WO1999013461A1 - Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse - Google Patents

Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse Download PDF

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Publication number
WO1999013461A1
WO1999013461A1 PCT/US1997/016153 US9716153W WO9913461A1 WO 1999013461 A1 WO1999013461 A1 WO 1999013461A1 US 9716153 W US9716153 W US 9716153W WO 9913461 A1 WO9913461 A1 WO 9913461A1
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WO
WIPO (PCT)
Prior art keywords
recording head
flexure
head
cam
linear axis
Prior art date
Application number
PCT/US1997/016153
Other languages
English (en)
Inventor
Stephan E. Gavit
Original Assignee
Gavit Stephan E
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Gavit Stephan E filed Critical Gavit Stephan E
Priority to PCT/US1997/016153 priority Critical patent/WO1999013461A1/fr
Priority to AU42683/97A priority patent/AU4268397A/en
Priority to US08/945,479 priority patent/US6078478A/en
Priority to EP97941045A priority patent/EP1012832A4/fr
Priority to JP2000511157A priority patent/JP2003527716A/ja
Publication of WO1999013461A1 publication Critical patent/WO1999013461A1/fr
Priority to NO20000929A priority patent/NO20000929L/no
Priority to HK01100666A priority patent/HK1030084A1/xx

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Classifications

    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B5/00Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
    • G11B5/48Disposition or mounting of heads or head supports relative to record carriers ; arrangements of heads, e.g. for scanning the record carrier to increase the relative speed
    • G11B5/54Disposition or mounting of heads or head supports relative to record carriers ; arrangements of heads, e.g. for scanning the record carrier to increase the relative speed with provision for moving the head into or out of its operative position or across tracks
    • G11B5/55Track change, selection or acquisition by displacement of the head
    • G11B5/5504Track change, selection or acquisition by displacement of the head across tape tracks
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B5/00Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
    • G11B5/008Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires
    • G11B5/00813Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes
    • G11B5/00817Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes on longitudinal tracks only, e.g. for serpentine format recording
    • G11B5/00821Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes on longitudinal tracks only, e.g. for serpentine format recording using stationary heads
    • G11B5/00826Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes on longitudinal tracks only, e.g. for serpentine format recording using stationary heads comprising a plurality of single poles or gaps or groups thereof operative at the same time
    • G11B5/0083Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes on longitudinal tracks only, e.g. for serpentine format recording using stationary heads comprising a plurality of single poles or gaps or groups thereof operative at the same time for parallel information processing, e.g. PCM recording
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B5/00Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
    • G11B5/48Disposition or mounting of heads or head supports relative to record carriers ; arrangements of heads, e.g. for scanning the record carrier to increase the relative speed
    • G11B5/56Disposition or mounting of heads or head supports relative to record carriers ; arrangements of heads, e.g. for scanning the record carrier to increase the relative speed with provision for moving the head support for the purpose of adjusting the position of the head relative to the record carrier, e.g. manual adjustment for azimuth correction or track centering

