JP4228409B2 - Information recording / reproducing apparatus and occupancy setting method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information recording / reproducing apparatus for storing a plurality of recording media and recording / reproducing information on / from the stored recording medium, and an occupation setting method thereof.
[0002]
[Prior art]
Conventionally, a plurality of recording media (for example, cassette tapes and disc-shaped recording media) that can be attached to and detached from the recording / reproducing apparatus are stored, and various information can be recorded on the stored recording media as necessary. There are systems that perform or play back recorded information. Such a system is called a library system or an autochanger. In the following description, it will be called a library system.
[0003]
Some library systems have a predetermined configuration, but some have a configuration that can be freely changed to some extent according to the user. As a library system whose configuration can be changed in this way, for example, a recording / reproducing console having a recording / reproducing apparatus for recording and reproducing information on a recording medium, and a recording medium having a plurality of storage units each capable of storing a recording medium Some storage consoles and the like are provided with a plurality of consoles connected to each other so that their positions can be changed, and a library system having various scales and arrangements can be constructed by arbitrarily combining these consoles. Some recording / reproducing consoles have a plurality of storage units each capable of storing a recording medium. Further, such a library system includes a transport device that transports a recording medium between an arbitrary storage unit and the recording / reproducing device, and a control unit that controls the recording / reproducing device and the transport device.
[0004]
In this library system, the conveyance device is controlled based on the control of the control unit, and the recording medium is conveyed between an arbitrary storage unit and the recording / reproducing device, and the recording medium conveyed to the recording / reproducing device is Various information is recorded and the recorded information is reproduced.
[0005]
[Problems to be solved by the invention]
By the way, in the above-described library system, there is one in which a host computer as one or more clients can be connected and the library system can be used from the host computer. In this case, the host computer is connected by a transmission path of a standard for a jukebox in the SCSI (Small Computer System Interface) standard determined by ANSI (American National Standards Institude), for example.
[0006]
At this time, for example, when one library system is shared by a plurality of host computers, a plurality of recording / reproducing apparatuses and storage devices are stored in the host computer as a client by the control unit of the library system. Occupancy settings may be made for some parts. In this occupancy setting, occupancy setting is performed by assigning consecutive address numbers to a plurality of recording / reproducing devices and assigning the address numbers to each host computer. Thereby, each host computer can use only the occupied recording / reproducing apparatus. At this time, it is necessary to assign consecutive address numbers to one host computer because of the standard of the transmission path used for connecting the host computers.
[0007]
Therefore, conventionally, there is only an occupancy setting method for allocating a physically continuous recording / reproducing device to a single host computer, and an arbitrary address number cannot be allocated to a single host computer. There was a problem that the degree of freedom of occupation setting was small. For this reason, conventionally, for example, if one of the physically continuous recording / reproducing apparatuses fails, the address number is divided, so that the host computer that occupies the failed recording / reproducing apparatus can replace the address number. There has been a problem that the occupancy setting changing process that occupies the recording / reproducing apparatus may not be performed.
[0008]
The present invention has been made in view of such problems, and an object of the present invention is to provide an information recording / reproducing apparatus and an occupation setting method thereof that can freely perform occupation setting for a client.
[0009]
[Means for Solving the Problems]
  An information recording / reproducing apparatus according to the present invention performs at least one of information recording and reproduction using a removable recording medium.MultipleRecording / reproducing means, a recording medium accommodating means having a plurality of accommodating portions each capable of accommodating a recording medium, and between any storage section and recording / reproducing means in the recording medium accommodating meansWithA conveying means for conveying a recording medium;pluralIn response to requests from clientsCarryControl means for controlling the sending means and the recording / reproducing meansThe control means displays on the display means an occupancy setting screen for setting, for each client, an occupancy part that can be used only by each client among a plurality of recording / playback means and a plurality of storage units. When the occupied part for each client input from the setting screen covers a plurality of physical addresses, it is determined whether or not the plurality of physical addresses are discontinuous, and the plurality of physical addresses are discontinuous. In some cases, this discontinuous physical address is converted into a continuous logical address managed by each client.It is comprised as follows.
  Another information recording / reproducing apparatus according to the present invention includes a plurality of recording / reproducing means for performing at least one of information recording and reproduction using a detachable recording medium, and a plurality of storage units each storing a recording medium. Recording medium storage means, transport means for transporting a recording medium between an arbitrary storage section in the recording medium storage means and recording / reproducing means, and transport means and recording / reproducing means in response to requests from a plurality of clients Of each of the plurality of recording / reproducing means and the plurality of storage units that can be used only by each client is set for each client, and the physical address and logical address managed by the client for each occupied portion The control means for converting between and the occupancy setting of the recording / playback means for a certain client or the change thereof is performed by the control means. When, in conjunction with the conversion between the physical address and the logical address by the control means, in which as and a switching means for switching the communication path between the recording and reproducing means and its clients.
