JP2018129723A - Image reading device and image transmission method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image reading device which restrains transmission delay of image data to an external apparatus other than a specific external apparatus, when selecting the specific external apparatus from multiple external apparatus and stopping transmission to the specific external apparatus.SOLUTION: In a case of being canceled by a button group 42 during transmission of image data to multiple external apparatus, a MFP100 stops transmission of image data to the multiple external apparatus entirely, and displays a transmission method list display screen 56, so that one transmission method of cancellation object is selected. When one transmission method of cancellation object is selected, the MFP100 releases transmission stop of image data to an external apparatus following to a transmission method that is not the stop object out of the multiple external apparatus. Thereafter, the MFP100 displays a transmission destination list display screen 57, so that an external apparatus becoming stop object is selected among the external apparatus to which image data is transmitted according to one selected transmission method.SELECTED DRAWING: Figure 13

Description

  The present invention relates to an image reading apparatus and an image transmission method. More specifically, the present invention relates to a technique for transmitting image data for an image read by an image reading device from the image reading device to a plurality of external devices.

  2. Description of the Related Art Conventionally, an image reading apparatus capable of communicating with an external device reads an image from a document to generate image data, and sequentially transmits the generated image data to a plurality of external devices designated as transmission destinations. It has been known.

  As a document disclosing a technique in which one apparatus executes a plurality of jobs, for example, there is Patent Document 1. Patent Document 1 is an image processing apparatus that accepts a plurality of jobs and can execute the plurality of received jobs in parallel. In response to a stop key operation, all the jobs being executed are temporarily stopped and stopped. A configuration is disclosed in which all jobs are displayed in a list, the job to be stopped is selected by the user, and after the user selects a job, the processing of the job not selected by the user is resumed.

JP 2001-251454 A

  However, in the technique disclosed in Patent Document 1, processing of all jobs is temporarily stopped until a user selects a job to stop processing after the stop key is pressed. Therefore, the completion of jobs other than the job that stops processing is delayed by the time it takes for the user to select the job that stops processing.

  For example, in an image reading apparatus capable of communicating with an external device, when the technique disclosed in Patent Document 1 is applied to sequentially transmit image data to a plurality of external devices, transmission is performed after a stop key is pressed. The transmission of image data to an external device other than the external device whose transmission is to be delayed is delayed by the time required until the external device to be canceled is selected by the user.

  The present invention has been made to solve the above-described problems of the prior art. That is, the problem is that in an image reading apparatus that transmits image data to a plurality of external devices, a specific external device is selected from a plurality of external devices that are transmission destinations, and transmission to the specific external device is stopped. In this case, it is an object to provide a technique for suppressing a delay in transmitting image data to an external device other than the specific external device.

  In order to solve this problem, an image reading apparatus includes a reading unit that reads an image from a document, a communication unit that communicates with a plurality of external devices, an operation unit, a display unit, a storage unit, a control unit, When the plurality of external devices are designated as image data transmission destinations for the image read by the reading unit, the control unit includes a transmission destination address corresponding to each of the plurality of external devices and the image A storage process for storing a data transmission method in the storage unit, an image data generation process for controlling the reading unit to read an image from a document and generating the image data for the image, and a control for the communication unit Then, according to the transmission destination address and the image data transmission method corresponding to each of the plurality of external devices stored in the storage unit in the storage processing, A transmission process for sequentially transmitting data, and a stop process for controlling the communication unit to stop the transmission process when the operation unit accepts the suspension of the transmission process in the transmission process. , Executing a first display process for controlling the display unit to display a list of transmission methods that are displays related to at least two or more different transmission methods, and after executing the first display process, the operation When the first selection operation for selecting one of the at least two different transmission methods displayed in the transmission method list by the unit is received, the communication unit is controlled to perform the stop process. Before the transmission processing is stopped by the stop processing, the transmission of the image data to the external device related to the transmission method other than the first transmission method among the transmission processing that is stopped is resumed. In the transmission process, the first restart process is executed to maintain the stop of the transmission of the image data to the external device according to the first transmission method, and the display unit is controlled after the first restart process is executed. Then, a second destination is displayed that is a display related to the external device to which the image data is transmitted according to the first transmission method among the external devices that are kept stopped after the first restart process is executed. One of the external devices to which the image data is transmitted according to the first transmission method among the external devices displayed on the transmission destination list by the operation unit after executing the display process and the second display process When the second selection operation for selecting the external device is received, the image is sent to the external device other than the first external device in the transmission process that is stopped by the stop process by controlling the communication unit. Performing a second restart process for resuming data transmission and maintaining the stop of transmission of the image data to the first external device among the transmission processes stopped by the stop process. To do.

  Such an image reading apparatus stops all transmission of image data to a plurality of external devices when the operation unit accepts cancellation during transmission of the image data to the plurality of external devices. In addition, the image reading apparatus displays a transmission method list and selects one transmission method to be canceled. Thereafter, the image reading apparatus displays a transmission destination list and selects an external device to be canceled from among external devices to which image data is transmitted according to the selected one transmission method. When one transmission method to be canceled is selected, the image reading apparatus stops transmission of image data to an external device to which image data is transmitted in accordance with a transmission method that is not the cancellation target among a plurality of external devices. To release. Thus, even while the external device to be canceled is selected, the image reading apparatus restarts the transmission of the image data to some external devices, and transmits the image data and the external device to be canceled. The selection is accepted in parallel. Therefore, the image reading apparatus can complete the transmission of the image data at an early stage as compared with the method of canceling the suspension of the transmission of the image data of all the external devices after the external device to be canceled is selected.

  A control method, a computer program, and a computer-readable storage medium storing the computer program for realizing the functions of the apparatus are also novel and useful.