Definitions

  • the present invention broadly concerns electronic recording devices and particularly concerns supports used to position read/write recording heads especially for selected, reciprocal translational movement in multi-track recording.
  • the present invention particularly concerns controlled movement of a read/write head along a linear axis while eliminating rotational movement thereabout in a manner that allows greater precision. With such greater precision, the present invention contemplates increasing the density of recorded data on a selected medium by increasing the plurality of tracks that may be made on that medium.
  • the optical disk In order to gain an even higher density for on-line data, the optical disk was developed. These devices record data based upon a very small wavelength of light so that a higher density is obtained due to this technique. Laser light is employed to read the stored information or data on the optical disk. However, once imprinted, the disk presently cannot be rewritten although significant research is underway in an effort to develop such technology.
  • magnetic tapes such as reel-to-reel tapes and later cassettes.
  • a magnetic coil is used as a transducer both to imprint data magnetically on a moving band of magnetic film; thereafter, when the film is advanced across the transducer, the data may be read and re-input into a co-processor.
  • Magnetic tape can be erased and rewritten many times and has an advantage of low cost.
  • Magnetic tape is still a highly desirable format for archiving data for rapid access is of less significance and cost is of concern.
  • these tapes can be bulky due to the physical number necessary to store the quantity of data.
  • the capacity for such tapes to store data is dependent upon the number of "tracks" which can be independently placed across the width of the tape.
  • a magnetic tape read/write system that is able to read and write nine tracks of data on a single strip of tape will hold four and one-half times the amount of data as a system which only utilizes two tracks. Therefore, efforts to increase the capacity of magnetic tapes to store data have included substantial efforts to increase the number of tracks which can be written on a band of magnetic tape.
  • one technique has been to support a plurality of individual read/write transducers in an array on the read/write recording head. For example, where eight transducers are placed side-by-side across the head, eight tracks can be simultaneously written or read as the tape is translated across the head and the tape advance direction. In order to provide this number of transducers, however, they may need to be very small in size. Importantly, the reduction in size of the transducer results in a substantial portion of unused magnetic tape in bands extending parallel to and in between each recorded tack.
  • a tape head that includes eighteen transducers may be first used to record a set of eighteen tracks after which the tape may be rewound and the head shifted half of the distance between the tracks and a set of eighteen more tracks recorded for a total of thirty- six tracks on the tape band.
  • a lead screw assembly In the typical technique for translating a read/write recording head employs a lead screw that is threaded into a threaded nut associated with the tape head. Rotation of the threaded shaft, for example, by a stepper motor, then can translate the tape head a desired distance. While this technique is useful in increasing the ability to do multi- track recording, a lead screw assembly includes an inherent "sloppiness" as a result of the need to have some gaps between the lead screw threads and the threads to avoid binding during use. In order to compensate for this sloppiness, it is known to use threaded lead screws wherein ballbearings reside in the threads to help to remove the sloppiness. While this technique does increase precision, a lead screw assembly necessarily has a large mass so that, as the tape head is shifted, substantial momentum and energy must be overcome, especially at the extrema of the translated distance.
  • camming structures As a mechanism for translating a read/write recording head transversely across a tape medium so as to read multiple discrete tracks on such tape.
  • U.S. Patent No. 3,705,270 issued December 5, 1992 to Huber a read/write recording head is secured to a carriage which slides on a pair of rails so that the read/write head may translate transversely across the tape.
  • the carriage is biased for abutment against a spherical cam follower that is sandwiched between the carriage and a rotatable cam.
  • the cam has a plurality of steps that provide incremental movement of the read/write recording head.
  • U.S. Patent No. 3,839,737 issued October 1, 1974 to Vogel also employs a stepped cam to move a read/write recording head transversely of the tape medium.
  • the cam follower is in the form of a following post that rides on the surface of the cam.
  • U.S. Patent No. 3,370,131 issued February 20, 1968 to Reed also shows a pin type cam follower that moves a transducer.
