reading / writing during operation is performed through the access opening. There is a problem that it adheres to the head, or floats in the accommodation space of the read / write head, adheres to the read / write head, and damages the read / write head or the recording medium.
[0032]
The present invention is intended to solve such a problem, and it is a case where a disk cartridge is not mounted, or when a disk cartridge is mounted in a mounting space for recording and / or reproduction. Another object of the present invention is to obtain a disk drive device having a structure in which at least the read / write head accommodating space and the space in the disk cartridge are kept clean.
[0033]
[Means for Solving the Problems]
Therefore, in order to solve the above-described problem, the disk drive device according to the first aspect of the present invention includes a pair of shells in which a disk-shaped recording medium is accommodated, and a head access opening is formed on a side surface of the shell. An opening / closing door for opening and closing the head access opening is formed, a mounting space in which a disk cartridge having a space in which the inside of the shell is kept clean can be mounted, and the recording when the disk cartridge is mounted in the mounting space A rotation driving means capable of rotating the medium; a read / write head for accessing the recording medium; a storage space for storing the read / write head; and a partition between the storage space and the mounting space; A partition wall formed with an opening / closing door for opening and closing the access opening, and the disk cartridge is mounted in the mounting space When the disk cartridge is ejected from the mounting space, the read / write head is held in the housing space and the both open / closed doors are opened so that the read / write head can access the recording medium. An opening / closing means for closing the door is provided.
[0034]
In the disk drive device according to claim 2, a disk-shaped recording medium is accommodated in a pair of shells, and a head access opening and an opening / closing door for opening and closing the head access opening are formed on the side surfaces of the shell. And a disk cartridge having a space in which a motor engaging opening is formed in a substantially central portion of one of the shells, and the inside of the pair of shells is kept clean, and when the disk cartridge is mounted, A mounting space in which the recording medium can be rotated from the motor engagement opening and a packing for sealing the motor engagement opening is attached to an outer periphery of the motor; and a read / write head for accessing the recording medium; A head accommodating space for accommodating the read / write head and a space between the head accommodating space and the mounting space. A partition, a partition formed with an access opening and an opening / closing door that opens and closes the access opening, and when the disk cartridge is mounted in the mounting space, the read / write head can access the recording medium. And opening and closing means for closing the open / close door by holding the read / write head in the head accommodating space when the disk cartridge is ejected from the mounting space. When the cartridge is mounted, the motor is inserted into the motor engagement opening of the disk cartridge, and the outer periphery of the motor engagement opening can be sealed with the packing.
[0035]
The disk drive device according to claim 3 is a labyrinth structure in which the opening / closing door that opens and closes the access opening in the disk drive device according to claim 1 or 2 can slide and open the access opening. It is characterized by comprising.
[0036]
According to a fourth aspect of the present invention, the disk drive device according to the third aspect is characterized in that a packing is provided around the access opening of the partition wall in the disk drive device according to the third aspect.
[0037]
Further, in the disk drive device according to claim 5, in the disk drive device according to claim 4, the partition formed on the periphery of the partition and the access opening of the partition is formed by two-color molding. The packing is made of a synthetic resin having a low elastic modulus.
[0038]
Furthermore, in the disk drive device according to claim 6, when the access opening of the partition wall in the disk drive device according to claim 2 is closed by the opening / closing door, the pressing force of the opening / closing means is used. The access door is pressed to seal the access opening with the open / close door without a gap.
[0039]
Therefore, according to the disk drive device of the present invention as set forth in claim 1, when the access door is closed, the gas generated from the dust and deposits attached to the disk cartridge, the mechanism part in the disk drive device It is possible to prevent the read / write head storage space from being contaminated by dust, gas generation, dust, gas, etc. adhering to and entering the disk cartridge storage portion.
[0040]
According to the disk drive device of the present invention as set forth in claim 2, when a disk cartridge is inserted into the disk drive device, the access opening of the read / write head formed in the disk cartridge is engaged with the motor. And other openings are engaged with the clean space formed in the disk drive device in the vicinity of the opening of the disk cartridge, so that the disk cartridge and the disk drive device are protected from dust and gas. It is possible to prevent the clean space from being contaminated and to prevent the recording medium and the read / write head from being contaminated.
[0041]
According to the disk drive device of the present invention as set forth in claim 3, by providing an opening / closing door on the partition wall, the storage space of the read / write head when the disk cartridge is ejected can be sealed. Intrusion of dust and gas can be prevented.
