JP2007306269A - Image processing apparatus, and method and program for controlling image processing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processing apparatus mounted with a confidential box capable of simply avoiding deficiency of a memory capacity of the confidential box independently of an operating state of its own apparatus and an operating state of an external device. <P>SOLUTION: The image processing apparatus includes: a media reader/writer 19 to which a storage medium 20 is attachably/detachably loaded; a connection section 23 for connecting storage areas of the confidential box 26 to storage areas of the storage medium 20 loaded to the media reader/writer 19; and a data processing section 24 for processing image data by using the two storage areas connected by the connection section 23, and when one of the storage areas reaches a memory full state, the deficiency in the memory capacity is eliminated by switching the storage destination of the image data to the other storage areas. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an image processing apparatus that provides a service using a confidential box, a control method thereof, and a control program.

  In recent years, multifunction devices having a plurality of functions such as a copy function, a scanner function, a printer function, and a fax function have become widespread. Some of such multi-function peripherals have a large-capacity hard disk, and a part of the storage area of the hard disk is allocated as a confidential box for each user to provide a service using the confidential box. A confidential box opened on the hard disk stores various image data such as print data, scan data, fax data, and document data.

  Generally, the storage capacity of the confidential box is limited. For this reason, if a large amount of image data is to be stored in a single process for a confidential box with a small amount of free space, the confidential box becomes memory full while the image data is being stored. For this reason, the image data cannot be stored due to a lack of memory capacity.

  Therefore, conventionally, various techniques for dealing with memory shortage have been proposed. For example, Patent Document 1 proposes a technique for recovering the memory capacity by notifying the user of insufficient capacity and causing the user to delete unnecessary files when the capacity of the image information storage unit is insufficient. Yes.

  Japanese Patent Application Laid-Open No. 2004-151867 discloses that when a memory capacity of a storage unit is insufficient during job operation and image data cannot be stored, the selected image data file is deleted from the storage unit, thereby deleting the memory. Technologies for restoring capacity have been proposed.

  Japanese Patent Laid-Open No. 2003-228867 discloses a method of saving data that satisfies a predetermined condition among data already existing in the memory in a secondary storage device when there is not enough free space in the memory for storing images. Technologies for restoring capacity have been proposed.

  Also, in Patent Document 4, when the remaining amount of the image information memory becomes a certain amount or less, the image information to be transferred in the image information memory is transferred to a specific destination, and then the transferred image information is displayed. There has been proposed a technique for recovering the memory capacity by erasing from the information memory.

  Further, in Patent Document 5, when the FAX board is in a standby state and the printer board receives received data from an external device and develops an image, the printer board memory area and the FAX board memory Technologies that make use of the domain have been proposed.

  Further, in Patent Document 6, in an image forming system configured by connecting a plurality of image forming apparatuses, image data exceeding the capacity of the storage means of one image forming apparatus is stored as storage means of another image forming apparatus. A technique for memorizing the memory is proposed.

  As described above, in the conventional technology, when the memory capacity of the device is insufficient, the memory capacity of the device can be recovered by deleting the data already stored or transferring it to another memory area. Either a recovery method or a method of temporarily using a free area of the memory area in the device to avoid a shortage of memory capacity has been dealt with.

JP 2001-157209 A Japanese Patent Laid-Open No. 2003-110783 JP 05-221037 A Japanese Patent Laid-Open No. 08-116419 JP 2001-237998 A JP 2001-103316 A

  However, the techniques described in Patent Literature 1 and Patent Literature 2 have a drawback that the memory capacity cannot be recovered when there is no image data that can be deleted. Further, the technique described in Patent Document 3 has a drawback that the memory capacity cannot be recovered when there is no data satisfying a predetermined condition. In addition, the technique described in Patent Document 4 has a drawback that the memory capacity cannot be recovered when connection to a specific partner is not possible. In addition, the technique disclosed in Patent Document 5 has a drawback in that the memory area cannot be used when the FAX board is not in a standby state during printer operation. Further, in the technique described in Patent Document 6, when the storage unit of another image forming apparatus is over capacity or when another image forming apparatus is not connected, the storage unit of the other image forming apparatus is used. There was a drawback that image data could not be stored.

  An image processing apparatus according to the present invention is an image processing apparatus in which a confidential box for storing image data is mounted, in which a storage medium is detachably attached, a storage area of the confidential box, and a storage area of the confidential box. It comprises a connecting means for connecting the storage areas of the mounted storage media, and a data processing means for processing image data using the two storage areas connected by the connecting means.

  A method for controlling an image processing apparatus according to the present invention is a method for controlling an image processing apparatus that includes a confidential box that stores image data and includes media mounting means on which a storage medium is detachably mounted. The first step of connecting the storage area of the storage medium and the storage area of the storage medium mounted on the medium mounting means, and the second step of processing the image data using the two storage areas connected in the first step It has.

  A control program of an image processing apparatus according to the present invention is a control program for an image processing apparatus that includes a confidential box that stores image data and includes media mounting means on which a storage medium is detachably mounted. The first step of connecting the storage area of the confidential box and the storage area of the storage medium mounted on the medium mounting means, and the first step of processing the image data using the two storage areas connected in the first step A process including the second step is executed.

  In the image processing apparatus and its control method and control program according to the present invention, the storage area of the confidential box is connected to the storage area of the storage medium attached to the medium attachment means, and image data is obtained using these two storage areas. Therefore, the image data can be processed simply by the user wearing a storage medium without being affected by the operating state of the own device (image processing device) or the operating state of the external device. Sometimes the available memory capacity can be greatly increased.

  According to the present invention, it is possible to greatly increase the memory capacity that can be used when processing image data simply by mounting the storage medium that the user has on the media mounting means provided in the image processing apparatus. . Therefore, when receiving a service using a confidential box, even if the memory capacity is insufficient only in the storage area of the confidential box, it is possible to easily solve the shortage of the memory capacity simply by installing the storage medium. In addition, by installing a storage medium, it is possible to handle image data exceeding the memory capacity of the confidential box.

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

  FIG. 1 is a block diagram illustrating a configuration example of an image processing apparatus according to an embodiment of the present invention. This image processing apparatus constitutes, for example, a digital multi-function peripheral, and generally includes a controller 1, an operation panel 2, a scanner unit 3, and a printer unit 4.