  • the cam surface is an inclined plane without discrete steps. Movement of the cam surface is accomplished by a rack and pinion gear assembly.
  • Another object of the present invention is to provide a positioning mechanism for a read/write recording head that is simplified in structure and less expensive to produce.
  • Yet another object of the present invention is to provide a positioning device for read/write recording heads that can precisely position the head for higher density multi-track recording and reading.
  • a further object of the present invention is to provide a positioning mechanism for read/write recording heads that reduces and/or eliminates rotational movement of the read/write recording head while it is translating along a linear axis.
  • Yet a further object of the present invention is to provide a positioning mechanism for read/write recording heads that has both skew adjustment and tape penetration adjustment features which are independent of one another.
  • Still a further object of the present invention is to provide a read/write recording device that incorporates the positioning mechanism having the objects stated above.
  • a positioning mechanism is operative to selectively position a recording head relative to a support structure which supports that recording head.
  • the positioning mechanism includes a drive that is operative to translate the recording head along a linear axis such that the recording head is positionable at intermediate positions between first and second locations.
  • First and second torsion springs are then disposed in opposite ends of the recording head and are arranged to apply opposite angular torques to the recording head thereby to resist rotational movement of the recording head about the linear axis. Adjustments are provided for both skew and tape penetration.
  • the first and second torsion springs are each preferably formed out of a flat flexure plate having a cut profile that defines a flexure portion thereof.
  • the opposite ends of the recording head respectively engage the flexure portions of the first and second torsion springs.
  • the cut profile may be defined by a pair of U-shaped cuts with one of the U-shaped cuts being inverted with respect to one another and with those U-shaped cuts overlapping one another to define the flexure portion.
  • the cut profiles are preferably identical with respect to one another with the cut profile on the second flexure plate being rotated 180° to the cut profile on the first flexure plate relative to an axis that is perpendicular to the linear axis.
  • the recording head may be secured to one or both of the flexure portions of the torsion spring, and this interconnection can include a spacer block as necessary for the particular recording device environment in which the positioning mechanism is employed.
  • the drive which translates the recording head may be of various types known in the art, but preferably is formed by a rotatable first cam having a first cam surface oriented transversely to the linear axis.
  • a motor is operative to rotate the first cam such that the cam surface operates to translate the recording head in a first direction along the linear axis against a restorative force of one of the first and second torsion springs.
  • a head cam block is preferably provided to interact with the rotatable cam, with the head cam block being secured to one of the first and second torsion springs.
  • the head cam block has a second cam surface oriented transversely to the linear axis with the second cam surface being engaged by the first cam surface.
  • the present invention also includes a head assembly that is adapted to read/write data on a recording medium that is advanced in a feed direction by a transport mechanism that includes a support frame.
  • the head assembly according to the invention includes the structure described above in combination with a recording head that is disposed between the interior surfaces of flexure portions of first and second flat torsion springs.
  • a drive again is disposed at one end of the recording head and advances the recording head in a first direction against the restorative force of one of the torsion springs such that the restorative force returns the recording head in a second direction along the linear axis.
  • first and second flexure portions are configured and oriented so that the first flexure portion applies a first angular torque that is opposite a second angular torque force applied by the second flexure portion so as to cancel angular rotation of the recording head about the linear axis.
  • Each of the torsion springs is preferably formed of a flat plate with the second flat torsion spring being thicker than the first flat torsion spring so that it has a larger spring constant than the first torsion spring.
  • Adjustment structure is also provided to permit alignment of the linear axis transversely at the tape feed direction so that the recorded tracks may be properly read.