[0010]
  Also, the occupation setting method of the information recording / reproducing apparatus according to the present invention performs at least one of information recording and reproduction using a removable recording medium.MultipleRecording / reproducing means, a recording medium accommodating means having a plurality of accommodating portions each capable of accommodating a recording medium, and between any storage section and recording / reproducing means in the recording medium accommodating meansWithA conveying means for conveying a recording medium;pluralIn response to requests from clientsCarryAn information recording / reproducing apparatus comprising a control means for controlling a sending means and a recording / reproducing meansApplyA method, in the control means,For each client input from the occupancy setting screen, an occupancy setting screen for setting the occupancy portion, which is a portion that can be used only by each client among a plurality of recording / playback means and a plurality of storage units, is displayed for each client. If the occupying part of the address spans multiple physical addresses, determine whether these multiple physical addresses are discontinuous, and if the multiple physical addresses are discontinuous, this discontinuous physical address Is converted into a continuous logical address managed by each clientIt is what I did.
  Another occupancy setting method of the information recording / reproducing apparatus according to the present invention includes a plurality of recording / reproducing means for performing at least one of information recording and reproduction using a detachable recording medium, each of which can accommodate the recording medium. Recording medium storage means having a plurality of storage sections, transport means for transporting the recording medium between any storage section and recording / reproducing means in the recording medium storage means, and transport means in response to requests from a plurality of clients And a method applied to an information recording / reproducing apparatus comprising a control means for controlling the recording / reproducing means, wherein the control means is a part that can be used only by each client among the plurality of recording / reproducing means and the plurality of storage units. Is set for each client, and the physical address and logical address managed by the client are converted for each occupied part. Information is transmitted between the recording / reproducing means and the client in conjunction with the conversion processing between the physical address and the logical address by the control means when the occupation setting of the recording / reproducing means for the client is changed or changed. The road is switched.
[0011]
  Information recording / reproducing apparatus according to the present inventionOr occupancy setting method of information recording / reproducing apparatusThenThe exclusive part for each client is input and set using the exclusive setting screen. When each client occupies a plurality of physical addresses and the plurality of physical addresses are discontinuous, the discontinuous physical address is converted into a continuous logical address.
[0012]
  Also according to the present inventionIn the other information recording / reproducing apparatus or the occupation setting method of the information recording / reproducing apparatus, when the occupation setting of the recording / reproducing means for a certain client or the change thereof is performed, the control means converts the physical address to the logical address. In conjunction with this, the information transmission path between the recording / reproducing means and the client is switched.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
1 and 2 are block diagrams showing an outline of a library system as an information recording / reproducing apparatus according to an embodiment of the present invention. FIG. 1 shows a basic configuration of the library system according to the present embodiment. FIG. 2 is a plan view showing the overall structure of the cassette library 1 shown in FIG.
[0015]
The library system according to the present embodiment stores a plurality of video tape cassettes (hereinafter simply referred to as cassettes) K as recording media, and stores information using any stored cassette K as required. A cassette library 1 that performs recording and reproduction and a library controller 2 as control means for controlling the cassette library 1 are provided.
[0016]
The library controller 2 is a controller main body 21 that is a device for controlling the cassette library 1 and an input device 22 including a mouse and a keyboard for inputting information and instructions necessary for control to the controller main body 21. And a display device 23 connected to the controller main body 21 and having a display screen for displaying information associated with the control. The controller main body 21 is connected to the cassette library 1 by, for example, RS-232C standard transmission paths 24 and 25. Further, the controller main body 21 can be connected to a plurality of host computers 3a and 3b as clients using the cassette library 1 through, for example, standard transmission paths 31a and 31b for a jukebox within the SCSI standard. The controller main body 21 can also be connected to the host computers 3a and 3b via a communication network 32 of a predetermined standard such as Ethernet.
[0017]
The host computer 3a is used as a client that occupies a predetermined occupied area of the cassette library 1, for example, the lower area 30a of the cassette library 1, and is used as a main server for data recording / reproduction. is there. The host computer 3b is used as a client that occupies a predetermined occupied area of the cassette library 1, for example, the area 30b in the upper part of the cassette library 1, and is used for data backup. The occupancy setting of which area of the cassette library 1 the host computers 3a and 3b occupy is performed by the library controller 2.
[0018]
The cassette library 1 includes four types of consoles: a basic console 1B, a drive console 1D, a cassette console 1C, and a junction console 1J, and cassette conveyance as a conveyance means for conveying the cassette K inside the cassette library 1. Machine 16. The four types of consoles are selectively connected so that their positions can be changed, and the cassette library 1 can be configured as a library using some or all of these four types of consoles. . The minimum necessary configuration of the cassette library 1 for realizing the library system is the configuration of the basic console 1B and the drive console 1D.
[0019]
Here, FIG. 1 shows only the basic configuration of the cassette library 1, and one side of the drive console 1D is connected to one side of the basic console 1B, and the cassette console 1C is connected to the other side of the drive console 1D. An example in which one side is connected is shown. Further, in FIG. 2, the drive console 1D (1D) is arranged in order from the side of the basic console 1B toward the one side surface of the basic console 1B.₁₁, 1D₁₂,. . ) And cassette console 1C (1C₁₁, 1C₁₂,. . ) Are alternately connected to form a basic console row L1, and a drive console 1D₁₁The front of the junction console 1J₁Drive console 1D (1D_{twenty one}, 1D_{twenty two},. . ) And cassette console 1C (1C_{twenty one}, 1C_{twenty two},. . ) Are alternately connected to form an extended console row L2, and the cassette console 1C₁₂The front of the junction console 1J₂Drive console 1D (1D₃₁, 1D₃₂,. . ) And cassette console 1C (1C₃₁, 1C₃₂,. . ) Are alternately connected to form an extended console row L3. As shown in FIG. 2, when there are a plurality of console rows, the cassette transporter 16 is installed in each console row. In addition, the delivery of the cassette K between the respective console rows is performed via the junction port portion 18 of the junction console 1J.