According to the present invention, when an image reading apparatus that transmits image data to a plurality of external devices selects a specific external device from a plurality of external devices that are transmission destinations and stops transmission to the specific external device. , It is possible to provide a technique for suppressing delay in transmission of image data to an external device other than the specific external device.
Is realized.

1 is a block diagram illustrating an electrical configuration of an image reading apparatus according to an embodiment of the present invention. It is a figure which shows an example of a destination designation | designated screen. It is explanatory drawing which shows the example of the transmission destination list | wrist at the time of the transmission start of image data. It is a figure which shows an example of the screen during transmission. It is explanatory drawing which shows the example of the transmission destination list | wrist at the time of the 3rd transmission start. It is explanatory drawing which shows the example of the transmission destination list | wrist at the time of the 3rd transmission stop. It is a figure which shows an example of the transmission method list display screen. It is explanatory drawing which shows the example of the transmission destination list | wrist after transmission method selection. It is a figure which shows an example of a transmission destination list display screen. It is explanatory drawing which shows the example of the transmission destination list | wrist after transmission destination selection. It is a flowchart which shows the procedure of a multiple destination transmission process. It is a flowchart which shows the procedure of a transmission process. It is a flowchart which shows the procedure of a transmission cancellation process.

  Hereinafter, the apparatus according to the present embodiment will be described in detail with reference to the accompanying drawings. In the present embodiment, the present invention is applied to a multifunction peripheral (MFP) having a reading function.

  As shown in FIG. 1, the MFP 100 according to this embodiment includes a controller 30 including a CPU 31, a ROM 32, a RAM 33, and an NVRAM (nonvolatile RAM) 34. The MFP 100 includes an image forming unit 10, an image reading unit 20, a network IF (interface) 37, and an operation panel 40, and these are electrically connected to the controller 30.

  The image forming unit 10 is configured to print an image on a sheet. The image forming method of the image forming unit 10 may be an electrophotographic method or an ink jet method. MFP 100 of this embodiment may be a device capable of forming a color image or a device dedicated to monochrome images. Further, MFP 100 may be a device capable of double-sided printing or a device only for single-sided printing.

  The image reading unit 20 has a configuration for reading an image of a document. The reading method may be a CCD method or a CIS method. The MFP 100 according to the present embodiment may be a device capable of color reading or a device only capable of monochrome reading. Further, MFP 100 may be a device that can perform double-sided reading or a device that only performs single-sided reading. The image reading unit 20 is an example of a reading unit.

  The ROM 32 stores various control programs for controlling the MFP 100, various settings, initial values, and the like. The RAM 33 is used as a work area from which various control programs are read, or as a storage area for temporarily storing data. The RAM 33 is an example of a storage unit. The NVRAM 34 is used as an area for storing data such as image data, various settings, user information, and the like.

  The CPU 31 controls each component of the MFP 100 according to the control program read from the ROM 32 while storing the processing result in the RAM 33 or the NVRAM 34. The CPU 31 is an example of a control unit. The controller 30 may be a control unit. Note that the controller 30 is a collective term for hardware used for controlling the MFP 100 such as the CPU 31, and does not necessarily represent a single piece of hardware that actually exists in the MFP 100.

  The network IF 37 is hardware for communicating with external devices 1, 2, and 3 connected to the network. The communication method may be wired or wireless. The network IF 37 is an example of a communication unit.

  The operation panel 40 includes a liquid crystal display 41 and a button group 42. The liquid crystal display 41 is an example of a display unit. The button group 42 is an example of an operation unit. The controller 30 causes the liquid crystal display 41 of the operation panel 40 to display various types of information such as operation statuses and messages to the user. The liquid crystal display 41 may be a touch panel that allows input operations. In that case, the MFP 100 displays various buttons on the liquid crystal display 41 and receives various instructions based on the pressed position. When the liquid crystal display 41 is a touch panel, the liquid crystal display 41 is an example of an operation unit.

  The button group 42 includes a power button, an execution button, a stop button, a numeric keypad, and the like. When the controller 30 receives an operation on the button group 42, the controller 30 receives various instruction inputs by receiving a signal transmitted by the button.

  Note that external devices 1, 2, 3, etc. are connected to the network. Examples of the external devices 1, 2, and 3 include a server, a personal computer (PC), a mobile phone, a printer, and a multifunction device.

  Next, the multi-destination transmission function of MFP 100 will be described. The multi-address transmission function refers to a function for transmitting image data of a read original image to a plurality of external devices.

  When executing a job using the multi-address transmission function, a transmission destination is registered in the MFP 100 in advance. For example, the transmission destination is selected from a telephone directory registered in MFP 100. The transmission destination is directly input by the user. Note that the transmission destination may be set in the MFP 100 from a PC or the like.

  For example, as illustrated in FIG. 2, the MFP 100 causes the liquid crystal display 41 to display a destination designation screen 52 for designating a destination external device. On the destination designation screen 52, a tag 53 for selecting a destination from the telephone book and a tag 54 for inputting the destination are displayed.

  When the user selects the tag 53, the registered name registered in the telephone book (not shown) is displayed on the liquid crystal display 41. Therefore, the user operates the button group 42 to select a registered name and designate a destination. “Selected” is displayed for the destination selected by the user. Therefore, the user can confirm where the destination is designated.

  Here, when creating a telephone book (not shown), the MFP 100 generates a telephone book record by associating a registered name, a transmission method, and a transmission destination address, and stores the telephone book record in the telephone book database. The telephone directory database is stored in the NVRAM 34.