  • the present invention also includes a device that is operative to read/write data on a recording medium.
  • the device includes a support frame having a docking station that is adapted to receive a holder for a recording medium.
  • a take-up mechanism is provided that is operative to advance the recording medium in the feed direction, and bearing elements are disposed on the support frame and are operative to support the recording medium as it is advanced in the feed direction from the holder to the take-up mechanism.
  • a recording head is disposed adjacent to the recording medium as it is advanced in the feeding direction with the recording head being oriented transversely to the feed direction.
  • First and second flat torsion springs are then supported on the support frame, with each having a flexure portion with opposed facing interior surfaces.
  • the recording head has a first end that engages the first flexure portion of the first flat torsion spring while the recording head has a second end that engages the second flexure portion of the second torsion spring.
  • a drive is then disposed at a first end of the recording head and is operative to advance the recording head in a first direction along the linear axis and against the second flexure portion such that a restorative force is applied by the second flexure portion to return the recording head in a second direction along the linear axis.
  • the flexure portions are configured and oriented so as to have canceling angular torque forces to resist angular rotation of the recording head about the linear axis.
  • Figure 1 is a front view in elevation showing a read/write recording device incorporating the positioning mechanism of the present invention
  • Figure 2 is a side view in partial cross-section showing the position mechanism of the present invention
  • Figure 3 is a rear exploded view in perspective of the read/write recording device of Figure 1;
  • Figure 4 is a front exploded view in perspective of the read/write recording head of Figure 1;
  • Figure 5 is a front view in elevation of a first torsion spring used in the positioning mechanism according to the exemplary embodiment of the present invention.
  • Figure 6 is a side view in partial cross-section showing a translational movement of the recording head by the positioning mechanism of the present invention.
  • the present invention concerns read/write recording devices adapted to selectively write data onto a recording medium. More particularly, however, this invention concerns a positioning mechanism which is operative to translate a read/write recording head reciprocally in a linear direction transversely to the direction of movement of the recording medium past the recording head so as to read one or more tracks on that recording medium.
  • this invention is described specifically with respect to the recording of information and data on a magnetic tape recording medium for subsequent retrieval, it should be clearly understood that the positioning mechanism of the present invention may be used with other recording medium.
  • the term “recording head” will be used to refer to either a “read only” transducer head, a “write only” transducer head or to a combination of a read/write transducer head.
  • the term “tape” or “recording media” is used to refer to magnetic media, optical media or any similar data storage technology now used or hereinafter developed with which the read/write head can be employed.
  • a recording device 10 is operable to read and write data on a recording medium.
  • Recording device 10 has a docking station 12 which receives a supply of the recording medium, for example, as contained in cassette or holder 14. Tape from holder 14 is advanced in a feed direction by a leader arm 16 so that it is threaded across a first air bearing 18, a read/write recording head 20 and a second air bearing 22. The tape medium is then introduced to a take-up spool 24 as is known in the art wherein it is wound during reading of the tape as it is translated between holder 14 and take-up spool 24.
  • Recording device 10 includes a support frame 26 that provides the docking station for recording device 10. It should be understood that recording head 20 is disposed adjacent to the recording medium when the recording medium is advanced in the feed direction with the recording head being oriented transversely to the feed direction along a linear axis "L" along which recording head 20 may be reciprocally translated. With reference now to Figures 1-4, it may be seen that the present invention provides a new and useful positioning mechanism that is operative to selectively position the recording head 20 relative to the support structure 26 which supports the recording head.
  • support structure 26 includes a yoke-shaped support element 28 that has an interior chamber 30 sized to receive a standard recording head, available from head manufacturers, for example, IBM Corp., STK Corp., Seagate Corp., Hitachi Corp. or Fujistu Corp. Chamber 30 is open at both the front and rear sides of recording device 10.
