WO1992009989A1 - Universal data storage element - Google Patents
Universal data storage element Download PDFInfo
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- WO1992009989A1 WO1992009989A1 PCT/US1991/008796 US9108796W WO9209989A1 WO 1992009989 A1 WO1992009989 A1 WO 1992009989A1 US 9108796 W US9108796 W US 9108796W WO 9209989 A1 WO9209989 A1 WO 9209989A1
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- WIPO (PCT)
- Prior art keywords
- data storage
- storage element
- storage media
- exterior housing
- supporting
- Prior art date
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- 238000013500 data storage Methods 0.000 title claims abstract description 157
- 230000003287 optical effect Effects 0.000 claims description 17
- 239000007787 solid Substances 0.000 claims description 9
- 238000000605 extraction Methods 0.000 claims description 7
- 239000000284 extract Substances 0.000 claims description 2
- 238000000034 method Methods 0.000 abstract description 6
- 230000007246 mechanism Effects 0.000 description 7
- 238000005516 engineering process Methods 0.000 description 4
- 238000001514 detection method Methods 0.000 description 2
- 230000014759 maintenance of location Effects 0.000 description 2
- 238000007726 management method Methods 0.000 description 2
- 230000013011 mating Effects 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000007704 transition Effects 0.000 description 2
- 241000197200 Gallinago media Species 0.000 description 1
- 239000000969 carrier Substances 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 230000004069 differentiation Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 238000007373 indentation Methods 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 230000000135 prohibitive effect Effects 0.000 description 1
Classifications
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B33/00—Constructional parts, details or accessories not provided for in the other groups of this subclass
- G11B33/02—Cabinets; Cases; Stands; Disposition of apparatus therein or thereon
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B15/00—Driving, starting or stopping record carriers of filamentary or web form; Driving both such record carriers and heads; Guiding such record carriers or containers therefor; Control thereof; Control of operating function
- G11B15/675—Guiding containers, e.g. loading, ejecting cassettes
- G11B15/68—Automatic cassette changing arrangements; automatic tape changing arrangements
- G11B15/682—Automatic cassette changing arrangements; automatic tape changing arrangements with fixed magazines having fixed cassette storage cells, e.g. in racks
- G11B15/6825—Details of magazines, e.g. removable, adapted for cassettes of different sizes
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B17/00—Guiding record carriers not specifically of filamentary or web form, or of supports therefor
- G11B17/22—Guiding record carriers not specifically of filamentary or web form, or of supports therefor from random access magazine of disc records
-
- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B23/00—Record carriers not specific to the method of recording or reproducing; Accessories, e.g. containers, specially adapted for co-operation with the recording or reproducing apparatus ; Intermediate mediums; Apparatus or processes specially adapted for their manufacture
- G11B23/02—Containers; Storing means both adapted to cooperate with the recording or reproducing means
- G11B23/04—Magazines; Cassettes for webs or filaments
- G11B23/049—Cassettes for special applications not otherwise provided for
Definitions
- This invention relates to data storage systems and, in particular, to a data storage element that
- transition from one media to another is generally controlled by the need to change one of the primary storage subsystem characteristics such as volumetric efficiency of data stored per unit of space occupied, access performance (e.g. load, serach, transfer times, etc.), cost, reliability, archival data storage capabilities (e.g. shelf life, environmental hardness, format standards, etc.), or management (e.g. media interchange, automated handling, catalogue systems, physical facilities, etc.).
- volumetric efficiency of data stored per unit of space occupied e.g. load, serach, transfer times, etc.
- cost e.g. shelf life, environmental hardness, format standards, etc.
- management e.g. media interchange, automated handling, catalogue systems, physical facilities, etc.
- An example of these automated library systems is the 4400 Automated Cartridge System manufactured by Storage Technology Corporation, which provides economical and efficient handling of thousands of the industry standard 3480-type magnetic tape cartridge for an associated plurality of tape cartridge drive systems but the requires the user to commit to a significant investment in 3480-type tape cartridges and tape drives.
- the robotic media handling elements in an automated library system typically can not handle diverse types of media, since such robots are typically designed to handle a specific media having a specific form factor. Furthermore if it were possible to introduce different media of similar form factor, management would require a way to identify and differentiate individual media units.
- the automated library system provides tremendous data storage and data retrieval performance improvement, it has the disadvantage of constraining the user to a specific media having a specific form factor.
- the above described problems are solved and a technical advance achieved in the field by the universal data storage element of the present invention.
- Existing removable media data storage and retrieval systems are predicated on the use of removable data storage elements of predefined, uniform external dimensions, internal structure, media and recording characteristics.
- the universal data storage element of the present invention presents a uniform form factor data storage element but enables the user to vary the contents to include a selection of media types with or without electronic controls or further to include miniaturized drive elements. These would be used therein to provide variable data storage and/or recording characteristics.