  The controller 1 controls the overall processing operation of the image processing apparatus. The controller 1 includes a CPU (Central Processing Unit) 5, a ROM (Read-Only Memory) 6, a RAM (Random Access Memory) 7, a nonvolatile memory (NVRAM) 8, and a hard disk (HDD; Hard Disk Drive) 9. An image processing unit 10, a panel interface 11, a communication interface 12, a device interface 13, a LAN connection unit 14, a serial connection unit 15, a USB connection unit 16, and a modem 17. Among these, the CPU 5, the ROM 6, the RAM 7, the nonvolatile memory 8, the hard disk 9, the image processing unit 10, the panel interface 11, the communication interface 12, and the device interface 13 each have a common bus (memory bus). , PCI bus, etc.) 18.

  The CPU 5 performs various control processes and data processes according to a control program stored in the ROM 6. The ROM 6 stores the control program, fixed data for control, and the like. The ROM 6 is a read-only memory, but can also be configured using a flash memory that can electrically erase and write data. The RAM 7 is used as a system memory for program operation, a page memory for image processing, and the like.

  The nonvolatile memory 8 is used to store nonvolatile data, image quality adjustment, various setting parameters, various history data, and the like. The hard disk 9 is a large-capacity data storage device built in the image processing apparatus, and is used to store image data, various history data, and the like. In addition, a confidential box for storing image data can be mounted on the hard disk 9. The confidential box is established in the hard disk 9 by allocating a part of the storage area of the hard disk 9 for each user in response to a request from the user. The confidential box is used as a personal box (personal post box) for the user. For this reason, when a confidential box is opened on the hard disk 9, password setting (registration) is performed together with identification information (such as a box name) of the confidential box. When accessing the confidential box, user authentication processing using a password is performed.

  The image processing unit 10 performs various types of image processing (for example, color conversion, color correction, gradation correction, expansion / compression, image rotation, screen generation, etc.) on image data according to a preset image processing program. It is. The panel interface 11 exchanges operation data with the operation panel 2 serving as a user interface.

  The communication interface 12 is an interface for connecting various external devices to the image processing device or connecting the image processing device to a network. The device interface 13 exchanges various data (image data, control data, etc.) with the input / output device.

  The LAN connection unit 14 is for connecting the image processing apparatus to a network constructed by a LAN (Local Area Network). For example, the LAN connection unit 14 connects to a network using 10Base-T, 100Base-T, or various wireless LANs. . The serial connection unit 15 is used to connect various serial devices that transfer data in a serial manner to the image processing apparatus. For example, the serial connection unit 15 connects a card reader / writer 19 that supports the RS232C standard. The card reader / writer 19 reads and writes data from and into a card-type storage medium 20 that is detachably mounted on the card reader / writer 19 and corresponds to the medium mounting means in the present invention. .

  As the storage medium 20 that can be connected to the card reader / writer 19, it is possible to use, for example, a currently mainstream flash memory type memory card. Specifically, a multimedia card (registered trademark), smart media, compact flash (registered trademark), SD memory card, or the like can be used. Further, by changing the serial device connected to the serial connection unit 15, a small storage medium other than the card type such as a memory stick (registered trademark) can be used.

  The USB connection unit 16 is used to connect various USB devices that transfer data in accordance with the USB (Universal Serial Bus) standard to the image processing apparatus. The corresponding device is connected. A USB memory, which is one of storage media, can be detachably attached to the USB connection unit 16. Therefore, the media mounting means in the present invention is not limited to the media reader / writer 19 described above, but can be configured using the USB connection unit 16. As a storage medium, not only the memory card and the USB memory described above but also a CD-RW, a DVD-RW, an MO, an external hard disk, and the like can be used. The modem 17 includes a modem control unit for connecting to a public line, and implements a fax data transmission / reception function.

  On the other hand, the operation panel 2 serves as a user interface through which a user using the image processing apparatus inputs various information and displays various information for the user. The operation panel 2 includes, for example, a display unit 21 including a liquid crystal display with a touch panel, and an operation unit 22 using various buttons, switches, keys, and the like.

  The scanner unit 3 serves as an input device for inputting image data. The scanner unit 3 includes an image scanner that optically reads an image of a document set (placed) on a document table such as a platen glass and converts the image into image data (digital data). The scanner unit 3 can employ a configuration including an automatic document conveyance function for conveying a document to be read one by one to an image reading position and a double-sided reading function for reading images on both sides of the document. The printer unit 4 is an output device that outputs image data. The printer unit 4 includes a print engine that prints an image corresponding to print data on a recording medium such as paper using ink, toner, or the like.

  FIG. 2 is a functional block diagram of the image processing apparatus according to the embodiment of the present invention. In FIG. 2, the connecting unit 23, the data processing unit 24, and the removal control unit 25 are realized by the CPU 5 reading the control program (computer program) stored in the ROM 6 into the RAM 7 and executing it. .

  The connecting unit 23 connects the storage area of the confidential box 26 opened (implemented) on the hard disk 9 and the storage area of the storage medium 20 attached to the media reader / writer 19. As a method of linking two storage areas, for example, as shown in FIG. 3, a memory address (first address, last address) that defines the storage area of the confidential box 26 and a memory that defines the storage area of the storage medium 20 Of the addresses (start address, end address), the memory address following the last address of the storage area of the confidential box 26 is the start address of the storage area of the storage medium 20 and the memory following the end address of the storage area of the storage medium 20 It is possible to adopt a method in which a next pointer is set at the final address of each storage area so that the address is recognized as the start address of the storage area of the confidential box 26. By connecting the two storage areas by the connecting unit 23 in this way, the controller 1 of the image processing apparatus can handle the two storage areas as one storage area.

  The data processing unit 24 processes image data using the two storage areas connected by the connecting unit 23. More specifically, the data processing unit 24 stores data (stores), reads, moves, and deletes image data. Processing and related control processing are performed. Specific processing contents of the data processing unit 24 will be described in detail later.