[0020]
Note that the connection relationship between the consoles is not limited to that shown in FIGS. 1 and 2. For example, even if the basic console 1 </ b> B and the drive console 1 </ b> D are connected only, the basic relationship as the library system is used. Functions can be realized.
[0021]
In the cassette library 1, the drive console 1 </ b> D has a plurality of (for example, four) drive devices 13 as recording / reproducing means for recording and reproducing information with respect to the cassette K, and a plurality of storage units, and stores a plurality of cassettes K. And a cassette storage shelf 14 as possible recording medium storage means. Moreover, the drive console 1D includes a drive control unit 70 (FIG. 2) for controlling the drive device 13. The cassette console 1C includes a cassette storage shelf 15 as a recording medium storage unit that has a plurality of storage units and can store a plurality of cassettes K. In the drive console 1D and the cassette console 1C to which the junction console 1J is connected, the cassette storage shelves 14 and 15 are partially arranged so that the cassette K can be transferred to and from the junction console 1J when the junction console 1J is connected. It has the structure removed.
[0022]
The plurality of drive devices 13 of the drive console 1D can be connected to the host computer 3a via, for example, SCSI standard transmission paths 33 and 34. The plurality of drive devices 13 can be connected to the host computer 3b through, for example, SCSI standard transmission paths 35 and 36. Note that only one of the host computers 3a and 3b can be connected to one drive device 13. For example, data of information to be recorded in the cassette K is transmitted to the drive device 13 from the host computers 3a and 3b connected via the transmission paths 35 and 36. The issued information is transmitted to the host computers 3a and 3b via the transmission paths 35 and 36. Occupancy setting of which of the plurality of drive devices 13 the host computers 3a and 3b occupy is performed by the library controller 2.
[0023]
The basic console 1B takes in the cassette K from the front side into the library, and automatically inputs / outputs the cassette K in the library to the outside, the input / output port unit 11 as an input / output means, and the cassette at the front side of the basic console 1B. And a display unit 12 for displaying various information such as control information related to the library 1. Further, the basic console 1B has a bar code reader (not shown) for reading bar code information indicating ID (identification information) added to the taken cassette K. The input / output port section 11 is composed of an upper port section 11a provided at the upper stage of the basic console 1B and a lower port section 11b provided at the lower stage. Each of the upper port portion 11a and the lower port portion 11b for inputting / outputting the cassette K has a plurality of (for example, four) input / output ports. The display unit 12 is configured by a liquid crystal display device, for example. The basic console 1B is further connected to the basic controller 60 (FIG. 2) connected to the controller main body 21 of the library controller 2 by the transmission path 24, and to the controller main body 21 of the library controller 2 by the transmission path 25, It has a main drive control unit 61 (FIG. 2) connected to the drive control unit 70 of the console 1D.
[0024]
The junction console 1J is used to expand the connection between the consoles, and is configured such that one side of itself can be connected to the front or rear surface of another console. On one side of the junction console 1J, as shown in FIG. 2, a junction port portion 18 having a mechanism for transferring the cassette K to and from another connected console is provided on the upper side of the basic console 1B. It is provided at a position corresponding to the port portion 11a. Further, an input / output port portion 17 having the same function as the input / output port portion 11 of the basic console 1B is provided on the front surface of the junction console 1J at a position corresponding to the lower port portion 11b of the basic console 1B. The junction console 1J also includes a basic control unit 80 for controlling the mechanism for delivering the cassette K at the junction port unit 18 and for controlling the cassette transporter 16 and the like in the expanded console row. The basic control unit 80 is electrically connected to the basic control unit 60 of the basic console 1B. The other basic configuration of the junction console 1J is the same as that of the basic console 1B.
[0025]
As shown in FIG. 2, a transport area 103, which is a space for the cassette transporter 16 to move, is provided in the central portion inside the basic console 1B, drive console 1D, cassette console 1C, and junction console 1J. Yes. In the transfer area 103, a guide rail 101 is provided along the transfer direction of the cassette transfer machine 16 as a transfer path when the cassette transfer machine 16 moves. Further, on the side of the guide rail 101, an energizing rail 102 for supplying power to the cassette transporter 16 is provided.
[0026]
The cassette transporter 16 can move in the horizontal direction while holding the cassette K along the guide rail 101 while being supplied with power from the energizing rail 102 in the transport area 103, and in the vertical direction (not shown). The moving mechanism can move in the vertical direction (up and down direction) while holding the cassette K in each console. Although not shown, the cassette transporter 16 has a mechanism for delivering the cassette K to each console. For example, the cassette transporter 16 receives the cassette K taken from the input / output port 11 of the basic console 1B. In addition, it is possible to perform an operation of transporting and delivering the cassette to the cassette storage shelf 15 of the cassette console 1C.
[0027]
FIG. 3 is a block diagram showing a circuit configuration of the library controller 2. The library controller 2 includes a screen controller 41 for controlling the display device 23, an input controller 42 for controlling the input device 22, and the SCSI via the transmission paths 31 a and 31 b in the controller main body 21. A SCSI control unit 43 that performs control for connecting the host computers 3a and 3b and the library controller 2 according to the standard, and a network control unit 44 that performs control for connecting the communication network 32 and the library controller 2 are provided. Yes. Each block element in the controller main body 21 is connected to each other by an internal bus 40.