- This invention also presents encoding means for identifying the content of the universal data storage element.
- the use of the universal data storage element varies the data storage capability of the data storage element to be consistent with the data recording technique used by devices associated with either system. This capability enables the user to connect a diversity of drive elements to the computer system without having to have a corresponding diversity in media element handling systems. This is accomplished by the use of a standardized data storage element having a form factor of substantially uniform exterior dimensions and adapted to receive any one of a plurality of different media types.
- the industry standard 3480-type magnetic tape cartridge form factor is used to illustrate the invention.
- the 3480-type magnetic tape cartridge consists of a substantially rectangular exterior housing which contains a single reel of magnetic tape, which tape has a leader block affixed to one end. The leader block is exposed through an opening in the exterior housing of the magnetic tape cartridge, for use by an associated tape drive to retrieve the tape from the magnetic tape cartridge.
- the universal data storage element includes an opening at one end of the housing through which the associated drive element can access the media contained within the data storage element.
- the media itself is located within the data storage element and is either permanently mounted therein or is mounted on a carriage member which renders the media or a connector that enables one to record on the media to be extracted from the exterior housing.
- the specifics of such a carriage mechanism vary with differing types of media contained thereon.
- An associated interface element is incorporated between the drive element and the automated library system or manual media storage and retrieval system in order to physically interface the universal data storage element with the media standard drive element.
- the interface element receives the universal data storage element from the automated library system, or from a user, decodes the media type and if compatible accesses the media stored in the data storage element. This access can be in the form of inserting a recording element into the universal data storage element, extracting a connector attached to the data storage media contained within the universal data storage element, or extracting the media from the housing using the carriage of the data storage element.
- the interface element physically loads the retrieved media or connector into the associated drive element which enables the reading and writing of data on the media.
- the use of a fixed form factor universal data storage element enables the user to equip a library system with a plurality of diverse drive elements, each requiring a different type of media.
- the variability of the media within the universal data storage element and the associated interface elements enables the physical handling of every data storage element in a uniform manner.
- Figure 1 illustrated the overall architecture of the universal data storage element
- Figures 2 - 11 illustrate varying embodiments of the universal data storage element.
- the universal data storage element of the present invention presents a uniform form factor data storage element but enables the user to vary the contents to include a selection of media types or miniaturized drive elements used therein to provide variable data storage and/or recording characteristics. This enables the user to use multiple types of media in an automated library system or a manually operated media storage and retrieval system, since the form factor of all of the data storage elements contained therein is uniform.
- the use of the universal data storage element varies the data storage capability of the data storage element to be consistent with the data recording technique used therein.
- This capability enables the user to use a diversity of drive elements connected to the computer system without having to have a corresponding diversity in media element handling systems. This is accomplished by the use of a standardized data storage element having a form factor of substantially uniform exterior dimensions and adapted to receive any one of a plurality of different media types.
- FIG 1 illustrates the overall architecture of the universal data storage element 100.
- This data storage element 100 consists of an exterior housing 101 that substantially matches the industry standard -9-
- Exterior housing 101 consists of a fixed housing body 102 to which is hingably affixed an access door 103 to provide access to the media located within exterior housing 101.
- the multi-media data storage element 100 contains a carrier 110 which is slidably connected to a pair of guide rails 111, 112 which are affixed to the interior walls of housing body 102 on opposite facing interior walls thereof.
- Carrier 110 is extensible from a loaded position, wherein it is located fully within exterior housing 101, to an extracted position, wherein all or part of carrier 110 is supported on guides 111, 112 in a position exterior to housing 101.
- the standard leader block 115 of the 3480-type magnetic tape cartridge can be used as an element to accomplish the carrier withdrawal function.
- This leader block 115 is affixed either directly to carrier 110 or to an extension arm 114 that is itself affixed to carrier 110 to provide a point of contact for a media withdrawal element in the associated interface element 130.
- a mounting pin mechanism 116 in the interface element 130 receives leader block 115 and pulls carrier 110 with its associated media out of cartridge housing 101 by moving leader block 115 in the direction indicated by arrow A.
- Carrier 110 is of a configuration and dimension to support in a secure manner the media that is housed within exterior housing 101.
- An alternative or supplementary media extraction mechanism is the use of a tractor mechanism 131, 132 located within interface element 130.
- the tractor arms 131, 132 lift the media (e.g. tape cassette 120) from carrier 110 and transport the media out of exterior housing 101.
- the tractor arms 131, 132 present the retrieved media to the associated drive element for reading/writing data thereon.
- the universal data storage element 100 uses various media types. There is the potential for damage to the media contained within the universal data storage element 100, or the associated interface element 130 or the drive if the media is incompatible with the associated drive.
- One method of avoiding this problem is to "encode" the universal data storage element 100 to identify the media stored therein.