  In the transmission method, a protocol used when the MFP 100 transmits image data to an external device is registered. As the protocol, for example, FTP (File Transfer Protocol), SMB (Server Message Block), CIFS (Common Internet File System), NFS (Network File System), HTTP (Hypertext Transfer Protocol), or the like can be used. As a protocol, for example, SMTP (Simple Mail Transfer Protocol) can be used. Differences in transmission methods include not only due to protocol differences, but also to the same protocol and different destinations, and to the same external device where image data is stored at different locations (storage media and storage areas).

  Information for identifying an external device is registered in the transmission destination address. For example, when the transmission method is a protocol related to data transfer such as FTP, a profile in which connection information of a connection destination is stored is registered in the transmission destination address. Also, for example, when the transmission method is a network such as CIFS, a shared folder address that identifies a shared folder is registered in the transmission destination address. Further, for example, when the transmission method is an electronic mail such as SMTP, a mail address assigned to an external device as a transmission destination is registered in the transmission destination address.

  Therefore, when a registered name is selected on the destination designation screen 52 shown in FIG. 2, the MFP 100 can easily acquire a transmission method, a transmission address, and the like based on a telephone book record that stores the registered name.

  On the other hand, for example, when designating an address not registered in a telephone book (not shown), the user selects the tag 54. Then, a destination input screen (not shown) for manually inputting a transmission method and a destination address is displayed on the liquid crystal display 41. The user designates a destination by operating the button group 42 and inputting a transmission method and a destination address. Therefore, MFP 100 can accept a destination that is not registered in the telephone directory.

  Receiving the destination, MFP 100 creates a destination list. The MFP 100 creates transmission destination records in the order designated as the destination and registers them in the transmission destination list. The transmission destination record includes “transmission order”, “transmission method”, “transmission destination address”, and “status”. In “transmission order”, order information indicating the order designated as the destination is registered. Information is registered in the “transmission method” and “destination address” in the same manner as in the telephone book record. In “Status”, information indicating the progress of transmission work is registered. “Status” includes “not yet” indicating that the transmission of image data is awaited, “transmitting” indicating that transmission of image data has started, and transmission of image data has been completed. “Done”, which is information indicating that, and “Stopping”, which is information indicating that transmission of image data is to be stopped, are stored in a rewritable manner. “Not yet”, “Sending”, “Done”, and “Stopped” are examples of status information. When creating the transmission destination list, “not yet” is stored in each “status”.

  For example, when branch A is designated as the first destination and branch C is designated as the second destination on the destination designation screen 52 in FIG. 2, as shown in FIG. In the transmission destination record, “FTP”, which is a protocol used in the FTP server A installed in the branch A, is registered in “transmission method”, and “ProfilesA” of the FTP server A is registered in “transmission destination address”. "Not yet" is registered in "Status". In the transmission destination record of the transmission order “2”, “CIFS”, which is a protocol used in the CIFS server A installed in the branch C, is registered in the “transmission method”, and the “shared folder” of the CIFS server A is registered. “Address A” is registered in “Destination address”, and “Not yet” is registered in “Status”.

  The MFP 100 that has generated the transmission destination list controls the image reading unit 20 to read the image of the document and generate image data. Then, the MFP 100 controls the RAM 33 to store the generated image data. Then, the MFP 100 is connected to the external device according to the transmission order of the transmission destination list, and transmits the image data stored in the RAM 33. That is, MFP 100 completes transmission of image data to the external device previously designated as the destination, and then starts transmission of image data to the external device designated as the destination.

  When the image data is transmitted, the MFP 100 displays a transmission screen 55 shown in FIG. 4 on the liquid crystal display 41, for example. For example, a transmission target is displayed on the transmission screen 55, and the user is notified of how far image data transmission has been completed among a plurality of external devices. In addition, when the transmission is stopped, the user is notified that the stop button is pressed.

  The MFP 100 changes the “status” of each transmission destination record of the corresponding external device to “completed” every time the transmission of the image data is completed. That is, for example, when the transmission of the image data is completed up to the transmission order “2”, the “status” of the transmission destination record corresponding to the transmission order “1” “2” is “completed” as shown in FIG. Is registered. For example, the MFP 100 starts transmitting image data to an external device corresponding to the transmission order “3”, but the “status” of the transmission destination record corresponding to the external device that has not yet completed transmission includes 3. Register “Sending” in “Status” of the destination record. Then, the MFP 100 maintains “not yet” registered in “status” for the transmission destination records after the transmission order “4” that has not started transmission of image data. As described above, the MFP 100 sequentially transmits image data to the designated external device while changing the information registered in the “status” of each transmission destination record in accordance with the progress of transmission.

  Here, for example, when the image data is transmitted to the external device corresponding to the transmission order “3”, when the user presses a stop button included in the button group 42, the MFP 100 stops all the transmission of the image data. . In this case, as shown in FIG. 5, the MFP 100 sets “status” to “status” as shown in FIG. 6 for the third to sixth destination records for which “Done” is not set in “Status”. Change to “Stopped”.

  After that, the MFP 100 displays a transmission method list display screen 56 on the liquid crystal display 41 as shown in FIG. 7, for example, and selects a transmission method. On the transmission method list display screen 56, two or more transmission methods are displayed in a selectable manner.

  For example, when “CIFS” is selected on the transmission method list display screen 56, the MFP 100 transmits the image data to an external device that transmits image data according to “FTP”, which is the transmission method not selected. Resume transmission. On the other hand, MFP 100 maintains the suspension of image data transmission to an external device to which image data is transmitted in accordance with the selected transmission method “CIFS”.