  • Support element 28 is secured to framework 26 and is adapted to mount a recording head support as well as to secure a motor support in the form of a skew plate 42 to support structure 26.
  • a bolt 32 extends through a bore 33 in support element 26 and a bushing 40 is received over bolt 32 in close fitted telescopic engagement.
  • a first cam nut 34 is matably received on bolt 32 and bushing 40 and is affixed to the interior surface 29 of support element 28 by any suitable means, such as an adhesive.
  • a second cam nut 48 is also matably received on bolt 32. Nuts 34 and 48 have facing cammed surfaces 35 and 49, respectively.
  • Framework 26 has two cooperating mounting posts 36 and 38 which project forwardly of support frame 26 at a central region of recording device 10 adjacent respectfully to air bearings 18 and 22.
  • Mounting post 36 has an inner threaded bore 37 while mounting post 38 is in the form of a threaded shaft that is rigidly secured to support frame 26.
  • Mounting post 40 is dimensioned to have a diameter similar to bolt 32 so that post 38 can telescopically receives a bushing 40, a cam nut 34 and a cam nut 48.
  • cam nut 34 is affixed to support frame 26 so that it is prevented from rotation.
  • Cam nuts 34 and 48 have facing cam surfaces 35 and 49, respectively.
  • Skew plate 42 is then secured to framework 26 by mounting posts 36 and 38 along with bolt 32 passing through mounting element 28.
  • skew plate 42 rests on cam nuts 48 as well as the upper surface of mounting post 36.
  • a bolt 45 extends through an opening 46 in skew plate 42 so that it may be fastened into the threaded bore 37 of post 36. Washers 43 and nuts 44 are received on the threaded ends of bolt 32 and threaded post 38 which pass through bores 46 and skew plate 42.
  • a first flexure plate 54 and a second flexure plate 56 are mounted in spaced apart facing relation to one another so as to substantially enclose chamber 30 of support element 28.
  • skew plate 42 has a central cavity 47 that opens into chamber 30 of support element 28.
  • First flexure plate 54 confronts skew plate 42 and is secured thereto by means of a flexure retainer plate 58 and bolts 60.
  • Bolts 60 extend through bores 62 in retainer plate 58 and fasten in threaded openings 64 in skew plate 42 such that first flexure plate 54 is sandwiched between retainer plate 58 and skew plate 42.
  • Second flexure plate 56 is simply fastened by means of plurality of screws 66 that extend through bores 68 and into threaded opening 70 in support 26. Flexure plates 54 and 56 thus have facing interior surfaces with each having an outer surface opposite its interior surface.
  • Recording head 20 may be seen to extend between and be mounted to first flexure plate 54 and second flexure plate 56.
  • a head spacer block 72 is L-shaped in configuration and is provided with three through bores 74 which align with threaded bores 76 in head 20. Through bores 74 and threaded bores 76 receive bolts 78 which fasten recording head 20 and head spacer block 72 directly to flexure plate 54, as described more thoroughly below.
  • a second end of recording head 20 is fastened to second flexure plate 56 by means of bolts 80 that extend through openings 82 in second flexure plate 56 so as to be secured and threaded bores 84 in the second end of recording 20.
  • a head cam block 86 is secured to an outer surface of first torsion spring 54 opposite the interior surface that confronts recording head 20.
  • Head cam block 86 is provided with a plurality of through bores 88 through which bolts 78 extend.
  • Head cam block 86 includes an upstanding cam surface 90 which mates with a second cam surface 92 formed on shaft cam 94 that is received by a stepper motor 96 for controlled rotation thereof.
  • Motor 96 is secured to retainer plate 58 by means of bolts 100 that extend through ears 102 of motor 96, through stand-offs 98 to be received in threaded bores 101.
  • Cam surfaces 90 and 92 are preferably 1/2° inclines that provide total lift of .040 inches or more. Thus, a rotation of 180° of shaft cam 94 will result in head movement of .020 inches or more.
  • Stepper motor 96 preferably has 400 steps per rotation, i.e., each step is an angular rotation of .9°. With the camming of surfaces 90 and 92 at 1/2°, each step provides a .00005 inch translation of recording head 20.
  • Shaft cam 94 is formed of non-magnetic material, such as stainless steel, while head cam block 86 is formed of a lubricous plastic material.
  • retainer plate 58 and first flexure plate 54 are pinned together for common movement by a pair of pins 102 that extend through openings 103 in retainer plate 58 and through openings 104 in first flexure plate 54. Pins 102 are press- fit into holes 103 and 104 and protrude into enlarged holes 105 formed in skew plate 42.
  • retainer plate 58 and first flexure plate 54 may be translated in a transverse plane with respect to skew plate 42.
  • retainer plate 58 is provided with a countersunk bore 106 that receives head 108 of a horizontal adjustment cam 107.