- One possible encoding scheme is to modify leader block 115 so that only an appropriate match of the mounting pin 116 and leader block 115 would accomplish loading the media. If the leader block 115 gap is too large or too small or the leader block is omitted entirely, the mounting pin 116 can not grab leader block 115 and the loading process will abort.
- Another media encoding scheme is the use of physical or optical features on the exterior of housing 101.
- An example of such features is the use of a pattern of ridges 104 (or indentations) located on one side of housing 101, which pattern corresponds to the media contained within universal data storage element 100.
- a corresponding coding detection apparatus in interface element 130 detects the presence and pattern of ridges 104 to determine whether the media contained in this universal data storage element 100 is compatible with the associated drive element. The presence of an incompatible media would abort the loading process prior to the interface element 130 attempting to access the media contained within housing 101.
- the ridge detection itself can be accomplished by the use of a mechanically oriented sensor (ex. - roller equipped microswitch) or an optical sensor which detects the pattern of ridges 104 or similarly patterned features imprinted on housing 101 for optical reading.
- a typical pattern can be a bar-code or machine-readable alphanumeric character.
- FIG. 1 - 5 Various embodiments are illustrated in Figures 1 - 5 to show the use of a tape cassette 120 which consists of its own exterior housing within which is placed two rotatably mounted coplanar reels 121, 122 for transporting magnetic tape therebetween.
- This well known tape cassette architecture represents presently available magnetic media, whether linearly or helically recorded, which is incompatible with the form factor of the tape cartridges processed by 3480- type magnetic tape storage and retrieval systems.
- the concept illustrated by universal data storage element 100 is extensible to numerous recording technologies such that magnetic tape of various exterior form factors and tape dimensions can be incorporated in universal data storage element 100. In addition disks whether hard or floppy of magnetic or optical recording technology can be used therein.
- the media contained within universal data storage element 100 as a disk shaped recording media is illustrated in Figures 6 and 7.
- the disk shaped recording media can be an independent platter 601 which is retrieved from within the universal data storage element 100 by use of the carrier 110 as disclosed above.
- the platter 601 is then placed onto a drive mechanism in the associated drive element.
- the disk platter 601 can be of varying implementations, either a floppy or hard disk for magnetic or optical recording of data thereon.
- carrier 110 can be configured to provide the associated interface element 130 with access to a plurality of media elements stored within universal data storage element 100.
- a plurality of disks 701- 704 typically can be stored in exterior housing 101 and all simultaneously retrieved by the operation of carrier 110 or individually by the use of a plurality of carriers 110 or an appropriate segmented carrier 110 mechanism.
- the disk format jnedia .stored in data storage element 100 are rotating media elements.
- the disk format media can therefore be removable from carrier 110 to be placed in a corresponding disk drive or rotatably affixed to carrier 110 ( Figure 7) .
- door 103 is opened by the associated interface element and carrier 110 is extracted from housing 101 a sufficient distance to enable a drive mechanism to rotate the disk and provide recording elements with access to the data storage surface thereon.
- a connector 801 is affixed to the interior of the housing 101 at the end closest to the opening in universal data storage element 100.
- the connector 801 can be an integral part of the drive element 1002 or solid state memory module 802 or connected thereto and removable therefrom. In either case, the access is accomplished by the interface element 130, which directly mates the drive element or memory module with controlling elements or partially or fully extracts the connector 801 from exterior housing 101 to be plugged into a mating connector piece in associated drive or control elements.
- the miniaturized drive element 1002 or solid state memory module 802 are fixed within the housing and its associated connector 1001/801 is the media element that is accessed by interface element 130.
- the connector 1001/801 can be fixed (ex - edge board connecter) and directly plugged into a mating connection in the drive element or movable for partial/full extraction from the housing.
- the universal data storage element of the present invention provides a uniform media form factor of well defined exterior dimensions for a multitude of data storage media.
- a computer system can be equipped with an automated library system or a uniform storage and retrieval system of a manual nature to handle diverse types of media.
- the use of a consistent exterior housing form factor for the various types of media therefore simplifies the mechanical data storage element storage and retrieval operation.
- the use of the universal data storage element enables the user to store data on media that is appropriate for the nature of the data as well as provide a variable selection of drive elements for the computer system without the logistical complexities of diverse and incompatible media types.
- the universal data storage element supports magnetic tape, magnetic disk, optical disk, solid state memory in varying specific forms and data recording formats.
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- Management Or Editing Of Information On Record Carriers (AREA)
Abstract
The universal data storage element (100) presents a uniform form factor data storage element but enables the user to vary the contents to include a selection of media types (601, 70*, 802) or miniaturized drive elements (1002) used therein to provide variable data storage and/or recording characteristics. This enables the user to use multiple types of media in an automated library system or a manually operated media storage and retrieval system, since the form factor of all of the data storage elements contained therein is uniform. The use of the universal data storage element (100) provides the capability of varying the data storage capabilities of the data storage element to be consistent with the data recording technique used therein. This capability enables the user to use a diversity of drive elements connected to the computer system without having to have a corresponding diversity in media element handling systems.