  At this time, for example, as shown in FIG. 8, the MFP 100 stores the transmission order of the transmission destination record storing “CIFS” selected as “transmission method” and “FTP” not selected as “transmission method”. Later than the sending order of the destination record. Then, the MFP 100 changes the “status” of the transmission destination record corresponding to the external device that has resumed the transmission of the image data among the transmission destination records that store “FTP”, and starts transmission of the image data. Change the “status” of the destination record corresponding to the external device waiting for “not yet”. On the other hand, the MFP 100 does not change the “status” of the transmission destination record that stores “CIFS”, but keeps it “stopped”.

  The MFP 100 that has resumed transmission displays a transmission destination list display screen 57 on the liquid crystal display 41 as shown in FIG. 9, for example. In the transmission destination list display screen 57, for example, “CIFS” selected from the transmission method list display screen 56 is stored in “transmission destination address” from the transmission destination record stored in “transmission method”. “Shared folder address B” and “Shared folder address C” are extracted and displayed. For example, when the user operates the button group 42 and selects “shared folder address B”, the MFP 100 displays “shared folder address C” that was not selected on the transmission destination list display screen 57 as shown in FIG. For the transmission destination record stored in “transmission destination address”, the “status” is changed to “not yet” and the transmission stop of the image data is released.

  On the other hand, the MFP 100 does not change the “status” from “stopped” for the transmission destination record in which the “shared folder address B” selected on the transmission destination list display screen 57 is stored in the “transmission destination address”. Maintain transmission stop. Then, as illustrated in FIG. 10, the MFP 100 deletes the transmission destination record in which “shared folder address B” is stored in “transmission destination address” from the transmission destination list 51.

  As described above, when one transmission method is selected from the transmission method list display screen 56 after all the transmission of the image data is stopped, the MFP 100 transmits the image data to the external device corresponding to the transmission method not selected. Resume sending. Thereafter, the MFP 100 selects an external device to be canceled from the transmission destination list display screen 57. Therefore, the MFP 100 performs reception of selection of a cancellation target by the user and transmission of image data to an external device that is not a cancellation target in parallel.

  Next, the procedure of the multi-destination transmission process for realizing the above-described multi-destination transmission function will be described with reference to the flowchart of FIG. This multi-destination transmission process is executed by the CPU 31 when a multi-destination transmission instruction is input via the button group 42.

  In this multi-destination transmission process, the CPU 31 first accepts selection of an external device as a transmission destination (S1). The external device that is the transmission destination is designated via a destination designation screen displayed on the liquid crystal display 41, for example. In this case, the external device is designated by selection from the telephone book stored in the NVRAM 34 of the MFP 100 and manual input via the button group 42.

  Next, the CPU 31 accepts reading settings via the button group 42 (S2). In the reading setting, a condition for reading an image of a document and generating image data is set. The reading settings include, for example, resolution, color settings, file data format settings, and the like.

  Thereafter, when a start instruction is input via the button group 42 (S3: YES), the CPU 31 stores the external device specified in S1 in the RAM 33 as a transmission destination (S4). The process of S4 is an example of a storage process. That is, the CPU 31 generates the transmission destination list 51 based on the external device designated in S1 and stores it in the RAM 33.

  Then, the CPU 31 causes the image reading unit 20 to read the image of the document and generates image data (S5). The process of S5 is an example of an image data generation process. The image reading unit 20 may read an image of a document conveyed by an ADF (automatic document conveying device) (not shown), or may read a document set on a reading glass by a user.

  Thereafter, the CPU 31 stores the image data read in S5 in the RAM 33 (S6). For example, when the data format is set to PDF in S2, the CPU 31 reads one image data regardless of whether it reads an image of a single document or an image of a plurality of documents. , Stored in the RAM 33. On the other hand, for example, when the data format is set to JPEG in S2, the same number of image data as the number of pages of the document is stored in the RAM 33.

  When the CPU 31 completes the storage of the image data, it executes a transmission process (S7). Then, the CPU 31 that has completed the transmission process deletes the image data stored in the RAM 33 (S8), and ends the multiple destination transmission process.

  Next, the procedure for controlling the transmission process shown in S7 will be described with reference to the flowchart shown in FIG.

  The CPU 31 sets “0” in the transmission order N in order to transmit the image data to a plurality of external devices registered as transmission destinations in accordance with the transmission order (S31). Then, the CPU 31 adds “1” to the transmission order N (S32). Thereby, the count of the transmission order N is started.

  Then, the CPU 31 acquires the Nth transmission destination record from the transmission destination list 51 (S33). Then, the CPU 31 determines whether or not the “status” of the read Nth transmission destination record is “not yet” (S34). This is for determining whether it is necessary to start transmission of image data.

  When the “status” of the Nth destination record is not “not yet” (S34: NO), the CPU 31 returns to the process of S32 and adds 1 to the transmission order N. As a result, processing is performed for the next external device.

  On the other hand, if the “status” of the Nth destination record is “not yet” (S34: YES), the CPU 31 changes the “status” from “not yet” to “sending” (S35). . Then, the CPU 31 starts transmitting the image data stored in the RAM 33 in S8 of FIG. 11 according to the “transmission method” and “transmission destination address” stored in the Nth transmission destination record acquired in S33 (S36). ). For example, when the transmission order is set to “1” in S32 of FIG. 12, based on the destination record corresponding to the transmission order “1” of FIG. To start transmitting image data.

  Returning to FIG. 12, the CPU 31 determines whether or not the transmission of the image data is stopped (S37). When determining that the transmission is not stopped (S37: NO), the CPU 31 determines whether the transmission of the image data is completed (S38). If the transmission of the image data is not completed (S38: NO), the process returns to S37.