[0042]
According to the disk drive device of claim 4, when a disk cartridge is mounted in the mounting space, the sealing opening between the access opening of the partition wall and the access opening of the disk cartridge is improved, and reading / writing is performed. It is possible to more effectively prevent the head and the recording medium from being contaminated.
[0043]
Furthermore, according to the disk drive device of the fifth aspect, the number of manufacturing steps can be reduced since the partition and the packing formed around the access opening of the partition are formed by two-color molding. Since the packing is made of a synthetic resin having a low elastic modulus, a considerable accuracy can be obtained.
[0044]
Furthermore, according to the disk drive device of the sixth aspect, since the opening / closing door is pressed by the pressing force of the opening / closing means of the opening / closing door of the partition wall, the access opening is hermetically sealed by the opening / closing door. be able to.
[0045]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a disk drive device according to an embodiment of the present invention will be described with reference to the drawings.
[0046]
FIG. 1 shows the external appearance of a disk cartridge used in the present invention. FIG. 1A is a perspective view of a state in which the disk cartridge is not attached to the disk drive device, and FIG. 2 is an exploded perspective view of the disk cartridge shown in FIG. 1, FIG. 3 is an exploded perspective view of the disk drive device of the present invention, and FIG. 4 shows a disk cartridge mounted in the mounting space of the disk drive device of the present invention. FIG. 1A is a plan view thereof, FIG. 2B is a sectional side view of the disk drive device taken along the line A-A in FIG. 1A, and FIG. FIG. 5 shows a state in which the mounting of the disk cartridge to the disk drive device of the present invention is completed, FIG. 5A is a plan view thereof, and FIG. FIG. 6 is a cross-sectional side view of the disk drive device taken along line AA in FIG. A, and FIG. 6 is a cross-sectional side view of the disk cartridge taken along line BB of FIG. Fig. 2 conceptually shows a pollution prevention space of a disk drive device, wherein Fig. A is a plan view thereof, Fig. B is a sectional side view on line A-A of Fig. A, and Fig. 7 is a view from the disk drive device of the present invention. Fig. 2 conceptually shows a contamination prevention space of a disc cartridge in a discharged state, in which Fig. A is a plan view, Fig. B is a sectional side view on line A-A in Fig. A, and Fig. 8 is a diagram of the present invention. FIG. 2 conceptually shows a pollution prevention space in a state in which a disk cartridge is mounted on a disk drive device. FIG. A is a plan view thereof, and FIG. B is a line AA in FIG. A surface side view.
[0047]
First, the structure and configuration of a disc cartridge according to one embodiment used in the present invention will be described with reference to FIGS.
[0048]
In FIG. 1, reference numeral 100 indicates a disk cartridge as a whole. As shown in FIG. 2, the disk cartridge 100 is composed of an upper shell 101 and a lower shell 102 that are brought into contact with each other and fixed together by a plurality of screws 103. The disk cartridge 100, a disk-shaped recording medium D such as an optical disk, a magneto-optical disk, and a hard disk, which is rotatably accommodated in the disk cartridge 100, and the recording medium D and the upper shell including the recording medium D 101 and an inner rotor 106 that is rotatably arranged with the motor 101.
[0049]
A spindle motor engagement opening 107 is formed at the center of the lower shell 102 to be inserted for chucking of the spindle motor 210 when the disk cartridge 100 is mounted in the disk drive device 200 described later. The inner rotor 106 is formed with an annular side wall 108 containing the recording medium D, and a notch 109 communicating with a head access opening 122 through which the read / write head enters and exits is provided at a part of the annular side wall 108. Yes. A gear 110 is formed on a part of the outer surface of the annular side wall 108. The gear 110 engages with a gear portion of a slider 112 disposed in a guide groove 111 formed on one side of the upper and lower shells 101 and 102 and rotates by linear movement of the slider 112. A notch 109 in the annular side wall 108 formed in the inner rotor 106 rotates so as to open and close the head access opening 122 formed in the upper and lower shells 101 and 102.