Description
UNIVERSAL DATA STORAGE ELEMENT
CROSS REFERENCE TO RELATED APPLICATIONS
This application is related to a patent application titled VIRTUAL ROBOT FOR A MULTIMEDIA 5 AUTOMATED CARTRIDGE LIBRARY SYSTEM, Serial No. 07/616,667, filed November 21, 1990.
FIELD OF THE INVENTION
This invention relates to data storage systems and, in particular, to a data storage element that
10 presents a data storage element form factor having substantially uniform exterior dimensions and containing media of variable type and configuration.
PROBLEM
It is problem in data processing systems to 15 provide data storage capacity that is adaptable to the varying needs of the computer system. Existing data storage subsystems are inflexible, based on a single type of media, having predetermined mechanical, electrical, and operational constraints. A computer 20 system user must therefore purchase a mixture of data storage subsystems to match the data storage capabilities with the nature of the data stored thereon. The selection of a data storage subsystem
' s also forces the user to restrict the media to a type
that matches the installed data storage subsystem. Often, the cost of additional incompatible data storage subsystems is prohibitive. The transition from one media to another is generally controlled by the need to change one of the primary storage subsystem characteristics such as volumetric efficiency of data stored per unit of space occupied, access performance (e.g. load, serach, transfer times, etc.), cost, reliability, archival data storage capabilities (e.g. shelf life, environmental hardness, format standards, etc.), or management (e.g. media interchange, automated handling, catalogue systems, physical facilities, etc.). For removable media types, the effects of such transitions are exacerbated by the use of large automated library systems. An example of these automated library systems is the 4400 Automated Cartridge System manufactured by Storage Technology Corporation, which provides economical and efficient handling of thousands of the industry standard 3480-type magnetic tape cartridge for an associated plurality of tape cartridge drive systems but the requires the user to commit to a significant investment in 3480-type tape cartridges and tape drives. The robotic media handling elements in an automated library system typically can not handle diverse types of media, since such robots are typically designed to handle a specific media having a specific form factor. Furthermore if it were possible to introduce different media of similar form factor, management would require a way to identify and differentiate individual media units. Thus, while the automated library system provides tremendous data storage and data retrieval performance improvement, it has the disadvantage of constraining the user to a
specific media having a specific form factor.
SOLϋTION
The above described problems are solved and a technical advance achieved in the field by the universal data storage element of the present invention. Existing removable media data storage and retrieval systems, whether manual or robotic, are predicated on the use of removable data storage elements of predefined, uniform external dimensions, internal structure, media and recording characteristics. The universal data storage element of the present invention presents a uniform form factor data storage element but enables the user to vary the contents to include a selection of media types with or without electronic controls or further to include miniaturized drive elements. These would be used therein to provide variable data storage and/or recording characteristics. This invention also presents encoding means for identifying the content of the universal data storage element. This enables the user to use multiple types of media in an automated library system or a manually operated media storage and retrieval system, since the form factor of all of the data storage elements contained therein is uniform. The use of the universal data storage element varies the data storage capability of the data storage element to be consistent with the data recording technique used by devices associated with either system. This capability enables the user to connect a diversity of drive elements to the computer system without having to have a corresponding diversity in media element handling systems. This is accomplished by the use of a standardized data storage element having a form factor of substantially uniform exterior dimensions and adapted to receive any one of
a plurality of different media types.
In the preferred embodiment disclosed herein, the industry standard 3480-type magnetic tape cartridge form factor is used to illustrate the invention. The 3480-type magnetic tape cartridge consists of a substantially rectangular exterior housing which contains a single reel of magnetic tape, which tape has a leader block affixed to one end. The leader block is exposed through an opening in the exterior housing of the magnetic tape cartridge, for use by an associated tape drive to retrieve the tape from the magnetic tape cartridge.
Using this exterior housing, the universal data storage element includes an opening at one end of the housing through which the associated drive element can access the media contained within the data storage element. The media itself is located within the data storage element and is either permanently mounted therein or is mounted on a carriage member which renders the media or a connector that enables one to record on the media to be extracted from the exterior housing. The specifics of such a carriage mechanism vary with differing types of media contained thereon.
An associated interface element is incorporated between the drive element and the automated library system or manual media storage and retrieval system in order to physically interface the universal data storage element with the media standard drive element. Thus, the interface element receives the universal data storage element from the automated library system, or from a user, decodes the media type and if compatible accesses the media stored in the data storage element. This access can be in the form of inserting a recording element into the universal data
storage element, extracting a connector attached to the data storage media contained within the universal data storage element, or extracting the media from the housing using the carriage of the data storage element. When extracting either the media or the connector to the media from the housing, the interface element physically loads the retrieved media or connector into the associated drive element which enables the reading and writing of data on the media. Thus, the use of a fixed form factor universal data storage element enables the user to equip a library system with a plurality of diverse drive elements, each requiring a different type of media. The variability of the media within the universal data storage element and the associated interface elements enables the physical handling of every data storage element in a uniform manner.