[0028]
The library controller 2 includes, for example, a serial line control unit 45 that performs control for connecting the cassette library 1 and the library controller 2 via the RS-232C standard transmission lines 24 and 25, a CPU (central processing unit), and the like. Including a central processing control unit 46 that performs overall control of the library controller 2 and substantial control over the cassette library 1, and a basic program necessary for performing basic operations of the library controller 2 itself. A stored read-only memory 47, a temporary storage memory 48 serving as a work area used when the central processing control unit 46 executes a program, and a built-in memory for storing various information such as a database related to system information of the library system Hard disk drive for driving the hard disk Eve 49, (in the figure, referred to as FD.) Floppy disk for recording and reproducing information on a floppy disk and a drive 50. A program for controlling the cassette library 1 is stored in a hard disk driven by the hard disk drive 49, and the central processing control unit 46 executes the program so as to realize a function of controlling the cassette library 1. It has become.
[0029]
FIG. 4 is a block diagram showing a main part of the functional configuration of the library controller 2. The library controller 2 includes a control function unit 55 having a function for controlling the input device 22, the display device 23, and the cassette library 1. The control function unit 55 is connected to the main control unit 51 that functions to perform overall control of the library controller 2 and substantial control of the cassette library 1, and is connected to the main control unit 51 to control the display device 23. Screen control unit 52 that functions as described above, input control unit 53 that is connected to main control unit 51 and functions to control input device 22, and stores various information such as a database related to system information of the library system And a storage unit 54 that functions.
[0030]
7 to 9 show examples of control screens displayed on the display device 23 of the library controller 2. The library controller 2 displays on the display device 23 as a control screen a screen that implements an interface based on a GUI (Graphical User Interface) environment that allows the user to perform operations on the screen using a mouse or the like. It has become.
[0031]
The control screen shown in FIG. 7 is displayed, for example, as a control main screen when the library controller 2 is activated. On this main screen, a menu bar or the like for instructing control of the library system is displayed in a predetermined area (area 91 in FIG. 7), and information on the basic configuration of the cassette library 1 is predetermined. In the area (area 92 in FIG. 7), it is graphically displayed in a form that can be intuitively understood. When the library controller 2 is activated, the library controller 2 acquires information indicating the current console configuration, such as the type of console and the connection relationship between the consoles, from the cassette library 1, and based on the acquired information, the library controller 2 7 is displayed in the form shown in the area 92 of FIG.
[0032]
The control screens shown in FIGS. 8 and 9 are displayed on the host computers 3a and 3b as setting screens for occupancy settings. The user has shown in FIGS. An area to be occupied by the host computers 3a and 3b can be designated using the setting screen.
[0033]
8 and 9, information on the transmission path to which the host computers 3a and 3b are connected is shown in the portion indicated by [Bus No.]. For example, Bus0 is the host computer 3a. 1 corresponds to the transmission path 31a (FIG. 1) to which is connected, and Bus1 corresponds to the transmission path 31b to which the host computer 3b is connected. In the portion indicated by [Inport], the input / output port areas of the basic console 1B and the input / output port 17 of the junction console 1J occupied by the host computers 3a and 3b are physical address numbers. It is shown in In the portion indicated by [Hidden Bin], the storage area of the cassette storage shelf 14 of the drive console 1D and the cassette storage shelf 15 of the cassette console 1C occupied by the host computers 3a and 3b is indicated by physical address numbers. Has been. In the portion indicated by [Drive], the area of the drive device 13 of the drive console 1D occupied by the host computers 3a and 3b is indicated by a physical address number.
[0034]
FIG. 8 is a main screen for setting for performing the occupancy setting, and shows information related to the occupancy setting of all the host computers 3 a and 3 b connected to the library controller 2. The user can select the host computers 3a and 3b that should perform the occupancy setting on the main screen for the occupancy setting. In FIG. 8, the selected portion is shown in an inverted state. In addition, the main screen for setting shown in FIG. 8 selects the “Setup” menu in the menu bar in the main screen for control shown in FIG. 7, and the “Bin Division” menu in the pull-down menu (not shown). By selecting, it is displayed.
[0035]
FIG. 9 shows the case where the host computers 3a and 3b to be exclusively set are selected (left double click of the mouse) on the main screen for exclusive setting shown in FIG. 8, or the new creation button 120 shown in FIG. 8 is selected. This is displayed when occupancy setting is performed for a new host computer. On the setting screen shown in FIG. 9, the user can specify an area for occupancy setting for the host computers 3a and 3b by inputting an address number or the like. The library controller 2 performs an internal process related to the occupancy setting based on the contents specified on the setting screen shown in FIG. In the hard disk of the library controller 2, when a basic table for storing an address number indicating an area to be occupied and a physically discontinuous address number are designated, it is attached to the basic table. When the extended table used and the physically discontinuous address numbers are specified, the physically discontinuous address numbers are converted into continuous address numbers, and the converted continuous addresses are converted. A conversion table for assigning numbers as logical address numbers managed by the host computers 3a and 3b is included.