[0050]
A core pressure 115 for pressing the center core 114 is mounted between the upper shell 101 and the inner rotor 106 and in an opening 113 provided at the center of the inner rotor 106. When the disk cartridge 110 is ejected from the disk drive device 200 by the compression coil spring 116, the core pressure 115 presses the center core 114 toward the lower shell 102, suppresses the movement of the disk (with backlash), and the spindle. The motor engagement opening 107 is closed. Release of blockage of the core pressure 115, that is, opening of the spindle motor engagement opening 107 is performed by a pair of guide plates 117. These guide plates 117 perform linear movement in the front-rear direction such as approaching or moving away from the central portion of the disk cartridge 100 to restrict the position of the core pressure 115 in the Z direction (thickness direction). When the disk cartridge 100 is inserted into the disk drive device 200, the guide plate 117 approaches the center of the disk cartridge 100 as the inner rotor 106 rotates, and the core pressure 115 is biased toward the upper shell 101, thereby causing the center core 114 to move. Is released so that the recording medium D can freely rotate. The outer shutter 119 connected to the slider 112 by means of heat caulking or the like opens and closes the spindle motor engagement opening 107 from the outside of the lower shell 102 in conjunction with the opening and closing operation of the spindle motor engagement opening 107 by the center core 114. To do. In this way, the spindle motor engagement opening 107 is closed twice from the inside and outside of the disk cartridge 100 by the center core 114 from the inside and the outer shutter 119 from the outside, thereby completely preventing dust and gas from entering. It is configured to be able to.
[0051]
Reference numeral 118 denotes a shutter lock, which functions to prevent the outer shutter 119 from being intentionally opened. Reference numeral 120 denotes a write protect, which is set by the user to prohibit writing, and can be recorded when moved to either direction, and cannot be recorded when moved in the opposite direction. Since these are not directly related to the present invention, a detailed description is omitted.
[0052]
Next, the configuration of the disk drive device according to the embodiment of the present invention will be described with reference to FIGS.
[0053]
In these drawings, reference numeral 200 indicates the disk drive device of the present invention. In this disk drive device 200, a chassis 201 and a top cover 202 are fitted together and fixed by a plurality of screws 203. An insertion slot 204 into which the disk cartridge 100 is inserted is formed in the front of the disk drive device 200. The insertion slot 204 is urged by the chassis 201 by means such as a spring so that the front door 205 can be rotated. The interior of the drive device 200 is configured to be substantially sealed when the front door 205 is closed (FIG. 5B).
[0054]
Inside the disk drive device 200, the disk cartridge 100 is inserted into and removed from the disk drive device 200, and the disk cartridge 100 is fixed to a predetermined position of the disk drive device 200. A spindle motor 210 that chucks the center core 114 and rotationally drives the disk-shaped recording medium D, a head stack assembly 213 that includes a read / write head H and a read / write head drive means 212, and a disk cartridge compartment assembly 220 are driven back and forth. A gear base 230 equipped with an eject lever 231 and a gear assembly 232, and an eject motor assembly for driving the gear assembly 232. Yellowtail 214 is provided. The gear base 230 is fixed to the chassis 201 with a plurality of screws 233 so that there is no gap.
[0055]
A chassis vertical wall 240 and a docking wall 242 with an opening 241 through which the read / write head H accesses the recording medium D are formed substantially perpendicularly to the chassis 201. A head access door 243 for opening and closing the opening 241 of the docking wall 242 is attached. The chassis vertical wall 240 and the docking wall 242 form a partition that separates the mounting space Sd of the disk cartridge 100 on the spindle motor 210 side from the head housing space Sh that houses the head stack assembly 213 including the read / write head H. . The partition wall composed of the chassis vertical wall 240 and the docking wall 242 is not only the outside of the disk drive device 200 but also the disk cartridge inside the disk drive device 200 when the opening 241 for accessing the recording medium D is closed. The mounting space Sd and the head housing space Sh are substantially sealed.
[0056]
A gear assembly 232 composed of a plurality of gears, an eject lever 231, a cam gear 250, a head access door gear 251, and an arm lock gear 252 are made of a synthetic resin that has good slidability and hardly generates dust, such as polyacetal resin. It is formed as.
[0057]
The eject lever 231 is engaged with the gear assembly 232, and rotates according to the rotation of the gear assembly 232 to drive the disc cartridge compartment assembly 220. The cam gear 250 is connected to and fixed to the gear assembly 232 with a screw 234 using a rotation preventing means such as a D-cut together with the gear assembly 232, and is configured to rotate according to the rotation of the gear assembly 232. The head access door gear 251 and the arm lock gear 252 are respectively engaged with the cam gear 250 and are configured to rotate according to the rotation of the gear assembly 232 via the cam gear 250.