-1-
BR EF DESCRIPTION OF THE DRAWING
Figure 1 illustrated the overall architecture of the universal data storage element;
Figures 2 - 11 illustrate varying embodiments of the universal data storage element.
DETAILED DESCRIPTION
Existing removable media data storage and retrieval systems, whether manual or robotic, are predicated on the use of removable data storage elements of predefined, uniform external dimensions internal structure, media and recording characteristics. The universal data storage element of the present invention presents a uniform form factor data storage element but enables the user to vary the contents to include a selection of media types or miniaturized drive elements used therein to provide variable data storage and/or recording characteristics. This enables the user to use multiple types of media in an automated library system or a manually operated media storage and retrieval system, since the form factor of all of the data storage elements contained therein is uniform. The use of the universal data storage element varies the data storage capability of the data storage element to be consistent with the data recording technique used therein. This capability enables the user to use a diversity of drive elements connected to the computer system without having to have a corresponding diversity in media element handling systems. This is accomplished by the use of a standardized data storage element having a form factor of substantially uniform exterior dimensions and adapted to receive any one of a plurality of different media types.
Universal Data Storage Element Architecture Figure 1 illustrates the overall architecture of the universal data storage element 100. This data storage element 100 consists of an exterior housing 101 that substantially matches the industry standard
-9-
3480-type tape cartridge in exterior dimensions and configuration. Further details are shown in Figures 2 - 11.
Exterior housing 101 consists of a fixed housing body 102 to which is hingably affixed an access door 103 to provide access to the media located within exterior housing 101. Within exterior housing 101, the multi-media data storage element 100 contains a carrier 110 which is slidably connected to a pair of guide rails 111, 112 which are affixed to the interior walls of housing body 102 on opposite facing interior walls thereof. Carrier 110 is extensible from a loaded position, wherein it is located fully within exterior housing 101, to an extracted position, wherein all or part of carrier 110 is supported on guides 111, 112 in a position exterior to housing 101.
Media Retrieval
In order to effectuate the movement of carrier 110, there are a number of implementations that are possible. As illustrated in the figures, the standard leader block 115 of the 3480-type magnetic tape cartridge can be used as an element to accomplish the carrier withdrawal function. This leader block 115 is affixed either directly to carrier 110 or to an extension arm 114 that is itself affixed to carrier 110 to provide a point of contact for a media withdrawal element in the associated interface element 130. A mounting pin mechanism 116 in the interface element 130 receives leader block 115 and pulls carrier 110 with its associated media out of cartridge housing 101 by moving leader block 115 in the direction indicated by arrow A. Carrier 110 is of a configuration and dimension to support in a secure
manner the media that is housed within exterior housing 101.
An alternative or supplementary media extraction mechanism is the use of a tractor mechanism 131, 132 located within interface element 130. The tractor arms 131, 132 lift the media (e.g. tape cassette 120) from carrier 110 and transport the media out of exterior housing 101. There are typically provided pressure fit retention elements, including flexible fingers, bands, or as illustrated in the Figures 1 - 5, retention pads 118 to secure tape cassette 120 in the media loaded position on carrier 110. The tractor arms 131, 132 present the retrieved media to the associated drive element for reading/writing data thereon.
Media Variations and Differentiation
At present, there is only one media type loaded into the commercially available 3480-type magnetic tape cartridge. The universal data storage element 100 uses various media types. There is the potential for damage to the media contained within the universal data storage element 100, or the associated interface element 130 or the drive if the media is incompatible with the associated drive. One method of avoiding this problem is to "encode" the universal data storage element 100 to identify the media stored therein. One possible encoding scheme is to modify leader block 115 so that only an appropriate match of the mounting pin 116 and leader block 115 would accomplish loading the media. If the leader block 115 gap is too large or too small or the leader block is omitted entirely, the mounting pin 116 can not grab leader block 115 and the loading process will abort.
Another media encoding scheme is the use of physical or optical features on the exterior of housing 101. An example of such features is the use of a pattern of ridges 104 (or indentations) located on one side of housing 101, which pattern corresponds to the media contained within universal data storage element 100. A corresponding coding detection apparatus in interface element 130 detects the presence and pattern of ridges 104 to determine whether the media contained in this universal data storage element 100 is compatible with the associated drive element. The presence of an incompatible media would abort the loading process prior to the interface element 130 attempting to access the media contained within housing 101.
The ridge detection itself can be accomplished by the use of a mechanically oriented sensor (ex. - roller equipped microswitch) or an optical sensor which detects the pattern of ridges 104 or similarly patterned features imprinted on housing 101 for optical reading. A typical pattern can be a bar-code or machine-readable alphanumeric character.