  • Cam 107 includes a longitudinally extending but actually off-set shaft 109 that extends into a slot 110 formed in skew plate 42.
  • the above described structure may now be appreciated to allow for independent adjustment of both axial skew of the translational axis of recording head 20 as well independent adjustment of tape penetration, that is, the distance between the surface of recording head 20 and tape medium 200 (see Figures 2 and 6) passing through recording device 10.
  • skew plate 42 is loosely assembled by securing it with bolts 32 and mounting posts 36 and 38. Rotation of each of cam nuts 48 relative to cam nuts 34 will cause skew plate 42 to tilt relative to framework 26.
  • This cam adjustment then allows factory or user alignment of head 20 for proper transverse movement with respect to a transport medium.
  • nuts 44 and bolt 45 are tightened to lock in skew adjustment.
  • bolts 60 may be slightly loosened and an instrument, such as a screw driver, inserted through the smaller portion of countersunk bore 106 to engage head 108 of cam 107.
  • an instrument such as a screw driver
  • retainer plate 58 and first flexure plate 54 are moved so that tape head 20 moves toward and away from the recording medium due to the off-set of shaft 109 acting in slot 110 of skew plate 42. This adjusts tape penetration without altering the skew of plate 42.
  • representative first flexure plate 54 is in the form of a flat spring steel or beryllium-copper plate having a region 120 that is supported by torsion spring portions 122 and 124 at opposite diagonal corners.
  • Central region 120 along with torsion spring portions 122, 124 is formed by a cut profile formed through the centrally of flexure plate 54. This cut profile is defined by a pair of symmetrical U-shaped cuts 127, 128 with U-shaped cut 128 being inverted and overlapped with respect to U-shaped cut 127.
  • U-shaped cut 127 has a pair of spaced apart leg portions 130, 132 which are parallel to one another and perpendicular to an inner connecting cut 134.
  • U- shaped cut 128 includes a pair of leg cuts 136 and 138 which are parallel to one another and perpendicular to a joining cut 140. Accordingly, the region between cuts 136 and 132 form a torsion bar 142 while the region of flexure plate 54 between cuts 130 and 138 form a torsion bar 1444 which flexes with a restorative force so as to allow flexure portion 120 to move inwardly and outwardly in the view shown in Figure 5.
  • second flexure plate 56 is identical to first flexure plate 54; however, the cut profile is of second flexure plate 56 rotated 180° during use with respect to an axis perpendicular to the translation axis "L" .
  • flexure plate 56 is again formed of the spring material, again preferably beryllium/copper and has a central flexure region 150 formed by similar first and second symmetrical U-shaped cuts as described above. Central region 150 may thus flex for movement inwardly and outwardly as shown in Figure 6.
  • first torsion spring 54 and second torsion spring 56 With the structure shown for first torsion spring 54 and second torsion spring 56, it may now be appreciated in reference to Figures 2 and 6 that rotation of shaft cam 94 by means of motor 92 causes cam surface 92 to act on cam surface 90 of head cam block 86 to translate recording head 20 in the direction of arrow "T" .
  • shaft cam 94 moves recording head 20 to the left (as shown in Figure 6) central region 120 and 150 of flexure plates 54 and 56, respectively, can bend against the spring constant of their respective torsion bars.
  • shaft cam 94 is reversed, the restorative forces of flexure portions 110 and 140 move recording head to the right (again as is shown in Figure 6).
  • torsion spring 56 be the same as the spring constant of torsion spring 54. If it is desired to have different spring constant then, torsion spring 56 may be formed out of the same material as torsion spring 54 but be slightly thicker in dimension. It is important to understand that, each individual flexure region 120, 150 would tend to rotate or swivel as it underwent a flexing motion. This motion would cause a rotation of head 20 angularly about the translation axis "L" and such rotation is highly undesirable. However, this tendency to rotate can be simply addressed by making sure that the cut profiles for springs 54 and 56 provide counteracting torques when the positioning mechanism is assembled.
  • the cut profiles which form central flexure regions 120 and 150 are U-shaped cuts generally describing three sides of a square with these U- shaped cuts being inverted with respect to one another and overlapped to form the torsion bars.
  • any suitable torsion spring system which would both allow translational movement of the recording head 20 along axis "L" would be sufficient so long as the torsion springs have counteracting rotational torques to prevent rotation of recording head 20. This can be accomplished by generally any cut profile for the flexure plates 54 and 56 which each provide a pair of torsion bars.