[0036]
Here, in the setting screen shown in FIG. 9, with respect to the occupied area of the drive device 13, the user assigns the drive device 13 having physically discontinuous address numbers to one host computer 3a, 3b. A check box 110 is provided. In the setting screen shown in FIG. 9, the user can specify an arbitrary check box 110, which allows the user to assign a physically discontinuous address number to one host computer 3 a or 3 b. The drive device 13 can be designated. When a physically discontinuous address number is specified for the drive device 13 on the setting screen shown in FIG. 9, the library controller 2 uses the expansion table to set the discontinuous address number. Information is to be recorded. Further, when a physically discontinuous address number is specified for the drive device 13 on the setting screen shown in FIG. 9, the library controller 2 uses the conversion table to physically discontinue. A continuous address number is converted into a continuous address number, and the converted continuous address number is assigned as a logical address number managed by the host computers 3a and 3b.
[0037]
FIG. 10 is an explanatory diagram showing the structure of an address number assignment table used in the occupation setting process in the library controller 2. FIG. 10A is a basic table used for the occupancy setting process. The occupancy area information for the storage area of the set storage shelves 14 and 15 is the head of the physical address number of the occupancy area. Address number (internal BIN head NO.) And end address number (internal BIN last NO.). In the basic table, the occupied area information for the input / output ports of the input / output port sections 11 and 17 includes the first address number (INPORT first NO.) And the last address of the physical address number of the occupied area. It is described by a number (INPORT final NO.). In the basic table, the occupied area information about the drive device 13 includes the first address number (drive head No.) and the last address number (drive last No.) of the physical address number of the occupied area. It is to be described in. Further, the basic table describes information (with / without continuation) indicating whether there is an extended table following the basic table. If there is an extended table following the basic table, (with continuation) is described.
[0038]
FIG. 10B is an extension table used when a physically discontinuous address number is designated for the drive device 13, and is the next stage of the occupied area for the drive device 13 described in the basic table. The head address number (drive head No.) and the end address number (drive last NO.) Of the physical address number of the occupied area in the area are described. In the extended table, information (with / without continuation) indicating whether or not the next extended table exists is described. If there is an extension table that follows, (with continuation) is described.
[0039]
FIG. 11 is an explanatory diagram showing the structure of a conversion table for converting physically discontinuous address numbers into continuous address numbers. For example, the drive device 13 with physical address numbers 1, 2, 5, and 6 is assigned to the host computer 3a, and the drive device 13 with physical address numbers 3, 4, 7, and 8 is assigned to the host computer 3b. In such a case, the physically discontinuous address numbers 1, 2, 5, and 6 are converted into continuous logical address numbers 1001 to 1004 by the conversion table shown in FIG. Physically discontinuous address numbers 3, 4, 7, and 8 are converted into continuous logical address numbers 1005 to 1008.
[0040]
As described above, in the present embodiment, the library controller 2 has a conversion table for converting physically discontinuous address numbers into continuous address numbers. Even if a number is assigned, the host computer 3a, 3b can seem to use the drive device 13 having consecutive address numbers, and a transmission path for connecting the host computers 3a, 3b Originally, it is possible to occupy and set the drive device 13 having an arbitrary address number even in a format conforming to the SCSI standard protocol that cannot handle discontinuous data.
[0041]
FIG. 5 is a block diagram showing a circuit configuration of the basic console 1B. The basic console 1B is connected to the controller main body 21 of the library controller 2 by a transmission path 24, and a basic control unit 60 for controlling the basic console 1B itself, transport control of the cassette transporter 16 and the like, and the library by the transmission path 25. A main drive control unit 61 is connected to the controller main body 21 of the controller 2 and connected to the drive control unit 70 of the drive console 1D, and causes the drive control unit 70 to control the drive device 13. Yes. The main drive control unit 61 is realized by a microcomputer, for example.
[0042]
The basic control unit 60 is connected via a communication line 72 between a console control unit 62 that performs control of each component block in the basic control unit 60 and transport control of the cassette transporter 16 and the extended console rows L2 and L3. The console inter-unit communication unit 63 for performing communication, the console configuration collecting unit 64 for collecting information on the configuration of each console constituting the basic console column L1 including the basic console 1B, and the basic console 1B. Control of the cassette K delivery mechanism in the display control unit 65 that performs display control of the display unit 12 (FIG. 1) provided on the front and the input / output port unit 11 (FIG. 1) provided on the front of the basic console 1B. An input / output port control unit 66 for performing communication and a transporter communication unit 67 for performing control communication with the cassette transporter 16 using infrared rays 71. To have. Each block element of the basic control unit 60 is connected to each other by an internal bus 68. The console control unit 62 is realized by a microcomputer, for example.
[0043]
The console configuration collection unit 64 includes configuration information transmission units 10B and 10D for the consoles constituting the basic console row L1.₁₁, 10C₁₁, 10D₁₂,. . . The information about the configuration of each console is collected from.
[0044]
The console control unit 62 is information regarding the console configuration in the basic console column L1 obtained by the console configuration collecting unit 64, and information regarding console configurations in other console columns received via the inter-console communication unit 63. Etc. are sent to the library controller 2.