  When the transmission of the image data to the external device of the Nth transmission destination is completed (S38: YES) without stopping the transmission of the image data (S37: NO), the “status” of the Nth transmission destination record. Is changed from “during transmission” to “done” (S39). Thus, the completion of the transmission of the image data to the Nth destination external device is registered in the destination list 51.

  Then, the CPU 31 determines whether or not all transmission destination records have been acquired (S40). This is because the image data is transmitted to each of a plurality of designated external devices. If all the transmission destination records have not been acquired (S40: NO), the CPU 31 returns to S32 and adds “1” to the transmission order N. As a result, the transmission target for transmitting the image data is changed to the external device having the next transmission order.

  In this manner, the CPU 31 transmits image data to a plurality of external devices according to the transmission order N by repeating the processes of S32 to S40. At this time, since the “status” of the transmission destination record corresponding to each external device is automatically changed from “not yet” to “sending” and “done”, there is no need to input the work status. Further, the CPU 31 can identify the external device that should start transmitting image data and the external device that has completed transmitting image data from the information registered in “Status”.

  On the other hand, if the transmission of the image data is stopped during the transmission of the image data to a certain external device (S37: YES), the CPU 31 determines whether or not the transmission has been resumed (S37: YES). S41). Until the transmission is resumed, the CPU 31 stops the transmission of all image data (S41: NO). Note that the processing for determining whether or not to resume is performed by the transmission stop processing shown in FIG. The transmission cancellation process will be described later.

  Returning to FIG. 12, when the transmission of the image data is resumed (S41: YES), the CPU 31 reacquires the Nth transmission destination record (S42). In the transmission cancellation process described later, the transmission order of the transmission destination record of the external device according to the transmission method selected on the transmission method list display screen 56 is set to be higher than the transmission order of the transmission destination record of the external device according to the transmission method not selected. This is because the transmission order is changed before and after transmission is restarted.

  Thereafter, the CPU 31 returns to S36 and starts transmitting image data to the external device corresponding to the transmission order when transmission is stopped. When the transmission destination record of the last transmission order is acquired after the transmission is resumed (S40: YES), the CPU 31 proceeds to S8 in FIG. 11 and deletes the image data from the RAM 33.

  Next, a procedure for controlling the transmission cancellation process will be described with reference to FIG. The transmission stop process is executed by the CPU 31 when a stop button included in the button group 42 is pressed and an input of a stop command for stopping the transmission of image data is received.

  The CPU 31 determines whether or not transmission of image data currently being executed can be stopped (S51). As a transmission method, there are a transmission method in which transmission of image data can be stopped halfway, and a transmission method in which transmission of image data cannot be stopped halfway. For example, CIFS, FTP, SMB, NFS, HTTP, and the like are available as transmission methods that allow image data to be transmitted halfway. An example of a transmission method that cannot stop transmission of image data is electronic mail (SMTP). Whether the CPU 31 can read the Nth transmission destination record corresponding to the external device that is transmitting the image data from the transmission destination list 51, and can stop the transmission of the image data on the basis of the information set in the “transmission method”. Judge whether or not.

  For example, if the transmission method of the external device that is transmitting the image data is a transmission method that cannot stop the transmission of image data such as an e-mail, the transmission of the image data that is currently being executed cannot be stopped. (S51: NO) and wait until the transmission of the image data is completed (S52: NO). When the transmission of the currently executed image data is completed (S52: YES), the CPU 31 rewrites the “status” of the transmission destination record of the corresponding external device from “transmitting” to “done” (S53). Thereafter, after adding “1” to the transmission order N (S54), the CPU 31 proceeds to S55 and stops transmission.

  In other words, if the external device that has transmitted the image data when the stop button is pressed is an external device that cannot stop the transmission of the image data halfway, the image data is not sent to the external device. Will be sent. Then, the transmission of the image data is stopped for the external device whose transmission order is after the external device and whose image data transmission has not started.

  On the other hand, for example, if the transmission method of the external device that is transmitting image data is a transmission method that can stop the transmission of image data such as CIFS or FTP, the image currently being executed is displayed. It is determined that the data transmission can be stopped (S51: YES), the process proceeds to S55 without executing the processes of S52, S53, and S54, and the transmission is stopped.

  In other words, if the external device to which image data has been transmitted when the stop button is pressed is an external device that can stop the transmission of image data halfway, The transmission of image data is stopped for all external devices for which transmission has not been completed.

  The CPU 31 that has stopped the transmission of the image data changes “status” to “stopped” for the transmission destination record in which information other than “done” is stored in “status” (S56). That is, the CPU 31 rewrites “status” to “stopped” for the transmission destination record whose “status” is “sending” or “not yet”. Note that the processing of S55 and S56 is an example of stop processing.

  Thereafter, the CPU 31 controls the liquid crystal display 41 to display a list of transmission methods (S57). The process of S57 is an example of a first display process. That is, for example, the CPU 31 extracts information on “transmission method” stored in the transmission destination record whose “status” is “stopped”, and displays the information on the transmission method list display screen 56 so as to be selectable.

  When displaying the transmission method list, the CPU 31 determines whether or not the button group 42 has been input to accept selection of the transmission method (S58). The CPU 31 stands by until one transmission method is selected from the transmission method list (S58: NO).

  When the CPU 31 accepts one transmission method selected from the transmission methods displayed in the transmission method list by the input operation of the button group 42 (S58: YES), the CPU 31 changes the transmission order (S59). That is, the CPU 31 changes the transmission order of the transmission destination record storing the selected transmission method later than the transmission order of the transmission destination record storing the transmission method other than the selected transmission method.