Abstract

L'invention concerne un dispositif d'enregistrement (10) permettant de lire et d'introduire des données dans un support d'enregistrement (200) qui présente un cadre support (26), un mécanisme d'enroulement (24), des paliers (18, 22) placés sur les côtés opposés d'une tête d'enregistrement (20). La tête (20) est montée de manière à effectuer un mouvement de translation par l'intermédiaire d'un ensemble de positionnement qui comprend une paire de plaques de flexion (54, 56) présentant des zones de flexion (120, 150) constituant des ressorts de torsion à couples opposés s'opposant au mouvement rotatif de la tête d'enregistrement (20) pendant le mouvement alternatif. Une unité comprend un moteur pas-à-pas (96) qui sert d'arbre à came (94) qui s'appuie contre un bloc à came de tête (86) de manière à déplacer une zone de flexion (120) et une tête d'enregistrement (20) à l'encontre d'une force de rappel de zones de flexion (120, 150). Des écrous de la came (34, 48) règlent l'inclinaison et l'élément à came (107) règle la profondeur de la bande.
PCT/US1997/016153 1997-09-11 1997-09-11 Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse WO1999013461A1 (fr)

Priority Applications (7)

Application Number Priority Date Filing Date Title
PCT/US1997/016153 WO1999013461A1 (fr) 1997-09-11 1997-09-11 Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse
AU42683/97A AU4268397A (en) 1997-09-11 1997-09-11 Read/write recording device and head positioning mechanism therefor
US08/945,479 US6078478A (en) 1997-09-11 1997-09-11 Read/write recording device and head positioning mechanism therefor
EP97941045A EP1012832A4 (fr) 1997-09-11 1997-09-11 Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse
JP2000511157A JP2003527716A (ja) 1997-09-11 1997-09-11 位置決め機構とヘッド組立体
NO20000929A NO20000929L (no) 1997-09-11 2000-02-25 Lese/skrive-registreringsanordning og hodeposisjoneringsanordning til denne
HK01100666A HK1030084A1 (en) 1997-09-11 2001-01-30 Read/write recording device and head positioning mechanism therefor.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/US1997/016153 WO1999013461A1 (fr) 1997-09-11 1997-09-11 Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse

Publications (1)

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WO1999013461A1 true WO1999013461A1 (fr) 1999-03-18

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PCT/US1997/016153 WO1999013461A1 (fr) 1997-09-11 1997-09-11 Dispositif d'enregistrement de lecture/ecriture et son mecanisme de positionnement de tete enregistreuse

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EP (1) EP1012832A4 (fr)
JP (1) JP2003527716A (fr)
AU (1) AU4268397A (fr)
HK (1) HK1030084A1 (fr)
WO (1) WO1999013461A1 (fr)

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US3624309A (en) * 1970-01-28 1971-11-30 Motorola Inc Mounting for shiftable magnetic head
US3705270A (en) * 1971-01-21 1972-12-05 Motorola Inc Mounting arrangement for a magnetic tape head including a spherical cam follower and an arcuately shaped tape head mounting bracket
US4363046A (en) * 1980-05-24 1982-12-07 Sony Corporation Deflectable transducer head assembly
US4646183A (en) * 1984-05-11 1987-02-24 North Atlantic Industries, Inc. Tracking head suspension for tape deck

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US5566039A (en) * 1994-10-26 1996-10-15 Storage Technology Corporation Read/write head positioning device

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Also Published As

Publication number Publication date
EP1012832A4 (fr) 2004-04-21
HK1030084A1 (en) 2001-04-20
EP1012832A1 (fr) 2000-06-28
AU4268397A (en) 1999-03-29
JP2003527716A (ja) 2003-09-16

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