[0058]
When the arm lock gear 252 rotates in the direction of the arrow c, the arm stack pin 213 is rotated by operating an arm lock pin 215 formed on the head stack assembly 213, and the head stack assembly 213 is accommodated in the head. The head stack assembly 213 is fixed so that the head stack assembly 213 does not rotate due to impact or the like. When the arm lock gear 252 rotates in the direction of the arrow d, the arm lock gear 252 is configured to be sufficiently retracted so as not to contact the arm lock pin 215. At that time, the head stack assembly 213 reads / writes from / to the recording medium D. Can be freely rotated so that
[0059]
The docking wall 242 and the head access door 243 are made of synthetic resin that has good slidability and hardly generates dust, or synthetic resin to which an antistatic agent is added according to the characteristics of the read / write head H.
[0060]
The docking wall 242 has an opening 241 for accessing the recording medium D as described above. Further, a part of the docking wall 242 has a head access opening packing 244 made of synthetic resin such as an elastomer having a low elastic modulus by means such as two-color molding (FIGS. 4A and 5A). The docking wall 242 is inserted into a groove 245 formed in the chassis 201 to form a labyrinth structure. In addition, when the gear base 230 is fixed to the chassis 201, the docking wall 242 receives a force that is slightly compressed. With this configuration, the sealing degree of the joint surface between the docking wall 242 and the chassis 201 is improved.
[0061]
The head access door 243 has a gear 243a formed at the upper end of a part thereof. The gear 243a is engaged with the head access door gear 251, and the groove 245 and the docking wall 242 formed in the chassis 201 as the head access door gear 251 rotates. Slide along the formed groove 246 to open and close the opening 241 for accessing the recording medium D.
[0062]
The dust packing 211 is made of synthetic rubber having a low elastic modulus, for example, fluororubber, without generation of harmful outgas, and is in close contact with the lower shell without generating a gap when engaged with the lower shell 102. It is configured. The dust packing 211 is screwed to the chassis 201 with a plurality of screws 213 via a fixing plate 212 so that no gap is generated between the dust packing 211 and the chassis 201.
[0063]
Next, the operations of the disk cartridge 100 and the disk drive device 200 of the present invention will be described with reference to FIGS.
[0064]
When the disc cartridge 100 is inserted into the disc drive apparatus 200, insertion of the disc cartridge 100 is detected by a sensor, for example, a push switch, provided in the disc cartridge compartment assembly 220, and the eject motor assembly 214 rotates. The gear assembly 232 engaged with the eject motor assembly 214 generates a force sufficient to move the disk cartridge 100 in and out, and rotates the eject lever 231 engaged with the gear assembly 232 in the direction of arrow a. As shown in FIG. 4B, the disk cartridge compartment assembly 220 engaged with the eject lever 231 draws the locus of the arrow b so that the lower shell 102 comes into close contact with the dust packing 211 and the head access opening 122 is drawn. Is attached to the disk drive device 200 so that the periphery of the disk is in close contact with the head access opening packing 244 formed on the docking wall 242.
[0065]
Next, as the disk cartridge 100 moves in the direction of the arrow b, the slider 112 is operated by the disk cartridge compartment assembly 220 and the head access opening 122 is opened as described above. By rotating, the pressing of the center core 114 is released, the spindle motor engagement opening 107 is opened, and at the same time, the recording medium D can be rotated.
[0066]
As the gear assembly 232 is rotated, the cam gear 250 and the head access door gear 251 engaged with the gear assembly 232 are rotated, and the head access door 243 is slid in the direction of arrow e (FIG. 4A). Open the access opening 241. The head access door gear 251 presses the head access door 243, and the pressing force presses the head access opening 241, and the disk cartridge mounted by the head access opening packing 244 formed inside the head access opening 241. The periphery of the 100 head access openings 122 is further sealed.
[0067]
At the same time, the arm lock gear 252 rotates and retracts in the direction of the arrow d, and the read / write head H attached to the tip of the head stack assembly 213 enters the access opening 241 and reads / writes from / in the recording medium D. (Fig. 5).
[0068]
As conceptually shown in FIGS. 6 and 7, when the disk cartridge 100 is ejected from the disk drive device 200, the disk cartridge 100 is, as described above, the head access opening 122 and the spindle motor engagement opening. Since 107 is closed and hermeticity is maintained, the recording medium D can be prevented from being contaminated by dust or gas in the atmosphere surrounding the disk cartridge 100.
[0069]
With respect to the disk drive device 200, as shown in FIG. 6, when the disk cartridge 100 is ejected from the disk drive device 200, the head access door 243 is closed, so that the head housing space Sh (hatched portion) ) Is a space shielded from the outside and the mounting space Sd in which the disk cartridge is mounted, which not only prevents the read / write head H from being contaminated by dust and gas in the atmosphere surrounding the disk drive device 200 but also the mounting space. Even if the front door 205 that opens and closes Sd is intentionally or carelessly opened, the read / write head H can prevent contamination by dust and gas.