  For example, when the user is transmitting image data to an external device corresponding to the transmission order “3”, after pressing the stop button, the transmission method “displayed on the transmission method list display screen 56 shown in FIG. It is assumed that “CIFS” is selected by operating the button group 42 from “CIFS” and “FTP”. In this case, as shown in FIG. 8, the CPU 31 transmits the transmission order of the transmission destination record in which “CIFS” is stored in the “transmission method” and the transmission of the transmission destination record in which “FTP” is stored in the “transmission method”. Change after order.

  Thereby, for example, in the transmission destination list 51, a transmission destination record in which “CIFS” is stored in “transmission method” and “shared folder address B” is stored in “transmission destination address” is as shown in FIG. In addition, the transmission order is “3” before the selection is accepted at S58, but as shown in FIG. 8, the transmission order is “5” after the selection is accepted at S58. On the other hand, for example, in the transmission destination list 51, “FTP” is stored in “Transmission method”, “ProfileB” is stored in “Transmission destination address”, and “FTP” is stored in “Transmission method”. As shown in FIG. 6, the transmission destination records in which “ProfilesC” is stored in the “transmission destination address” had the transmission ranks “4” and “5” before accepting the selection in S58, respectively. However, as shown in FIG. 8, after the selection is accepted in S58, the transmission order becomes “3” and “4”, respectively.

  As a result, the external device corresponding to the transmission method “FTP” that has not been selected is restarted in preference to the external device corresponding to the selected transmission method “CIFS”. That is, the MFP 100 transmits image data to an external device that is not likely to be canceled before the external device that is likely to be canceled. Therefore, after selecting one transmission method, the MFP 100 can avoid wasteful selection of a cancellation target in a state where transmission of image data to an external device that is clearly not targeted for cancellation is stopped.

  The CPU 31 having changed the transmission order controls the network IF 37 to resume the transmission of the image data to the external device to which the image data is transmitted according to the transmission method other than the selected transmission method (S60). Then, the CPU 31 changes the “status” for the transmission destination record storing the transmission method other than the selected transmission method (S61). S60 and S61 are an example of the first restart process.

  That is, the CPU 31 stops transmission when transmitting image data to an external device corresponding to the transmission order “3”, and “CIFS” is selected on the transmission method list display screen 56. For example, as shown in FIG. 8, for the third destination record corresponding to the external device to which image data is transmitted according to the unselected “FTP” and transmission is resumed, “status” Is changed from “stopped” to “sending”. In addition, regarding the fourth transmission destination record corresponding to the external device that transmits image data according to the transmission method “FTP” that has not been selected and is waiting to start transmission, the “status” is set to “stopped”. To "not".

  The CPU 31 that has resumed transmission in this way determines that transmission has been resumed in the transmission process shown in FIG. 12 (S41), and acquires the Nth destination record (S42). Thereafter, the CPU 31 controls the network IF 37 to start transmitting image data (S36). In other words, the external device corresponding to the third transmission destination record and the fourth transmission destination record storing “FTP” not selected in S58 is released from the transmission stop of the image data. Then, the transmission of the image data is resumed from the external device corresponding to the third transmission destination record having a low transmission order. The fourth transmission destination record is awaited for the start of image data transmission.

  On the other hand, the CPU 31 does not change the “status” for the transmission destination record in which the selected transmission method “CIFS” is stored in the “transmission method”, and keeps it “stopped”. Thereby, the transmission stop of the image data is maintained in the external device to which the image data is transmitted according to the selected transmission method.

  As shown in FIG. 13, the CPU 31 that has resumed transmission controls the liquid crystal display 41 to display a destination list (S62). The process of S62 is an example of a second display process. The CPU 31 extracts a transmission destination record storing the transmission method selected in S58 from the transmission destination records whose “status” is “stopped”, and information on “transmission destination address” from the extracted transmission destination record. Are displayed on the destination list display screen 57 as a list. As a result, external devices that are candidates for cancellation are displayed on the transmission destination list display screen 57. This destination list is displayed so that the destination address can be selected from the displayed destination addresses by operating the button group 42. Since the destination list excludes external devices corresponding to the transmission method not selected in S58, the number of external devices to be displayed is suppressed, and it is easy to select an external device to be canceled.

  When the transmission destination list display screen 57 is displayed on the liquid crystal display 41, the CPU 31 determines whether or not selection of a transmission destination has been accepted (S63). The CPU 31 stands by until accepting selection of a transmission destination (S63: NO).

  When the CPU 31 accepts a destination selected from the destination list by an input operation of the button group 42 (S63: YES), the CPU 31 resumes transmission to the external device corresponding to the destination not selected. (S64). Then, the CPU 31 changes the “status” of the transmission destination record that stores the transmission destination that was not selected (S65). The processes of S64 and S65 are an example of a second restart process.

  In other words, for example, the CPU 31 selects “shared folder address B” as the cancellation target from the transmission destinations “shared folder address B” and “shared folder address C” displayed on the transmission destination list display screen 57 shown in FIG. Suppose that In this case, as shown in FIG. 10, the CPU 31 sets “status” to “stopped” when waiting for the transmission start of image data for the transmission destination record storing the “shared folder address C” not selected. To "not". On the other hand, the CPU 31 rewrites “status” to “transmitting” when starting transmission of image data for a transmission destination record storing the “shared folder address C” not selected.

  The CPU 31 that has resumed transmission transmits image data to the external device whose “status” of the transmission destination record has been changed from “stopped” to “not yet” in the transmission process shown in FIG. become able to.

  On the other hand, the CPU 31 does not change the “status” for the transmission destination record in which the transmission destination “shared folder address B” selected in S63 is stored, but keeps it “stopped”. As a result, the MFP 100 maintains the suspension of image data transmission to the “shared folder address B” to be canceled.