[0045]
6 shows the junction console 1J._jIt is a block diagram which shows the circuit structure of (j = 1, 2). Junction console 1J_jThe junction console 1J_jControl and junction console 1J_jAnd a basic control unit 80 for controlling the transport of the cassette transporter 16 in the console row Li (i = 2, 3) extended by the operation, and the junction console 1J as necessary._jAnd a main drive control unit 81 for causing the drive control unit 70 to control the drive device 13 in the console row expanded by the above. The main drive control unit 81 is used for an interface between the main drive control unit 61 of the basic console 1B and the drive control units 70 in the plurality of drive consoles 1D when a large number of drive consoles 1D are used. .
[0046]
The basic control unit 80 includes a console control unit 82, a console line communication unit 83, a console configuration collection unit 84, a display control unit 85, an input / output port control unit 86, and a transporter communication unit 87. ing. The console configuration collecting unit 84 includes configuration information sending units 10J and 10D of the respective consoles constituting the expanded console row Li._i1, 10C_i1, 10D_i2,. . . The information about the configuration of each console is collected from. Further, the basic control unit 80 has a junction port control unit 89 for controlling the delivery mechanism of the cassette K in the junction port unit 18 (FIG. 2) provided on the side surface of the junction console 1J. Each block element of the basic control unit 80 is connected to each other by an internal bus 88. In addition, each block element of the basic control unit 80 except the junction port control unit 89 basically has the same function as each block element of the basic control unit 60 of the basic console 1B.
[0047]
The console control unit 82 includes a junction console 1J._jIs sent from the console configuration information sending unit in the other console row (console row L1 in the example of FIG. 2) to which is connected. For example, junction console 1J₁In this case, the drive console 1D in FIG.₁₁Configuration information sending unit 10D₁₁Therefore, information 90 on the configuration is sent to the console control unit 82 in FIG. This makes it possible to recognize the connection relationship between the console strings.
[0048]
Next, the operation of the library system configured as described above will be described. First, the overall operation of the library system will be described.
[0049]
When the library controller 2 is activated, the main screen for control by the GUI environment as shown in FIG. 7 is displayed on the display device 23 of the library controller 2. The user performs various settings for controlling the library system by performing an operation using a mouse or the like on the displayed main screen for control.
[0050]
In response to a request from the host computers 3a and 3b, the library controller 2 uses the cassette transporter 16 to transfer the desired cassette K to the basic console 1B of the cassette library 1, and the input / output port section of the basic console 1B. 11. Instructions for moving between the cassette storage shelf 15 of the cassette console 1C and the drive device 13 of the drive console 1D, and instructions for recording and reproducing information in the drive device 13 of the drive console 1D Send. A command for moving the cassette K using the cassette transporter 16 is transmitted to the basic control unit 60 of the basic console 1B via the transmission path 24. In addition, a command for recording and reproducing information in the drive device 13 is transmitted to the main drive control unit 61 of the basic console 1B via the transmission path 25.
[0051]
The basic control unit 60 controls the cassette transporter 16 based on a command from the library controller 2 received via the transmission path 24. Control from the basic control unit 60 to the cassette transporter 16 is performed by infrared communication via the transporter communication unit 67 (FIG. 5). Based on the control from the basic control unit 60, for example, the cassette transporter 16 transports the cassette K taken from the input / output port unit 11 of the basic console 1B to the cassette storage shelf 15 of the cassette console 1C and delivers it. Carry out such a transfer operation. In the console row expanded by the junction console 1J, the basic control unit 80 of the junction console 1J receives a command from the library controller 2 from the basic control unit 60 of the basic console 1B, and carries the cassette in the extended console row. The machine 16 is controlled in the same manner as the basic control unit 60.
[0052]
The main drive control unit 61 controls the drive control unit 70 of the drive console 1D based on a command from the library controller 2 received via the transmission path 25, and causes the drive device 13 to record and reproduce information. Control. The drive control unit 70 causes the drive device 13 to record and reproduce information based on the control of the main drive control unit 61.
[0053]
Next, operations related to the occupation setting process will be described with reference to the flowchart of FIG. The following description also serves as a description of the occupation setting method of the information recording / reproducing apparatus according to the present embodiment.
[0054]
When the user selects the host computers 3a and 3b to be used for occupancy setting on the main screen for occupancy setting (FIG. 8) displayed on the display device 23, the library controller 2 selects the selected host computer. A setting screen (FIG. 9) relating to 3a and 3b is displayed. Further, the library controller 2 displays the setting screen of FIG. 9 even when the new creation button 120 is selected on the main screen for exclusive setting shown in FIG. The library controller 2 reads the input value when the user inputs an address number or the like indicating the area to be occupied by the mouse or keyboard (step S101), and the read input value is displayed on the setting screen. Displayed (step S102).
[0055]
Next, the library controller 2 determines whether or not the decision (OK) button has been pressed on the setting screen (step S103). If the determination button has not been pressed (N), the library controller 2 repeats the determination in step S103. When the determination button is pressed (step S103: Y), the library controller 2 determines whether or not a discontinuous value is assigned to the physical address designated by the user. (Step S104). If a discontinuous value is not assigned to the physical address (N), the occupation area is set only with the basic table (FIG. 10A) (step S105).
[0056]
If a discontinuous value is assigned to the physical address (step S104: Y), information on the physical address is obtained using the basic table and the extension table (FIG. 10B). And using the conversion table (FIG. 11), the physically discontinuous address numbers are converted into continuous logical address numbers (step S106), and apparently the host computer 3a, In 3b, consecutive address numbers are set.