Various embodiments are illustrated in Figures 1 - 5 to show the use of a tape cassette 120 which consists of its own exterior housing within which is placed two rotatably mounted coplanar reels 121, 122 for transporting magnetic tape therebetween. This well known tape cassette architecture represents presently available magnetic media, whether linearly or helically recorded, which is incompatible with the form factor of the tape cartridges processed by 3480- type magnetic tape storage and retrieval systems. The concept illustrated by universal data storage element 100 is extensible to numerous recording technologies
such that magnetic tape of various exterior form factors and tape dimensions can be incorporated in universal data storage element 100. In addition disks whether hard or floppy of magnetic or optical recording technology can be used therein.
The media contained within universal data storage element 100 as a disk shaped recording media is illustrated in Figures 6 and 7. The disk shaped recording media can be an independent platter 601 which is retrieved from within the universal data storage element 100 by use of the carrier 110 as disclosed above. The platter 601 is then placed onto a drive mechanism in the associated drive element. The disk platter 601 can be of varying implementations, either a floppy or hard disk for magnetic or optical recording of data thereon. Furthermore, carrier 110 can be configured to provide the associated interface element 130 with access to a plurality of media elements stored within universal data storage element 100. A plurality of disks 701- 704 typically can be stored in exterior housing 101 and all simultaneously retrieved by the operation of carrier 110 or individually by the use of a plurality of carriers 110 or an appropriate segmented carrier 110 mechanism. The disk format jnedia .stored in data storage element 100 are rotating media elements. The disk format media can therefore be removable from carrier 110 to be placed in a corresponding disk drive or rotatably affixed to carrier 110 (Figure 7) . In this latter configuration, door 103 is opened by the associated interface element and carrier 110 is extracted from housing 101 a sufficient distance to enable a drive mechanism to rotate the disk and provide recording elements with access to the data
storage surface thereon.
Other technologies such as miniaturized drive elements or solid state memory can be used within this universal data storage element (Figures 8 -11) . A connector 801 is affixed to the interior of the housing 101 at the end closest to the opening in universal data storage element 100. The connector 801 can be an integral part of the drive element 1002 or solid state memory module 802 or connected thereto and removable therefrom. In either case, the access is accomplished by the interface element 130, which directly mates the drive element or memory module with controlling elements or partially or fully extracts the connector 801 from exterior housing 101 to be plugged into a mating connector piece in associated drive or control elements. In this embodiment, the miniaturized drive element 1002 or solid state memory module 802 are fixed within the housing and its associated connector 1001/801 is the media element that is accessed by interface element 130. The connector 1001/801 can be fixed (ex - edge board connecter) and directly plugged into a mating connection in the drive element or movable for partial/full extraction from the housing.
fiι_.n_ιιι»τ-γ
The universal data storage element of the present invention provides a uniform media form factor of well defined exterior dimensions for a multitude of data storage media. A computer system can be equipped with an automated library system or a uniform storage and retrieval system of a manual nature to handle diverse types of media. The use of a consistent exterior housing form factor for the various types of media
therefore simplifies the mechanical data storage element storage and retrieval operation. The use of the universal data storage element enables the user to store data on media that is appropriate for the nature of the data as well as provide a variable selection of drive elements for the computer system without the logistical complexities of diverse and incompatible media types. The universal data storage element supports magnetic tape, magnetic disk, optical disk, solid state memory in varying specific forms and data recording formats.
While a specific embodiment of this invention has been disclosed, it is expected that those skilled in the art can and will design alternate embodiments of this invention that fall within the scope of the appended claims.
Claims
1. A data storage cartridge (100) capable of housing any one of a plurality of different types of data storage media (120, 601, 70*, 802, 1002), said cartridge (100) capable of being inserted into a unit (130) for reading/writing data on said media (120, 601, 70*, 802, 1002), to enable uniform handling of said different types of data storage media in a data storage and retrieval system, said predefined plurality different types of data storage media (120, 601, 70*, 802, 1002) consisting of a magnetic tape (120) and at least one other type (601, 70*, 802, 1002) , such as a magnetic disk (70*) , an optical disk (602) , a solid state memory (802) , and a miniaturized drive element (1002), said data storage cartridge (100) comprising: exterior housing means (101) , having predetermined exterior dimensions and an interior, to present a uniform physical data storage element size and shape to said data storage and retrieval system, and having an opening in one end thereof; carrier means (110 - 115) , slidably attached to the interior of said exterior housing means (101) , for transporting a data storage media (120, 601, 70*, 802, 1002) in said exterior housing means (101); cover means (103) , hingeably attached to said exterior housing means (101) , for enclosing said opening; wherein said carrier means (110 - 115) is slidably operable, when said cover means (103) is positioned to expose said opening, to at least partially extract said data storage media (120, 601, 70*, 802, 1002) from said exterior housing means (101) through said opening.