  The removal control unit 25 controls processing until the removal of the storage medium 20 is permitted when the removal of the storage medium 20 attached to the media reader / writer 19 is instructed. Both the instruction to remove the storage medium 20 and the permission to remove the storage medium 20 are performed using the operation panel 2. Specific processing contents of the removal control unit 25 will be described in detail later.

  4 and 5 are flowcharts showing a first processing example related to image data storage processing. First, in a state where at least one confidential box is mounted (opened) on the hard disk 9, the user attaches the storage medium 20 to the media reader / writer 19, and then the user selects one desired confidential box using the operation panel 2. Upon selection and permission of access to the confidential box is received by the user authentication process, the connecting unit 23 connects the storage area of the confidential box 26 and the storage area of the storage medium 20 by the method shown in FIG. 3 (step S1). ~ S3). Note that the order of installing the storage medium 20 and selecting the confidential box 26 may be reversed.

  Next, the data processing unit 24 displays a storage destination selection screen for allowing the user to select which storage area of the two storage areas connected by the connection unit 23 is to store image data first. Are displayed on the display unit 21 and the selection (storage destination instruction) by the user is received by the operation unit 22 (step S4). When the user selects the storage area of the confidential box 26 on the storage destination selection screen, the process proceeds from step S5 to step S6, where image data storage is started in the storage area of the confidential box 26.

  Next, the data processing unit 24 confirms whether or not the storage area of the confidential box 26 is in a memory full state while image data is being stored in the storage area of the confidential box 26 (step S7). If the memory is not full, it is confirmed whether or not the storage of the image data has been completed (step S8). If the storage of the image data is completed before the storage area of the confidential box 26 is in the memory full state, the series of processing is finished as it is. The memory full state means a state in which the entire storage area for storing image data is used up and the remaining area (free space) is exhausted.

  Further, when the storage area of the confidential box 26 becomes full while the image data is being stored in the storage area of the confidential box 26, the data processing unit 24 sets the storage area of the storage medium 20 to the memory full state. It is confirmed whether it is (step S9). When the storage area of the storage medium 20 is in a memory full state, an error message is displayed on the display unit 21 of the operation panel 2 to notify the user that image data storage is disabled. After (step S10), a series of processing is finished. If the storage area of the storage medium 20 is not in the memory full state, the process proceeds from step S9 to step S11 to change the storage location of the image data from the storage area of the confidential box 26 to the storage area of the storage medium 20. Switch to.

  When the user selects a storage area of the storage medium 20 on the storage destination selection screen described above, the process proceeds from step S5 to step S11, where the data processing unit 24 starts storing image data in the storage area of the storage medium 20. . Next, the data processing unit 24 confirms whether or not the storage area of the storage medium 20 is in a memory full state while image data is being stored in the storage area of the storage medium 20 (step S12). If the memory is not full, it is checked whether the image data storage is completed (step S13). If the storage of the image data is completed before the storage area of the storage medium 20 becomes full, a series of processing is finished as it is.

  Further, if the storage area of the storage medium 20 becomes full while the image data is being stored in the storage area of the storage medium 20, the data processing unit 24 sets the storage area of the confidential box 26 to the memory full state. It is confirmed whether it is (step S14). When the storage area of the confidential box 26 is in a memory full state, an error message is displayed on the display unit 21 of the operation panel 2 to notify the user that image data storage is disabled. After (step S15), a series of processing is finished. If the storage area of the confidential box 26 is not in a memory full state, the process proceeds from step S14 to step S6 to change the storage location of the image data from the storage area of the storage medium 20 to the storage area of the confidential box 26. Switch to.

  In the first processing example, when the storage area of the confidential box 26 and the storage area of the storage medium 20 are connected by the connecting unit 23, the user selects which storage area to store the image data first. However, the present invention is not limited to this. For example, the processing of steps S4 and S5 is omitted, and the image data is stored first in a preset storage area (for example, the storage area of the confidential box 26). You may control to do. When the former method is adopted, image data can be stored with priority given to the storage area desired by the user, and when the latter method is adopted, the user's operation can be simplified.

  Further, in the first processing example, when the storage area of the confidential box 26 becomes full while the image data is being stored in the storage area of the confidential box 26, the storage area of the storage medium 20 is stored in the memory area. If the storage area of the storage medium 20 is not full, the image data storage destination is automatically changed from the storage area of the confidential box 26 to the storage area of the storage medium 20. However, prior to this switching (when it is determined No in step S9), a switching selection for causing the user to select whether or not to switch the storage destination of the image data to the storage area of the storage medium 20 is performed. A screen is displayed on the display unit 21 of the operation panel 2, and a selection instruction by the user is received by the operation unit 22 and stored by the user. Only if you select the switching of the frequency band (instruction) may be switches the storage destination of the image data proceeds to step S11. The same applies to the case where the storage area of the storage medium 20 becomes full while image data is being stored in the storage area of the storage medium 20. When the former method is adopted, the user's operation associated with the switching of the storage area can be simplified, and when the latter method is adopted, the switching of the storage area can be controlled according to the user's desire. it can.

  In addition, while the image data is being stored in the storage area of the confidential box 26, the storage area of the confidential box 26 is in a memory full state. Accordingly, the storage location of the image data is changed from the storage area of the confidential box 26 to the storage medium. When switching to 20 storage areas, before proceeding to step S11, the user determines whether the image data being stored in the confidential box 26 is stored across the storage area of the confidential box 26 and the storage area of the storage medium 20. A straddle storage selection screen may be displayed on the display unit 21 of the operation panel 2 and a selection instruction from the user may be received by the operation unit 22. If the user has selected to store the image data across the two storage areas on the straddle storage selection screen displayed before the process proceeds to step S11, the image data is displayed according to the selection instruction. Is stored across two storage areas, and the user does not choose to store image data across the two storage areas, the image data is not straddled across the two storage areas according to the selection instruction. It is good also as what stores. If this method is adopted, when the storage location of the image data is switched in response to the occurrence of the memory full state, whether to store the image data across the two storage areas is switched according to the user's request. be able to.