[0057]
Note that the connection between the host computers 3a and 3b and the drive device 13 needs to be performed in correspondence with the physical address number assigned to the host computers 3a and 3b.
[0058]
As described above, according to the library system of this embodiment, the library controller 2 has the conversion table for converting physically discontinuous address numbers into continuous address numbers. In fact, even if discontinuous address numbers are assigned, the host computers 3a and 3b seem to be able to use the drive device 13 having consecutive address numbers. The drive device 13 having the address number can be set exclusively, and the exclusive setting can be freely performed for the host computers 3a and 3b as clients.
[0059]
[Modification]
Next, a modification of the present embodiment will be described.
[0060]
FIG. 13 is an explanatory diagram for explaining the present modification. For example, a number of host computers 3₁, 3₂,. . . 3_n(N is an integer of 2 or more), a plurality of drive devices 13 having an arbitrary address number₁, 13₂,. . . 13_k(K is an integer equal to or greater than 2), and when a new occupancy setting or change of occupancy setting is made, the host computer 3₁, 3₂,. . . 3_nAnd drive device 13₁, 13₂,. . . 13_kThere is a risk that the switching process of the transmission path connecting the two will be complicated.
[0061]
Therefore, in this modification, the host computer 3₁, 3₂,. . . 3_nAnd drive device 13₁, 13₂,. . . 13_kBetween the transmission line and the host computer 3₁, 3₂,. . . 3_nAnd drive device 13₁, 13₂,. . . 13_kAnd a switching device 130 for automatically switching the connection relationship with the controller, and the library controller 2 controls the switching device 130 according to the occupation setting. The switcher 130 is connected to each host computer 3₁, 3₂,. . . 3_nCorresponding to the physical address number assigned to the host computer 3₁, 3₂,. . . 3_nAnd drive device 13₁, 13₂,. . . 13_kConnection. As a result, when a new occupancy setting or change of occupancy setting is performed, the switching device 130 causes the host computer 3 to change.₁, 3₂,. . . 3_nAnd drive device 13₁, 13₂,. . . 13_kSince the connection relationship between the two is automatically changed, the transmission path switching process can be easily performed.
[0062]
Other configurations, operations, and effects of this modification are the same as those in the above embodiment.
[0063]
In addition, this invention is not limited to the said embodiment, A various deformation | transformation is possible. For example, the present invention can also be applied to a library system that uses various recording media such as a cassette-shaped recording medium other than a video tape cassette and a disk-shaped recording medium as the recording medium.
[0064]
In the above-described embodiment, the case of the occupation setting of the drive device 13 has been described. However, the occupation setting of the storage units of the cassette storage shelves 14 and 15 and the occupation setting of the input / output ports are also the same as those of the drive device 13. The same can be done.
[0065]
【The invention's effect】
  As explained above, claims 1 to4The information recording / reproducing apparatus according to claim 1 or claim 6.Or 7According to the occupancy setting method of the information recording / reproducing apparatus described inThe exclusive part for each client can be set using the exclusive setting screen, and when multiple physical addresses are discontinuous, this discontinuous physical address is converted into a continuous logical address. SoThere is an effect that the occupancy setting can be freely performed for the client.
[0066]
  An information recording / reproducing apparatus according to claim 5 or a claim8According to the occupancy setting method of the described information recording / reproducing apparatus,When the recording / playback means occupancy setting for a certain client or its change is made, the information transmission path between the recording / playback means and the client is linked with the conversion process between the physical address and the logical address by the control means. Switching takes placeAs a result, the information transmission path between the recording / reproducing means and the client can be automatically switched according to the conversion between the physical address and the logical address by the control means. .
[Brief description of the drawings]
FIG. 1 is a front view showing a basic configuration of a library system according to an embodiment of the present invention.
FIG. 2 is a plan view showing an example of the overall configuration of the cassette library shown in FIG.
3 is a block diagram showing a circuit configuration of the library controller shown in FIG. 1. FIG.
4 is a block diagram showing a functional configuration of the library controller shown in FIG. 1. FIG.
FIG. 5 is a block diagram showing a circuit configuration of the basic console shown in FIG. 1;
6 is a block diagram showing a circuit configuration of the junction console shown in FIG. 1. FIG.
7 is an explanatory view showing a main screen for control displayed in the library controller shown in FIG. 1; FIG.
FIG. 8 is an explanatory diagram showing a screen for occupation setting displayed in the library controller shown in FIG. 1;
FIG. 9 is an explanatory diagram showing another screen for exclusive setting displayed in the library controller shown in FIG. 1;
10 is an explanatory diagram showing a table used for occupancy setting in the library controller shown in FIG. 1. FIG.
11 is an explanatory diagram showing a conversion table used for occupation setting in the library controller shown in FIG. 1; FIG.
12 is a flowchart for explaining occupancy setting processing performed in the library controller shown in FIG. 1. FIG.
13 is an explanatory diagram for describing a modification of the library system shown in FIG. 1; FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Cassette library, 1B ... Basic console, 1C ... Cassette console, 1D ... Drive console, 1J ... Junction console, 2 ... Library controller, 3a, 3b ... Host computer, 11, 17 ... Input / output port part, 13 ... Drive apparatus 14, 15 ... cassette storage shelf, 16 ... cassette transporter, 18 ... junction port section, 21 ... controller body, 22 ... input device, 23 ... display device, 49 ... hard disk drive, 60 ... basic control section, 61, 81 ... main drive control unit, 62, 82 ... console control unit, 63, 83 ... console row communication unit, 64, 84 ... console configuration collecting unit, 70 ... drive control unit, 130 ... switching device.