2. The data storage element (100) of claim 1 wherein said carrier means (110 - 115) includes: means (111) , having first and second sides, for supporting a selected data storage media (120, 601, 70*, 802, 1002) ; a pair of guide means (111, 112) , each located on one of said sides of said supporting means (110) and affixed to the interior of said exterior housing means (101) for slidably guiding said supporting means (110) between a first position, wherein said supporting means (110) is located completely within said exterior housing means (101) , and a second position, wherein said supporting means (110) at least partially exits said exterior housing means (101) through said opening.
3. The data storage element (100) of claim 2 wherein said carrier means (110 - 115) further includes: means (114, 115), attached to said supporting means (110) , for enabling mechanical extraction of said supporting means (110) from said exterior housing means (101) through said opening.
4. The data storage element (100) of claim 3 wherein said enabling means (114, 115) comprises: retrieval arm means (114) having first and second ends, wherein said first end is connected to said supporting means (110) and said second end is positioned proximate to said opening when said supporting means (110) is located in said first position.
5. The data storage element (100) of claim 4 wherein said enabling means (114, 115) further includes: means (115), attached to said second end of said retrieval arm means (114) , for providing a point of connection for said mechanical extraction of said supporting means (110) .
6. The data storage element (100) of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises a magnetic disk (70*), said carrier means (110 - 115) further includes: means (705) for rotatably mounting said magnetic disk (70*) on said supporting means (110) .
7. The data storage element of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises an optical disk (601) , said carrier means (110 - 115) further includes: means (602) for rotatably mounting said optical disk (601) on said supporting means.
8. The data storage element of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises a magnetic tape cassette (120) , said carrier means (110 - 115) further includes: means (113) for releasably retaining said magnetic tape cassette (120) in a predetermined position on said supporting means (110) .
9. The data storage element (100) of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises a magnetic disk (70*), said carrier means (110 - 115) further includes: means (113) for releasably retaining said magnetic disk (70*) in a predetermined position on said supporting means (110) .
10. The data storage element (100) of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises an optical disk (601), said carrier means (110) further includes: means (113) for releasably retaining said optical disk (601) in a predetermined position on said supporting means (110) .
11. The data storage element of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises a magnetic tape cartridge (120) , said carrier means (110 - 115) further includes: means (113) for releasably retaining said magnetic tape cartridge (120) in a predetermined position on said supporting means (110) .
12. The data storage element (100) of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises a solid state memory (802) having a connector (801) attached thereto, said carrier means (110 - 115) further includes: means (803) for affixing said connector to said carrier means (110 - 115) .
13. The data storage element (100) of claim 12 wherein said connector (801) is partially extracted from said exterior housing means (101) .
14. The data storage element (100) of claim 2 wherein said selected data storage media (120, 601, 70*, 802, 1002) comprises a miniaturized drive element (1002) having a connector (1001) attached thereto, said carrier means (110 - 115) further includes: means (1003) for affixing said connector (1001) to said carrier means (110 - 115) .
15. The data storage element (100) of claim 14 wherein said connector (1001) is partially extracted from said exterior housing means (101) .
16. A data storage cartridge capable of housing any one of a plurality of different types of data storage media (120, 601, 70*, 802, 1002), said cartridge capable of being inserted into a unit for reading/writing data on said media, to enable uniform handling of said different types of data storage media in a data storage and retrieval system, said predefined plurality of different types of data storage media consisting of a magnetic tape of at least one other type, such as a magnetic disk, an optical disk, a solid state memory, and a miniaturized drive element, said data storage cartridge comprising: exteriorhousingmeans, havingpredetermined exterior dimensions and an interior, to present a uniform physical data storage element image to said data storage and retrieval system, and having an opening in one end thereof; cover means, hingeably attached to said exterior housing means, for enclosing said opening; carrier means, slidably attached to the interior of said exterior housing means, for transporting a data storage media in said exterior housing means between a first position, wherein said carrier means is located completely within said exterior housing means, and a second position, wherein said carrier means at least partially exits said exterior housing means through said opening when said cover means is positioned to expose said opening.
17. The data storage element of claim 16 wherein said carrier means includes: means, having first and second sides, for supporting a selected data storage media; a pair of guide means, each located on one of said sides of said supporting means and affixed to the interior of said exterior housing means for slidably guiding said supporting means between said first position and said second position.
18. The data storage element of claim 17 wherein said carrier means further includes: means, attached to said supporting means, for enabling mechanical extraction of said supporting means from said exterior housing means through said opening.
19. The data storage element of claim 18 wherein said enabling means comprises: retrieval arm means having first and second ends, wherein said first end is connected to said supporting means and said second end is positioned proximate to said opening when said supporting means is located in said first position.