[0070]
As shown in FIG. 8, when the disk cartridge 100 is mounted in the disk drive device 200, the spindle motor engagement opening 107 of the disk cartridge 100 is engaged with the dust packing 211 attached to the chassis 201, and The head access opening 122 of the disk cartridge 100 communicates with the opening 241 of the head housing space Sh via a head access opening packing 244 attached to the docking wall 242, thereby allowing the storage space for the recording medium D in the disk cartridge 100 and the disk to be opened. Both of the head accommodating spaces Sh in the drive device 200 become a sealed space where they are coupled to each other, and not the dust and gas particles in the atmosphere surrounding the disk drive device 200 but the disk cartridge in the disk drive device 200. Also shielded against gas generated from the deposits Chiri挨 and disk cartridge attached to the di-100, both of the recording medium D with the read-write head H can prevent contamination by Chiri挨 or gas.
[0071]
In the above embodiment, even before the disk cartridge 100 is mounted by the head access door 243 provided in the disk drive device 200, the head accommodating space Sh is sealed from the mounting space Sd of the disk cartridge 100, and the read / write head H In this example, the opening of the disk cartridge is engaged with a component of the disk drive device, and the recording medium D and the read / write head H are caused by gas generated from dust and deposits attached to the surface of the disk cartridge. It is applied to all that realizes prevention of contamination.
[0072]
In the above-described embodiment, the sealing performance is improved by connecting the disk cartridge 100 to a portion where the disk cartridge 100 is connected to the docking wall 242 via a packing member such as rubber. However, the packing member is eliminated, A similar effect can also be obtained by making the gap of the gap extremely narrow.
[0073]
In addition, it is possible to further improve the cleanliness by arranging a filter or the like in the disk cartridge mounting space Sd or the head accommodating space Sh and adopting a structure for capturing dust.
[0074]
In addition, since the disk cartridge mounting space Sd and the head housing space Sh are separated and independent, it is possible to realize a sealed space that is significantly narrower than that of the conventional disk drive device. Even if it is used, the effect of adsorbing gas and moisture by activated carbon or the like can be maintained significantly more than before.
[0075]
【The invention's effect】
As is clear from the above description, according to the present invention,
1. When the disk cartridge is mounted in the disk drive device, the head storage space Sh and the storage space of the recording medium D that must be cleaned are connected to each other, so that the read / write head and the storage space of the recording medium are connected to the disk cartridge. The read / write head shields dust from the space and the spindle motor, etc., and adheres to the disc cartridge mounting space, dust attached to the outer surface of the disc cartridge, and dust from the spindle motor and the gas generated from them. And contamination of the recording medium can be prevented
2. Even when a disk cartridge is not loaded in the disk drive device, the head accommodating space Sh is shielded from the external environment, so that contamination of the read / write head by dust and gas is prevented.
3. Furthermore, even when the front door provided in the disk drive device for preventing dust intrusion is intentionally or carelessly opened by the user when the disk cartridge is installed in the disk drive device, the above structure allows the read / write head and recording to be performed. Media contamination can be prevented, and in addition to the above effects, the reliability of a disk drive device using a removable disk cartridge can be dramatically improved.
Many excellent effects are obtained.
[Brief description of the drawings]
FIG. 1 is an external view of a disk cartridge used in the present invention. FIG. 1A is a perspective view showing a state in which the disk cartridge is not attached to the disk drive device, and FIG. FIG.
FIG. 2 is an exploded perspective view of the disk cartridge shown in FIG.
FIG. 3 is an exploded perspective view of the disk drive device of the present invention.
4A and 4B show a state in which the disk cartridge has started to be mounted in the mounting space of the disk drive device of the present invention, where FIG. A is a plan view thereof, and FIG. FIG. 6 is a cross-sectional side view on the A line, and a cross-sectional side view on the BB line in FIG.
5 shows a state in which the mounting of the disk cartridge to the disk drive device of the present invention is completed, FIG. 5A is a plan view thereof, and FIG. 5B is a diagram of the disk drive device on the line AA in FIG. 2 is a cross-sectional side view taken along the line BB in FIG.
6 conceptually shows a contamination prevention space of the disk drive device of the present invention in a state where a disk cartridge is not mounted, FIG. 6A is a plan view thereof, and FIG. 6B is an AA view of FIG. It is a sectional side view on a line.