Claims (8)

A plurality of recording / reproducing means for performing at least one of recording and reproduction of information using a removable recording medium;
A recording medium storage means having a plurality of storage units each capable of storing the recording medium;
Transport means for transporting the recording medium between an arbitrary storage section in the recording medium storage means and the recording / reproducing means;
In response to a request from multiple clients, Bei example and control means for controlling said conveying means and the recording and reproducing means,
The control means includes
Displaying an exclusive setting screen for setting for each client an exclusive portion that is a portion that can be used only by each client among the plurality of recording and reproducing means and the plurality of storage units,
When the occupied part for each client input from the occupancy setting screen covers a plurality of physical addresses, it is determined whether or not these physical addresses are discontinuous,
An information recording / reproducing apparatus, wherein when the plurality of physical addresses are discontinuous, the discontinuous physical address is converted into a continuous logical address managed by each client . The control means includes
A basic table for storing the physical address indicating the area to be occupied,
When a discontinuous physical address is specified on the occupancy setting screen, an extension table used accompanying the basic table;
A conversion table configured to associate a physical address with a logical address;
Have
When a discontinuous physical address is not specified on the occupancy setting screen, occupancy setting is performed using only the basic table. When a discontinuous physical address is specified, the basic table and the extended The physical address information is recorded using the table, and the discontinuous physical address is converted into the continuous logical address using the conversion table.
The information recording / reproducing apparatus according to claim 1. The basic table is
A physical address indicating the beginning and end of the occupied portion of the plurality of storage units;
A physical address indicating the beginning and end of the occupied portion of the plurality of recording and reproducing devices;
Information indicating whether the next extended table exists and
Including
The extension table is
A physical address indicating the beginning and end of the occupied portion in the next stage of the occupied portion of the recording / reproducing apparatus described in the basic table;
Information indicating whether the next extended table exists and
The information recording / reproducing apparatus according to claim 2, comprising: And a plurality of input / output means for taking the recording medium into and out of the apparatus,
The control means further includes
The information recording / reproducing apparatus according to claim 1 , wherein a setting input unit that allows an exclusive portion of the plurality of input / output means to be set for each client is displayed on the exclusive setting screen . A plurality of recording / reproducing means for performing at least one of recording and reproduction of information using a removable recording medium;
A recording medium storage means having a plurality of storage units each capable of storing the recording medium;
Transport means for transporting the recording medium between an arbitrary storage section in the recording medium storage means and the recording / reproducing means;
The conveying means and the recording / reproducing means are controlled in response to requests from a plurality of clients, and an occupied portion that is a part that can be used only by each client among the plurality of recording / reproducing means and the plurality of storage units is assigned to each client. A control unit configured to convert the physical address and the logical address managed by the client for each occupied portion;
When the control unit occupies or changes the occupancy setting of the recording / reproducing unit, the recording / reproducing unit and the client are linked with the conversion process between the physical address and the logical address by the control unit. Switching means for switching the information transmission path between
An information recording / reproducing apparatus comprising: A plurality of recording / reproducing means for performing at least one of recording and reproduction of information using a detachable recording medium, a recording medium storage means having a plurality of storage portions each capable of storing the recording medium, and the recording between said recording and reproducing means and any storage unit in the media housing means, conveying means for conveying the recording medium, control means for controlling the pre-Symbol conveying means and the recording and reproducing means in response to requests from a plurality of clients A method applied to an information recording / reproducing apparatus comprising:
In the control means, an occupancy setting screen for setting, for each client, an occupancy part that is a part that can be used only by each client among the plurality of recording / playback means and the plurality of storage units is displayed, and the occupancy setting is displayed. When the occupied portion for each client input from the screen covers a plurality of physical addresses, it is determined whether or not the plurality of physical addresses are discontinuous, and the plurality of physical addresses are discontinuous. In this case, the discontinuous physical address is converted into a continuous logical address managed by each client . Furthermore, the information recording / reproducing apparatus includes input / output means for taking the recording medium into and out of the apparatus,
  The control means further displays a setting input section on the occupancy setting screen that allows an exclusive portion of the plurality of input / output means to be set for each client.
8. The occupation setting method for an information recording / reproducing apparatus according to claim 7. A plurality of recording / reproducing means for performing at least one of recording and reproduction of information using a detachable recording medium, a recording medium storage means having a plurality of storage portions each capable of storing the recording medium, and the recording Conveying means for conveying the recording medium between an arbitrary storage unit in the medium accommodating means and the recording / reproducing means, and control means for controlling the conveying means and the recording / reproducing means in response to requests from a plurality of clients. A method applied to an information recording / reproducing apparatus provided,
In the control means, an occupied portion that is a portion that can be used only by each client among the plurality of recording / reproducing means and the plurality of storage units is set for each client, and the physical address and the client manage each occupied portion. Convert to logical address,
When the control unit occupies or changes the occupancy setting of the recording / reproducing unit, the recording / reproducing unit and the client are linked with the conversion process between the physical address and the logical address by the control unit. The information transmission path between
An occupancy setting method for an information recording / reproducing apparatus.

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