  Thereafter, the CPU 31 deletes the transmission destination record corresponding to the transmission destination selected in S63 from the transmission destination list 51 (S66), and ends the transmission cancellation process. The possibility of resuming the transmission of image data to the external device selected as the cancellation target is low. Therefore, by automatically deleting the transmission destination record corresponding to the external device to be canceled, it is possible to save the user from inputting a deletion instruction.

  As described above in detail, the MFP 100 according to the present embodiment receives a stop by pressing a stop button included in the button group 42 during transmission of image data to a plurality of external devices. Stops all image data transmission to. In addition, the MFP 100 displays a transmission method list display screen 56 to select one transmission method to be canceled. After that, the MFP 100 displays the transmission destination list display screen 57 and selects an external device to be canceled from the external devices to which image data is transmitted according to the selected one transmission method. When one transmission method to be canceled is selected, MFP 100 cancels suspension of transmission of image data to an external device to which image data is transmitted according to a transmission method that is not the target of cancellation among a plurality of external devices. . Thus, even while the external device to be canceled is selected, the MFP 100 resumes the transmission of the image data to some external devices, and transmits the image data and selects the external device to be canceled. Parallel to reception. Therefore, the MFP 100 according to the present embodiment can complete the transmission of the image data earlier than the method of canceling the suspension of the transmission of the image data of all the external devices after the external device to be canceled is selected.

  Note that this embodiment is merely an example, and does not limit the present invention. Therefore, the present invention can naturally be improved and modified in various ways without departing from the gist thereof. For example, the present invention may be applied to a scanner device, a FAX device, a copy device, or the like.

  For example, the process of S59 in FIG. 13 may be omitted, and the transmission order of the transmission destination records corresponding to the transmission method selected in the transmission method list may not be changed. Note that when the transmission order is changed, it is possible to avoid stopping the transmission of image data unnecessarily and selecting a target to be canceled.

  For example, in the process of S57 of FIG. 13, the transmission methods related to all the transmission destination records in the transmission destination list 51 may be displayed in the transmission method list as selection targets.

  For example, the processing of S66 is performed before the processing of S64, the transmission destination record corresponding to the external device selected as the cancellation target is deleted, and then transmission is resumed to an external device other than the external device selected as the cancellation target You may make it do.

  For example, the process shown in S66 of FIG. 13 may be omitted, and the transmission destination record corresponding to the external device selected as the cancellation target may not be deleted from the transmission destination list 51. In this case, in S65, the state in which “stopped” is stored in the “status” of the transmission destination record corresponding to the external device selected as the cancellation target is maintained. Therefore, even when the transmission order of the transmission destination selected as the cancellation target is reached, the MFP 100 may transmit the image data to the external device having the next transmission order without transmitting the image data to the external device to be canceled. it can. By deleting the transmission destination record, it is possible to shorten the time for transmitting the image data to the external device other than the cancel target. In addition, since it is not necessary to perform control such as acquiring a transmission destination record corresponding to the cancellation target and checking the status, the control procedure can be simplified. Furthermore, a storage capacity can be secured.

  Further, MFP 100 may read the original and then attach it upon receiving a destination designation. Further, MFP 100 may simultaneously read a document and accept designation of a destination.

  The processing disclosed in the embodiments may be executed by a single CPU, a plurality of CPUs, hardware such as an ASIC, or a combination thereof. Further, the processing disclosed in the embodiment can be realized in various modes such as a recording medium or a method recording a program for executing the processing.

1, 2, 3 External device 20 Image reading unit 31 CPU
33 RAM
37 Network IF
41 Liquid crystal display 42 Button group 100 MFP

Claims (10)