  Thus, for example, as shown in FIG. 6, when storing the image data for three pages (three originals) read by the scanner unit 3 in the storage area of the confidential box 26, the half of the second page (halfway) ) If the storage area of the confidential box 26 becomes full when the image data is stored until the image data is stored, whether the user selects to store the image data across the two storage areas on the straddle storage selection screen. Depending on the case, there may be a case where image data is stored in the storage area of the storage medium 20 from the remaining half of the second page, and a case where image data is stored in the storage area of the storage medium 20 from the beginning of the second page. This is because the storage area of the storage medium 20 becomes full while the image data is being stored in the storage area of the storage medium 20, and the storage destination of the image data is changed from the storage area of the storage medium 20 accordingly. The same applies when switching to the storage area of the confidential box 26.

  7 and 8 are flowcharts showing a second processing example related to the image data storage processing. First, the same processing as in steps S1 to S5 is performed. If the storage location of the image data is selected in the storage area of the confidential box 26 in step S5, the processing proceeds to the processing in FIG. Is selected in the storage area of the storage medium 20, the process proceeds to FIG. Incidentally, both the processing of FIG. 7 and the processing of FIG. 8 are performed by the data processing unit 24.

  In the process of FIG. 7, storage of image data is first started in the storage area of the confidential box 26 (step S16). Next, in the middle of storing the image data in the storage area of the confidential box 26, it is confirmed whether or not the storage area of the confidential box 26 is in a memory full state (step S17). If not, it is checked whether the storage of the image data has been completed (step S18). If the storage of the image data is completed before the storage area of the confidential box 26 is in the memory full state, the series of processing is finished as it is.

  If the storage area of the confidential box 26 is in a memory full state while image data is being stored in the storage area of the confidential box 26, is the storage area of the storage medium 20 in a memory full state? Whether or not is confirmed (step S19). When the storage area of the storage medium 20 is in a memory full state, an error message is displayed on the display unit 21 of the operation panel 2 to notify the user that image data storage is disabled. After (step S25), a series of processing is finished. If the storage area of the storage medium 20 is not in a memory full state, it is confirmed whether old image data is stored in the storage area of the confidential box 26 (step S20). The old image data described here refers to image data stored in the storage area of the confidential box 26 before the current storage process. For this reason, the image data to be stored in the storage area of the confidential box 26 in the current storage process does not correspond to the old image data.

  When old image data does not exist in the storage area of the confidential box 26, an error message is displayed on the display unit 21 of the operation panel 2 to notify the user that the image data cannot be stored. (Step S25), a series of processing ends. On the other hand, when the old image data exists in the storage area of the confidential box 26, a process for moving the old image data from the storage area of the confidential box 26 to the storage area of the storage medium 20 is started (step S21). . The moving process of the old image data includes, for example, a process of reading the old image data from the storage area of the confidential box 26 into the RAM 7, a process of storing the old image data read out of the RAM 7 into the storage area of the storage medium 20, and a storage This is performed by deleting the old image data stored in the storage area of the medium 20 from the storage area of the confidential box 26.

  Subsequently, it is checked whether or not the storage area of the storage medium 20 is in a memory full state while moving the old image data (step S22). It is confirmed whether or not the movement of has been completed (step S23). If the movement of the old image data is completed before the storage area of the storage medium 20 becomes full, the above-described storage area of the confidential box 26 in which a free space is secured by the movement of the old image data. In step S17, the storage is resumed from the continuation of the image data that was in the memory full state and being stored (step S24), and then the process returns to step S17 again. In addition, when the storage area of the storage medium 20 becomes full before the movement of the old image data is completed, an error message is displayed on the display unit 21 of the operation panel 2, thereby making it impossible to store the image data. After notifying the user that it has become (step S25), the series of processing ends.

  On the other hand, in the process of FIG. 8, storage of image data is first started in the storage area of the storage medium 20 (step S26). Next, while image data is being stored in the storage area of the storage medium 20, it is checked whether the storage area of the storage medium 20 is in a memory full state (step S27), and the memory full state is reached. If not, it is checked whether the storage of the image data has been completed (step S28). If the storage of the image data is completed before the storage area of the storage medium 20 becomes full, a series of processing is finished as it is.

  If the storage area of the storage medium 20 becomes full while the image data is being stored in the storage area of the storage medium 20, is the storage area of the confidential box 26 full of memory? Whether or not is confirmed (step S29). When the storage area of the confidential box 26 is in a memory full state, an error message is displayed on the display unit 21 of the operation panel 2 to notify the user that image data storage is disabled. After (step S35), a series of processing is finished. If the storage area of the confidential box 26 is not in a memory full state, it is confirmed whether old image data is stored in the storage area of the storage medium 20 (step S30). The old image data described here refers to image data stored in the storage area of the storage medium 20 before the current storage process. For this reason, the image data to be stored in the storage area of the storage medium 20 in the current storage process does not correspond to the old image data.

  When old image data does not exist in the storage area of the storage medium 20, an error message is displayed on the display unit 21 of the operation panel 2 to notify the user that image data storage has become impossible. (Step S35), a series of processing ends. On the other hand, when the old image data exists in the storage area of the storage medium 20, a process of moving the old image data from the storage area of the storage medium 20 to the storage area of the confidential box 26 is started (step S31). . The movement process of the old image data includes a process of reading the old image data from the storage area of the storage medium 20, a process of storing the old image data read from the storage area of the storage medium 20 in the storage area of the confidential box 26, and a confidential box. The old image data stored in the storage area 26 is deleted from the storage area of the storage medium 20.

  Subsequently, it is checked whether or not the storage area of the confidential box 26 is in a memory full state while the old image data is being moved (step S32). It is confirmed whether or not the movement of has been completed (step S33). Then, when the movement of the old image data is finished before the storage area of the confidential box 26 becomes the memory full state, the storage area of the storage medium 20 in which the free space is secured by the movement of the old image data is described above. After resuming the storage from the continuation of the image data that was in the middle of storage due to the memory full state in step S27 (step S34), the process returns to step S27 again. Also, if the storage area of the confidential box 26 becomes full before the movement of the old image data is completed, an error message is displayed on the display unit 21 of the operation panel 2 to make it impossible to store the image data. After notifying the user that it has become (step S35), the series of processing is finished.