7 conceptually shows a contamination prevention space of a disk cartridge ejected from the disk drive device of the present invention, where FIG. 7A is a plan view thereof, and FIG. 7B is on the AA line of FIG. It is a cross-sectional side view.
8 conceptually shows a pollution prevention space in a state where a disk cartridge is mounted in the disk drive device of the present invention, where FIG. 8A is a plan view thereof, and FIG. 8B is on the AA line of FIG. It is a cross-sectional side view.
FIG. 9 is an exploded perspective view of the disk drive device according to the first embodiment of the prior art.
10 is a cross-sectional view of a state in which a disk cartridge is mounted on the disk drive device shown in FIG.
FIG. 11 is a top view of the disk drive device according to the second embodiment of the prior art with the cover removed.
12 is a cross-sectional view of the main part in a state in which the disk cartridge is ejected from the disk drive device shown in FIG.
13 is a cross-sectional view of a main part in a state where a disk cartridge is mounted on the disk drive device shown in FIG.
FIG. 14 is a top view for explaining an operation showing a relationship between a disk drive device and a disk cartridge according to a third embodiment of the prior art.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... Disc cartridge, 107 ... Spindle motor engagement opening, 114 ... Center core, 122 ... Head access opening, 200 ... Disc drive apparatus of one Embodiment of this invention, 205 ... Front door, 210 ... Spindle motor, 211 ... Dust packing, 220 ... Disc cartridge compartment assembly, 230 ... Gear base, 241 ... Open, 232 ... Gear assembly, 243 ... Head access door (opening / closing door), 242 ... Docking wall (partition wall), 250 ... Cam gear, 251 ... Head Access door gear, 252 ... arm lock gear, H ... read / write head, Sh ... head housing space, Sd ... (disk cartridge) mounting space

Claims (6)

A space in which a disk-shaped recording medium is accommodated in a pair of shells, a head access opening and an opening / closing door for opening and closing the head access opening are formed on the side surfaces of the shell, and the inside of the shell is kept clean A mounting space in which a disc cartridge having
A rotation driving means capable of rotating the recording medium when the disk cartridge is mounted in the mounting space;
A read / write head for accessing the recording medium;
A storage space for storing the read / write head;
A partition that partitions the housing space and the mounting space, and is formed with an access opening and an opening / closing door that opens and closes the access opening;
When the disk cartridge is mounted in the mounting space, both the open / close doors are opened so that the read / write head can access the recording medium, and when the disk cartridge is ejected from the mounting space, the read / write head is A disk drive device comprising: an opening / closing means for closing the both opening / closing doors in the housing space. A disk-shaped recording medium is accommodated in a pair of shells, a head access opening and an opening / closing door for opening and closing the head access opening are formed on the side surfaces of the shell, and a motor is provided at substantially the center of one of the shells. A disk cartridge having a space in which an engagement opening is formed and the inside of the pair of shells is kept clean can be mounted. When the disk cartridge is mounted, the recording medium is rotated from the motor engagement opening. A mounting space in which a packing that seals the motor engagement opening is attached to the outer periphery of the motor and the motor; and
A read / write head for accessing the recording medium;
A head accommodating space for accommodating the read / write head;
A partition that partitions the head housing space and the mounting space, and is formed with an access opening and an opening / closing door that opens and closes the access opening;
When the disk cartridge is mounted in the mounting space, the open / close door is opened so that the read / write head can access the recording medium, and when the disk cartridge is ejected from the mounting space, the read / write head And an opening / closing means for closing the both opening / closing doors by holding the head in the head accommodating space,
When the disk cartridge is mounted in the mounting space, the motor is inserted into the motor engagement opening of the disk cartridge, and the outer periphery of the motor engagement opening can be sealed with the packing. A disk drive device characterized by that. 3. The disk drive device according to claim 1, wherein the opening / closing door that opens and closes the access opening has a labyrinth structure that can slide the access opening to open and close. 4. The disk drive device according to claim 3, wherein packing is provided in a peripheral portion of the access opening of the partition wall. The partition formed at the periphery of the partition and the access opening of the partition is formed by two-color molding, and the packing is formed of a synthetic resin having a low elastic modulus. Item 5. The disk drive device according to Item 4. When the access opening of the partition wall is closed by the opening / closing door, the opening / closing door is pressed by a pressing force of the opening / closing means to seal the access opening with the opening / closing door without any gap. The disk drive device according to claim 2.

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