A reading unit for reading an image from a document;
A communication unit for communicating with a plurality of external devices;
An operation unit;
A display,
A storage unit;
A control unit;
With
The controller is
When the plurality of external devices are designated as transmission destinations of image data for the image read by the reading unit,
A storage process for storing a transmission destination address and a transmission method of the image data corresponding to each of the plurality of external devices in the storage unit;
An image data generation process for controlling the reading unit to read an image from a document and generating the image data for the image;
A transmission process for controlling the communication unit to sequentially transmit the image data according to the transmission destination address and the image data transmission method corresponding to each of the plurality of external devices stored in the storage unit in the storage process; ,
And
In the transmission process, when cancellation of the transmission process is received by the operation unit,
A stop process for controlling the communication unit to stop the transmission process;
A first display process for controlling the display unit to display a list of transmission methods that are displays relating to at least two different transmission methods;
And
After receiving the first selection operation for selecting one transmission method among the at least two different transmission methods displayed on the transmission method list by the operation unit after executing the first display process,
Controlling the communication unit to restart the transmission of the image data to the external device related to the transmission method other than the first transmission method among the transmission processes stopped by the stop process; Performing a first restart process for maintaining the stop of transmission of the image data to the external device according to the first transmission method among the transmission processes that are stopped;
After executing the first restart process,
A transmission destination that is a display related to an external device to which the image data is transmitted in accordance with the first transmission method among external devices that are stopped even after the display unit is controlled and the first restart process is executed. Execute the second display process to display the list,
After executing the second display process, one of the external devices displayed in the transmission destination list by the operation unit is selected from the external devices to which the image data is transmitted according to the first transmission method. When the second selection operation is accepted,
The communication unit is controlled to restart the transmission of the image data to an external device other than the first external device among the transmission processes stopped by the stop process, and stopped by the stop process. Executing a second resumption process for maintaining the suspension of the transmission of the image data to the first external device in the transmission process;
An image reading apparatus. The image reading apparatus according to claim 1,
The storage unit stores a transmission destination record in which a transmission destination address and a transmission method are associated with each of the plurality of external devices,
The controller is
When the second selection operation is received by the operation unit after executing the second display process,
Deleting the destination record corresponding to the first external device from the destination record stored in the storage unit;
An image reading apparatus. The image reading apparatus according to claim 2,
The transmission destination record stored in the storage unit includes rank information indicating a transmission rank of the image data,
The controller is
In the transmission process, according to the order information of the transmission destination record stored in the storage unit, the image data is sequentially transmitted to the communication unit to each of the plurality of external devices,
When the first selection operation is received by the operation unit after executing the first display process,
Among the transmission destination records stored in the storage unit, the transmission order of the image data stored in the transmission destination record in which the transmission method 1 is stored as a transmission method is set to a transmission other than the transmission method of the first transmission method. The method is changed to be later than the transmission order of the image data stored in the transmission destination record stored as the transmission method;
An image reading apparatus. In the image reading apparatus according to claim 2 or 3,
The transmission destination record stored in the storage unit includes status information indicating the transmission status of the image data,
The controller is
In the storage process, information indicating unsent is stored in the status information of the destination record corresponding to each of the plurality of external devices,
In the transmission process, the status information of the transmission destination record corresponding to the external device for which transmission of the image data has been completed is rewritten to information indicating that transmission has been completed.
An image reading apparatus. The image reading apparatus according to claim 4,
The controller is
In the first display process, a transmission method related to a transmission destination record in which information other than information indicating transmission is stored in status information among transmission destination records stored in the storage unit is selected as the selection target. Display on the display,
An image reading apparatus. In the image reading device according to claim 4 or 5,
The controller is
In the transmission process, the status information of the transmission destination record corresponding to the external device that has started transmission of the image data is rewritten with information indicating that transmission is in progress.
In the stop process, the status information of the transmission destination record corresponding to the external device that has stopped transmission of the image data and the external device that has not started transmission of the image data is rewritten to information indicating that it is stopped,
In the first restart process,
Of the external devices related to the transmission method other than the transmission method of 1,
Rewrite the status information of the destination record corresponding to the external device that has started transmission of the image data to information indicating that transmission is in progress,
Rewrite the status information of the destination record corresponding to the external device waiting to start the transmission of the image data to information indicating unsent,
In the second restart process,
Of the external devices related to the transmission method of the one transmission method,
Of the external devices other than the one external device, the status information of the transmission destination record corresponding to the external device that has started transmitting the image data is rewritten to information indicating that transmission is in progress.
Rewriting the status information of the destination record corresponding to the external device waiting to start transmission of the image data to information indicating unsent,
An image reading apparatus. The image reading apparatus according to claim 1,
The controller is
When the first selection operation is received by the operation unit after executing the first display process,
Of the plurality of external devices, the image data is transmitted to an external device to which image data is transmitted according to the first transmission method, and the image data is transmitted according to the transmission method other than the first transmission method. After the transmission of the image data of
An image reading apparatus. In the image reading apparatus according to claim 1 or 7,
The controller is
In the first display processing, the image data transmission method related to an external device that has not completed transmission of the image data among the plurality of external devices is displayed on the display unit as a selection target.
An image reading apparatus. In the image reading device according to any one of claims 1 to 8,
The controller is
In the stop processing, for the external device that has started transmission of the image data,
In the case of a transmission method capable of stopping the transmission of the image data in the middle, the execution of the transmission process is stopped without waiting for the completion of the transmission of the image data to the external device where the transmission of the image data is started,
In the case of a transmission method in which transmission of the image data cannot be stopped halfway, after completing the transmission of the image data to the external device in which transmission of the image data is started, the execution of the transmission process is stopped.
An image reading apparatus. A reading unit for reading an image from a document;
A communication unit for communicating with a plurality of external devices;
An operation unit;
A display,
A storage unit;
An image transmission method of an image reading apparatus comprising:
When the plurality of external devices are designated as transmission destinations of image data for the image read by the reading unit,
Storing the transmission destination address and the transmission method of the image data corresponding to each of the plurality of external devices in the storage unit;
Controlling the reading unit to read an image from a document, generating the image data for the image,
Controlling the communication unit to sequentially transmit the image data according to the transmission destination address and the image data transmission method corresponding to each of the plurality of external devices stored in the storage unit,
When the operation unit accepts the stop of the transmission of the image data after starting the transmission of the image data and before the transmission of the image data to all of the plurality of external devices is completed,
Controlling the communication unit to stop the transmission of the image data;
Controlling the display unit to display a transmission method list which is a display related to at least two different transmission methods;
When a first selection operation for selecting one of the at least two different transmission methods displayed in the transmission method list by the operation unit is received after the transmission method list is displayed,
Controlling the communication unit to restart the transmission of the image data to the external device related to the transmission method other than the first transmission method among the external devices for which the transmission of the image data is stopped; Maintaining the suspension of the transmission of the image data to the external device according to the first transmission method among the external devices whose transmission is stopped
After resuming transmission of the image data to an external device related to the transmission method other than the transmission method of the one,
The display unit is controlled to display a destination list which is a display related to the external device to which the image data is transmitted according to the first transmission method among the external devices in which the stop of the transmission of the image data is maintained. ,
After displaying the destination list, select one of the plurality of external devices displayed in the destination list by the operation unit from among the external devices to which the image data is transmitted according to the first transmission method. When a second selection operation is received,
The communication unit is controlled to resume the transmission of the image data to an external device other than the first external device among the external devices whose transmission of the image data is stopped, and the transmission of the image data is stopped. Maintaining the stop of transmission of the image data to the first external device among the external devices
An image transmission method characterized by the above.

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