  In the second processing example, when the storage area of the confidential box 26 becomes full while the image data is being stored in the storage area of the confidential box 26, the storage area of the storage medium 20 is not stored. It is confirmed whether the memory is full. If the storage area of the storage medium 20 is not full, the old image data stored in the storage area of the confidential box 26 is stored in the storage area of the storage medium 20. Although it is assumed to automatically move, the movement for allowing the user to select whether to move the old image data to the storage area of the storage medium 20 prior to this movement (when it is determined Yes in step S20). The selection screen is displayed on the display unit 21 of the operation panel 2 and a selection instruction by the user is received by the operation unit 22 so that the user can transfer the old image data. Selection (instruction) If only may be intended to move the old image data proceeds to step S21. The same applies to the case where the storage area of the storage medium 20 becomes full while image data is being stored in the storage area of the storage medium 20. When the former method is adopted, the user's operation associated with the movement of the old image data can be simplified, and when the latter method is adopted, the movement of the old image data is controlled according to the user's request. be able to.

  Further, when moving the old image data to the storage area of the storage medium 20, before proceeding to step S21, the old image data to be moved from the old image data stored in the storage area of the confidential box 26. It is also possible to display a moving image selection screen for allowing the user to select the image on the display unit 21 of the operation panel 2 and accept the selection instruction from the user by the operation unit 22. And when it progresses to step S21, it is good also as what moves only the old image data which the user selected on the moving image selection screen displayed before that to the storage area of the storage medium 20. In this case, only the old image data desired by the user can be moved to the storage area of the storage medium 20, and other old image data can be left in the storage area of the confidential box 26. The same applies to the case where the old image data is moved to the storage area of the confidential box 26.

  Further, as the moving image selection screen, for example, the image data stored in the storage area of the confidential box 26 and the image data stored in the storage area of the storage medium 20 are displayed on the display unit 21 of the operation panel 2 in a list format. In this case, as shown in FIG. 9, a mark (in the illustrated example, a check mark) indicating which image data is stored in which of the two storage areas corresponding to the confidential box 26 and the storage medium 20 is displayed. Thus, the old image data to be moved can be easily selected from the image data list. In the display example of FIG. 9, a check mark is placed in at least one of the confidential box and the storage medium in the image data list, and the image data is stored in the place where this check mark is placed. Therefore, among the five image data displayed in the list, the image data 001, 002, 005 is stored in the storage area of the storage medium 20, the image data 003 is stored in the storage area of the confidential box 26, and the image data 004 is stored. It can be seen at a glance that is stored across the storage area of the confidential box 26 and the storage area of the storage medium 20. The list display of image data using such marks can be applied not only to the moving image selection screen but also in various situations as required, for example, when a display request is received from the user.

  In the image data storage process as described above, the storage area of the confidential box 26 and the storage area of the storage medium 20 attached to the media reader / writer 19 are connected, and the image data is processed using these two storage areas. Therefore, a memory that can be used when image data is processed only by the user wearing the storage medium 20 without depending on the operation state of the own device (image processing device) or the operation state of the external device. The capacity can be greatly increased. Therefore, when receiving a service using the confidential box 26, even if the memory capacity is insufficient only in the storage area of the confidential box 26, the shortage of the memory capacity can be easily resolved simply by installing the storage medium 20. In addition, by attaching the storage medium 20, it is possible to handle image data exceeding the memory capacity of the confidential box 26.

  Further, in the first processing example, when image data storage processing is performed in a state where the storage area of the confidential box 26 and the storage area of the storage medium 20 are connected by the connecting unit 23, the image is first stored in one storage area. When data is stored and one storage area becomes memory full, the image data storage destination is switched to the other storage area, so that one storage area is memory full while image data is being stored. Even in this state, it is possible to continue storing image data by switching the image data storage destination to the other storage area.

  In the second processing example, when image data storage processing is performed in a state in which the storage area of the confidential box 26 and the storage area of the storage medium 20 are connected by the connecting unit 23, the image is first stored in one storage area. When data is stored and one storage area becomes full, the old image data stored in one storage area is moved to the other storage area. Even if one storage area becomes full, it is possible to recover the memory capacity of one storage area by moving old image data stored in one storage area to the other storage area. . For this reason, image data storage can be resumed in one storage area.

  Next, a specific processing example performed by the removal control unit 25 when removing the storage medium 20 from the media reader / writer 19 will be described.

  FIG. 10 is a flowchart illustrating a first processing example related to storage medium removal control. First, the removal control unit 25 determines whether removal of the storage medium 20 attached to the media reader / writer 19 has been instructed (step S41). An instruction to remove the storage medium 20 is given by the user using the operation panel 2. This removal instruction may be a direct instruction or an indirect instruction. As a direct instruction, for example, there may be a case where a removal instruction button for instructing removal of the storage medium 20 is provided on the operation panel 2 and when the user presses this removal instruction button, it is recognized that there has been an instruction for removal. It is done. As an indirect instruction, for example, an operation screen for receiving a service (image data storage service, print service, etc.) using the confidential box 26 is displayed on the display unit 21 of the operation panel 2. When the user performs an operation for closing the operation screen, the screen closing operation may be recognized as an instruction to remove the storage medium 20.

  When removal of the storage medium 20 is instructed, the removal control unit 25 determines whether image data is stored in the storage area of the storage medium 20 (step S42). If it is determined that no image data is stored in the storage area of the storage medium 20, the removal of the storage medium 20 is permitted immediately at that time (step S47). The user is permitted to remove the storage medium 20. Specifically, for example, by displaying a message indicating that the removal of the storage medium 20 is permitted on the display unit 21 of the operation panel 2 or displaying a message prompting the removal of the storage medium 20 to the user, The removal of the storage medium 20 is permitted.

  On the other hand, if it is determined that the image data is stored in the storage area of the storage medium 20, the image data stored in the storage area of the storage medium 20 is stored across the storage area of the confidential box 26. It is confirmed whether there is any image data (hereinafter referred to as “crossing data”) (step S43). And when straddle data exists, straddle data are moved according to a user's directions (Step S44). In this case, the user's instruction is performed using the operation panel 2. At that time, when the user instructs the movement destination of the straddling data in the storage area of the storage medium 20, the image data movement command based on this instruction is removed and the control unit 25 gives the data processing unit 24, thereby Move to the storage area of the storage medium 20. In addition, when the user instructs the movement destination of the straddling data in the storage area of the confidential box 26, the controller 25 removes the image data moving instruction based on the instruction and gives the data processing section 24 the data processing section 24. Move to the storage area of box 260. For example, the process of moving the straddle data includes a process of reading the image data stored across the storage areas onto the RAM 7, a process of deleting the straddle data from the storage areas, and the image data read out of the RAM 7. This is performed by a process of storing in the destination storage area.