20. The data storage element of claim 19 wherein said enabling means further includes: means, attached to said second end of said retrieval arm means, for providing a point of connection for said mechanical extraction of said supporting means.
21. The data storage element of claim 17 wherein said selected data storage media comprises a magnetic disk, said carrier means further includes: means for rotatably mounting said magnetic disk on said supporting means.
22. The data storage element of claim 17 wherein said selected data storage media comprises an optical disk, said carrier means further includes: means for rotatably mounting said optical disk on said supporting means.
23. The data storage element of claim 17 wherein said selected data storage media comprises a magnetic tape cassette, said carrier means further includes: means for releasably retaining said magnetic tape cassette in a predetermined position on said supporting means.
24. The data storage element of claim 16 wherein said data storage media comprises a magnetic tape cartridge, said carrier means further includes: means for releasably retaining said magnetic tape cartridge in a predetermined position on said supporting means.
25. The data storage element of claim 18 wherein said selected data storage media comprises a magnetic disk, said carrier means further includes: means for releasably retaining said magnetic disk in a predetermined position on said supporting means .
26. The data storage element of claim 18 wherein said selected data storage media comprises an optical disk, said carrier means further includes: means for releasably retaining said optical disk in a predetermined position on said supporting means.
27. The data storage element of claim 18 wherein said selected data storage media comprises a solid state memory having a connector attached thereto, said carrier means further includes: means for affixing said connector to said supporting means.
28. The data storage element of claim 27 wherein said connector is partially extracted from said exterior housing means.
29. The data storage element of claim 18 wherein said selected data storage media comprises a miniaturized drive element having a connector attached thereto, said carrier means further includes: means for affixing said connector to said carrier means.
30. The data storage element of claim 29 wherein said connector is partially extracted from said exterior housing means.
31. A data storage cartridge capable of housing any one of a plurality of different types of data storage media, said cartridge capable of being inserted into a unit for reading/writing data on said media, to enable uniform handling of said different types of data storage media in a data storage and retrieval system, said predefined plurality of different types of data storage media consisting of a magnetic tape and at least one other type, such as a magnetic disk, an optical disk, a solid state memory, and a miniaturized drive element, said data storage cartridge comprising: exteriorhousingmeans, havingpredetermined exterior dimensions and an interior to present a uniform physical data storage element size and shape to said data storage and retrieval system, and having an opening in one end thereof; cover means, hingeably attached to said exterior housing means, for enclosing said opening; carrier means, slidably attached to the interior of said exterior housing means, for transporting a data storage media in said exterior housing means between a first position, wherein said supporting means is located completely within said exterior housing means, and a second position, wherein said supporting means at least partially exits said exterior housing means through said opening when said cover means is positioned to expose said opening, including: means, having first and second sides, for supporting a selected data storage media, a pair of guide means, each located on one of said sides of said supporting means and affixed to the interior of said exterior housing means, for slidably guiding said supporting means between said first position and said second position, retrieval arm means having first and second ends, wherein said first end is connected to said supporting means and said second end is positioned proximate to said opening when said supporting means is located in said first position, means, attached to said second end of said retrieval arm means, for providing a point of connection for said mechanical extraction of said supporting means.
32. The data storage element of claim 31 wherein said exterior housing means is a 3480-type magnetic tape cartridge form factor.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US62027590A | 1990-11-30 | 1990-11-30 | |
US620,275 | 1990-11-30 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO1992009989A1 true WO1992009989A1 (en) | 1992-06-11 |
Family
ID=24485296
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/US1991/008796 WO1992009989A1 (en) | 1990-11-30 | 1991-11-22 | Universal data storage element |
Country Status (2)
Country | Link |
---|---|
AU (1) | AU9149391A (en) |
WO (1) | WO1992009989A1 (en) |
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WO1995031811A1 (en) * | 1994-05-16 | 1995-11-23 | Minnesota Mining And Manufacturing Company | Drive for handling multiple size information storage media cartridges and cartridges therefor |
US5933396A (en) * | 1997-05-07 | 1999-08-03 | International Business Machines Corporation | Storage and retrieval library with side-by-side storage cells |
GB2380311B (en) * | 2001-08-07 | 2005-10-12 | Hewlett Packard Co | A data storage apparatus for a tape and a disk cartridge |
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US5558291A (en) * | 1994-05-16 | 1996-09-24 | Imation Corp. | Drive for handling multiple size information storage media cartridges and cartridges therefor |
US5779172A (en) * | 1994-05-16 | 1998-07-14 | Imation Corp. | Drive for handling multiple size information storage media cartridges and cartridges therefor |
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GB2380311B (en) * | 2001-08-07 | 2005-10-12 | Hewlett Packard Co | A data storage apparatus for a tape and a disk cartridge |
Also Published As
Publication number | Publication date |
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AU9149391A (en) | 1992-06-25 |
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