  Subsequently, the removal control unit 25 receives a movement instruction from the user regarding the image data other than the straddle data (step S45), and if there is no movement instruction (for example, the user presses the movement unnecessary button on the operation panel 2). If an operation such as performing is performed), the process proceeds to step S47 as it is and the removal of the storage medium 20 is permitted. If there is an instruction to move, an image data move command based on the move instruction is given to the data processing unit 24 before moving to step S47, thereby moving the image data to the storage area of the confidential box 26. (Step S46).

  The instruction to move the image data is, for example, a list of image data stored in the storage medium 20 is displayed on the display unit 21 of the operation panel 2, from which the user can move the object with the operation unit 22 of the operation panel 2. This is done by selecting one or more image data. At that time, when the user selects all of the image data stored in the storage area of the storage medium 20, the image data movement command based on this selection instruction is removed, and the control unit 25 gives the data processing unit 24 the memory data. All of the image data stored in the storage area of the medium 20 is moved to the storage area of the confidential box 26. In this case, the storage area of the storage medium 20 is in an empty state where no image data is stored. When a part of the image data stored in the storage area of the storage medium 20 is selected by the user, the movement control unit 25 gives the data processing unit 24 a removal command of the face drawing data based on the selection instruction. A part of the image data stored in the storage area of the storage medium 20 is moved to the storage area of the confidential box 26. In this case, in the storage area of the storage medium 20, image data that is not a movement target remains.

  FIG. 11 is a flowchart illustrating a second processing example related to storage medium removal control. First, the removal control unit 25 determines whether removal of the storage medium 20 attached to the media reader / writer 19 has been instructed (step S51). When removal of the storage medium 20 is instructed, the removal control unit 25 determines whether image data is stored in the storage area of the storage medium 20 (step S52), and the image is stored in the storage area of the storage medium 20. If no data is stored, the removal of the storage medium 20 is permitted immediately at that time (step S57). The processing so far is the same as the first processing example shown in FIG.

  If it is determined that the image data is stored in the storage area of the storage medium 20, the removal control unit 25 determines whether or not there is straddle data in the image data stored in the storage area of the storage medium 20. Is confirmed (step S53). If there is crossing data, the crossing data is forcibly (automatically) deleted by giving an image data deletion command to the data processing unit 24 (step S54). The straddle data is stored across the storage areas of both the storage medium 20 and the confidential box 26. For this reason, when deleting straddle data in step S54, it is desirable to delete straddle data including not only the amount stored in the storage medium 20 but also the amount stored in the confidential box 26.

  Subsequently, the removal control unit 25 receives a deletion instruction from the user regarding image data other than the straddle data (step S55), and when there is no deletion instruction (for example, the user presses a deletion unnecessary button on the operation panel 2). If an operation such as performing is performed), the process proceeds to step S57 and the removal of the storage medium 20 is permitted. Also, if there is an instruction for deletion from the user, an image data deletion command based on the deletion instruction from the user is given to the data processing unit 24 before proceeding to step S57, whereby the image data is stored in the storage medium 20. Delete from the area (step S56).

  The instruction to delete the image data is, for example, a list of image data stored in the storage medium 20 is displayed on the display unit 21 of the operation panel 2, and the user can delete the image data using the operation unit 22 of the operation panel 2. This is done by selecting one or more image data. At that time, when the user selects all of the image data stored in the storage area of the storage medium 20, the image data deletion command based on the selection instruction is removed, and the control unit 25 gives the data processing unit 24 the storage data. All of the image data stored in the storage area of the medium 20 is deleted. In this case, the storage area of the storage medium 20 is in an empty state where no image data is stored. When a part of the image data stored in the storage area of the storage medium 20 is selected by the user, the image data deletion command based on the selection instruction is removed, and the control unit 25 gives the data processing unit 24 the storage data. A part of the image data stored in the storage area of the medium 20 is deleted. In this case, image data that is not subject to deletion remains in the storage area of the storage medium 20.

  The first processing example and the second processing example related to the removal control can be combined as appropriate. For example, in the first processing example shown in FIG. 10, the processing in steps S43 and S44 can be replaced with the processing in steps S53 and S54. Further, in the second processing example shown in FIG. 11, the processing in steps S53 and S54 can be replaced with the processing in steps S43 and S44.

  FIG. 12 is a flowchart illustrating a third processing example related to storage medium removal control. First, the removal control unit 25 determines whether removal of the storage medium 20 attached to the media reader / writer 19 has been instructed (step S61). When the removal of the storage medium 20 is instructed, the removal control unit 25 determines whether image data is stored in the storage area of the storage medium 20 (step S62), and the image is stored in the storage area of the storage medium 20. If no data is stored, the removal of the storage medium 20 is permitted immediately at that time (step S67). The processing so far is the same as the first processing example shown in FIG.

  When determining that the image data is stored in the storage area of the storage medium 20, the removal control unit 25 determines the total amount (number of bytes) of the image data stored in the storage area of the storage medium 20 and the confidential box. The free space (number of bytes) of the 26 storage areas is compared (step S63). Here, the total amount of image data stored in the storage area of the storage medium 20 means the total amount of data when all the image data stored in the storage area are added. For example, a total of three pieces of image data are stored in the storage area of the storage medium 20, and the amount of one piece of image data is 500 kilobytes, the amount of another piece of image data is 800 kilobytes, and the amount of the remaining piece of image data is 700. If it is kilobytes, the total amount of image data stored in the storage area of the storage medium 20 is 2000 kilobytes.

  If the total amount of image data is larger than the free space in the comparison result, a list of image data stored in the storage area of the storage medium 20 is displayed on the display unit 21 of the display panel 2, and a message is displayed to the user. An instruction to delete the image data is prompted (step S65). When the user designates the image data to be deleted, the removal control unit 25 provides the data processing unit 24 with an image data deletion command based on the deletion instruction, thereby deleting the image data from the storage area of the storage medium 20. (Step S65), the process returns to Step S63.

  If the total amount of image data is equal to or less than the free space in the comparison result, the removal control unit 25 gives the image data movement command to the data processing unit 24 and is stored in the storage area of the storage medium 20. After moving the stored image data to the storage area of the confidential box 26 (step S66), the process proceeds to step S67, and the removal of the storage medium 20 is permitted. The image data moving process in step S66 includes a process of reading the image data stored in the storage area of the storage medium 20 one by one or in predetermined units on the RAM 7, and the image data read on the RAM 7 in the confidential box 26. This is performed by a process of storing in the storage area and a process of deleting image data stored in the storage area of the confidential box 26 from the storage area of the storage medium 20.

  In the removal control process as described above, when removal of the storage medium 20 attached to the media reader / writer 19 is instructed, it is determined whether image data is stored in the storage area of the storage medium 20. By controlling the processing until the removal of the storage medium 20 is permitted based on the determination result, the image data is stored in the storage area of the storage medium 20 when the user actually instructs the removal of the storage medium 20. It is possible to appropriately control the processing until the removal of the storage medium 20 is permitted depending on whether the storage medium 20 is stored or not stored.

  That is, when the removal of the storage medium 20 is instructed, if no image data is stored in the storage area of the storage medium 20, the removal instruction from the user is given by permitting the removal of the storage medium immediately. In response to this, removal can be permitted quickly.

  Further, as in the first processing example, when image data is stored in the storage area of the storage medium 20 when the removal of the storage medium 20 is instructed, the image data is stored in the storage area of the storage medium 20. In a state in which the memory capacity of the storage medium 20 is restored by controlling to permit the removal of the storage medium 20 after moving a part or all of the image data to the storage area of the confidential box 26, The removal of the storage medium 20 can be permitted.

  Further, when image data is stored in the storage area of the storage medium 20 when the removal of the storage medium 20 is instructed as in the first processing example, the image data is stored in the storage area of the storage medium 20. If the user selects whether to move the image data to the storage area of the confidential box 26 and the user selects to move the image data, the image data is transferred from the storage area of the storage medium 20 to the storage area of the confidential box 26. If the removal of the storage medium 20 is permitted after the movement and the user does not select the movement of the image data, the storage medium 20 is moved without moving the image data from the storage area of the storage medium 20 to the storage area of the confidential box 26. When the user instructs the removal of the storage medium 20 by controlling to allow the removal of the storage medium 20 Among the image data stored in the storage area of the storage medium 20 may be in a state where the user has left only image data desired to confidential box 26, to permit removal of the storage medium 20.

  Further, as in the second processing example, when image data is stored in the storage area of the storage medium 20 when the removal of the storage medium 20 is instructed, the image data is stored in the storage area of the storage medium 20. After removing part or all of the image data, the removal of the storage medium 20 is permitted with the memory capacity of the storage medium 20 restored by controlling the removal of the storage medium 20. be able to.

  Further, if image data is stored in the storage area of the storage medium 20 when the removal of the storage medium 20 is instructed as in the second processing example, the image data is stored in the storage area of the storage medium 20. If the user selects whether or not to delete the image data, and the user selects to delete the image data, the image data is deleted from the storage area of the storage medium 20 and then the removal of the storage medium 20 is permitted. If the user does not select the deletion of the image data, the user controls the removal of the storage medium 20 without deleting the image data from the storage area of the storage medium 20 so that the user can remove the storage medium 20. When instructed, the user desires among the image data stored in the storage area of the storage medium 20 While delete only image data, it is possible to allow the removal of the storage medium 20.

  Further, when it is determined that image data is stored in the storage area of the storage medium 20, it is confirmed whether or not there is straddle data in the image data stored in the storage area of the storage medium 20. Based on the results, by controlling the processing until the removal of the storage medium 20 is permitted, the image data stored in the storage area of the storage medium 20 may or may not exist, It is possible to appropriately control the processing until the removal of the storage medium 20 is permitted.

  That is, if there is straddle data, move the straddle data to one of the two storage areas and then allow the removal of the storage medium 20 or delete the straddle data and then remove the storage medium 20 Can be permitted to leave the storage medium 20 without leaving image data in an incomplete (incomplete) state in each storage area. Further, when there is no straddle data, the removal of the storage medium 20 can be permitted without leaving the image data halfway in each storage area without moving or deleting the straddle data. .

  Further, as in the third processing example, the total amount of image data stored in the storage area of the storage medium 20 is compared with the free capacity of the storage area of the confidential box 26, and based on the comparison result, the storage medium By controlling the processing until the removal of the storage medium 20 is permitted, when the user instructs the removal of the storage medium, the total amount of image data stored in the storage area of the storage medium and the free space of the storage area of the mailbox Based on the comparison result, it is possible to appropriately control the processing until the removal of the storage medium is permitted.

  That is, when the total amount of image data stored in the storage area of the storage medium 20 is equal to or less than the free space in the storage area of the confidential box 26, control is performed so that the image data is immediately moved from the storage medium 20 to the confidential box 26. By doing so, the time until the removal of the storage medium 20 is permitted can be shortened. If the total amount of image data stored in the storage area of the storage medium 20 is larger than the free space in the storage area of the confidential box 26, a part of the image data stored in the storage area of the storage medium 20 is stored. By deleting, the total amount of image data can be reduced below the free space. For this reason, it is possible to move image data from the storage medium 20 to the confidential box 26 without setting the storage area of the confidential box 26 to the memory full state.

It is a block diagram which shows the structural example of the image processing apparatus which concerns on embodiment of this invention. 1 is a functional block diagram of an image processing apparatus according to an embodiment of the present invention. It is a figure which shows the process example of a connection part. 12 is a flowchart (No. 1) illustrating a first processing example related to image data storage processing; 12 is a flowchart (No. 2) illustrating a first processing example related to image data storage processing; It is a figure which shows the example of a storage of the image data between storage areas. It is a flowchart (the 1) which shows the 2nd process example which concerns on the storage process of image data. 12 is a flowchart (part 2) illustrating a second processing example relating to image data storage processing; It is a figure which shows the example of a display of an operation screen. 12 is a flowchart illustrating a first processing example related to storage medium removal control. 12 is a flowchart illustrating a second processing example related to storage medium removal control. 12 is a flowchart illustrating a third processing example related to storage medium removal control.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Controller, 2 ... Operation panel, 9 ... Hard disk, 19 ... Media reader / writer, 20 ... Storage medium, 23 ... Connection part, 24 ... Data processing part, 25 ... Removal control part, 26 ... Mailbox

Claims (25)

An image processing apparatus that implements a confidential box for storing image data,
A medium mounting means on which a storage medium is detachably mounted;
Connecting means for connecting the storage area of the confidential box and the storage area of the storage medium attached to the media attaching means;
An image processing apparatus comprising: data processing means for processing image data using two storage areas connected by the connecting means. The data processing means, when performing image data storage processing, allows the user to select which storage area of the two storage areas to store the image data first. The image processing apparatus described. 2. The image processing according to claim 1, wherein the image processing unit stores image data in a preset storage area of the two storage areas when performing image data storage processing. apparatus. The data processing means stores image data first in one of the two storage areas when the image data is stored, and the one storage area is in a memory full state. The image processing apparatus according to claim 1, wherein the image data storage destination is switched to the other storage area. 5. The data processing unit according to claim 4, wherein when the one storage area becomes a memory full state, the user selects whether to switch the image data storage destination to the other storage area. Image processing device. When the one storage area is in a memory full state while image data is being stored in the one storage area, the data processing means converts the image data being stored as the one storage area. The image processing apparatus according to claim 4, wherein a user is allowed to select whether or not to store the data across the other storage area. The data processing means stores image data first in one of the two storage areas when the image data is stored, and the one storage area is in a memory full state. The image processing apparatus according to claim 1, wherein the old image data stored in the one storage area is moved to the other storage area. The said data processing means makes a user select whether to move the said old image data to the other storage area, when the said one storage area becomes a memory full state. Image processing device. The data processing means, when moving the old image data to the other storage area, selects the old image data to be moved from the old image data stored in the one storage area to the user The image processing apparatus according to claim 7, wherein: Display means for displaying a list of image data stored in the two storage areas connected by the connection means together with a mark indicating which of the two storage areas each image data is stored in; The image processing apparatus according to claim 1. When removal of the storage medium attached to the medium attachment means is instructed, it is determined whether image data is stored in a storage area of the storage medium, and based on the determination result, the storage medium The image processing apparatus according to claim 1, further comprising a removal control unit that controls a process until the removal is permitted. The image processing apparatus according to claim 11, wherein when the removal control unit determines that image data is not stored in a storage area of the storage medium, the removal control unit immediately permits the removal of the storage medium. When it is determined that the image data is stored in the storage area of the storage medium, the removal control means stores part or all of the image data stored in the storage area of the storage medium in the storage box. The image processing apparatus according to claim 11, wherein the image processing apparatus is controlled to permit removal of the storage medium after being moved to the area. When the removal control means determines that image data is stored in the storage area of the storage medium, after deleting a part or all of the image data stored in the storage area of the storage medium, The image processing apparatus according to claim 11, wherein control is performed to allow removal of the storage medium. If the removal control unit determines that the image data is stored in the storage area of the storage medium, the removal control means moves the image data stored in the storage area of the storage medium to the storage area of the confidential box. If the user selects whether to move the image data, the image data is moved from the storage area of the storage medium to the storage area of the confidential box, and then the removal of the storage medium is permitted. When the movement of the image data is not selected, control is performed to permit the removal of the storage medium without moving the image data from the storage area of the storage medium to the storage area of the confidential box. The image processing apparatus according to claim 11. When the removal control means determines that image data is stored in the storage area of the storage medium, the removal control means allows the user to select whether to delete the image data stored in the storage area of the storage medium, If the user has selected to delete image data, the image data is deleted from the storage area of the storage medium and then allowed to be removed, and if the user has not selected to delete the image data, The image processing apparatus according to claim 11, wherein control is performed to permit removal of the storage medium without deleting image data from a storage area of the storage medium. When the removal control means determines that image data is stored in the storage area of the storage medium, the total amount of image data stored in the storage area of the storage medium and the free space in the storage area of the mailbox The image processing apparatus according to claim 11, further comprising: comparing the capacity and controlling processing until the removal of the storage medium is permitted based on the comparison result. 18. The image according to claim 17, wherein the removal control unit performs control so that the image data is immediately moved from the storage medium to the confidential box when the total amount of the image data is equal to or less than the free space. Processing equipment. The removal control means deletes a part of the image data stored in the storage area of the storage medium when the total amount of the image data is larger than the free space, and then deletes the image data from the storage medium to the confidential box. The image processing apparatus according to claim 17, wherein the image data is controlled to move. When the removal control means determines that image data is stored in the storage area of the storage medium, the removal control means stores the image data stored in the storage area of the storage medium across the two storage areas. The image processing apparatus according to claim 11, further comprising: confirming whether or not the straddled data exists, and controlling a process until the removal of the storage medium is permitted based on the confirmation result. The removal control means performs control so as to permit removal of the storage medium after the straddle data is moved to one of the two storage areas when the straddle data exists. The image processing apparatus according to claim 20. The image processing apparatus according to claim 21, wherein the removal control unit causes a user to select which of the two storage areas the crossing data is to be moved. 21. The image processing apparatus according to claim 20, wherein when the straddle data is present, the removal control unit performs control so that the removal of the storage medium is permitted after the straddle data is deleted. A method for controlling an image processing apparatus that includes a confidential box for storing image data and a medium mounting unit on which a storage medium is detachably mounted,
A first step of connecting the storage area of the confidential box and the storage area of the storage medium mounted on the medium mounting means;
And a second step of processing image data using the two storage areas connected in the first step. A control program for an image processing apparatus that includes a confidential box for storing image data and includes a medium mounting unit on which a storage medium is detachably mounted,
On the computer,
A first step of connecting the storage area of the confidential box and the storage area of the storage medium mounted on the medium mounting means;
A control program for an image processing apparatus, comprising: a second step of processing image data using two storage areas connected in the first step.

Images