JP2017212666A - Facsimile apparatus and facsimile system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve convenience for a user in terms of facsimile transfer.SOLUTION: There is provided a facsimile apparatus connected to a server via a network, the facsimile apparatus comprising: a communication part that transmits, to the server, via the network a registration request to register the facsimile apparatus as a device that can transmit facsimile, and receives, from the server that has received a facsimile transmission request designating the registered facsimile device, the facsimile transmission request designating the registered facsimile apparatus via the network; and a facsimile communication part that performs facsimile transmission according to the received facsimile transmission request, wherein when the facsimile communication part transmits by facsimile the data received by facsimile, the communication part transmits, to the server, the facsimile transmission request designating the facsimile apparatus via the network.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a fax apparatus and a fax system apparatus.

  A technique for causing a printer to execute printing using a server connected to a network is disclosed (Patent Document 1). The document suggests a technique in which the printer prints the data received by the server by the terminal device sending data to the server, and the printer receiving and printing the data sent from the server. . As an example of such a server, there is a server that provides a service on the Internet called Google (registered trademark) Cloud Print (hereinafter, GCP).

Japanese Patent Laid-Open No. 2016-21090

  Fax (or facsimile) is capable of executing processing (fax transfer) in which received data received by fax is faxed to a specific destination. The user has a desire to confirm information regarding such fax transmission through a network from a remote location. The document does not disclose a technique that meets such a demand.

  The present invention has been made in view of the above-described problems, and provides a fax apparatus and a fax system that improve the convenience of a fax user.

  One aspect of the present invention is a fax apparatus connected to a server via a network, wherein a registration request for registering itself as a device capable of fax transmission is transmitted to the server via the network and registered. A communication unit that receives the fax transmission request that specifies the fax device from the server that has received a fax transmission request that specifies a device of the device via the network, and fax communication that performs fax transmission according to the received fax transmission request The communication unit transmits a fax transmission request designating the received data to the server via the network when the received data received by the fax communication unit is transmitted by fax.

  According to this configuration, when a fax machine receives a fax, it sends a fax transmission request specifying itself to the server, thereby causing the server to send a fax transmission request to itself, and sending the fax transmission request to the server to itself. The received data is faxed according to the fax transmission request, that is, the received data is faxed. At this time, since the fax transmission request passes through the server, the fact that the fax transfer has occurred remains in the server as a record. Accordingly, it is possible to provide the user with an environment in which information related to fax transmission can be obtained by accessing the server.

In one aspect of the present invention, the fax apparatus further includes a holding unit that holds the received data when the received data is faxed, and the fax communication unit receives the fax transmission request received from the server. The held reception data may be faxed according to the above.
According to this configuration, since the received data itself is not transmitted to the server, the amount of communication between the fax machine and the server can be suppressed.

One aspect of the present invention is that, when the communication unit transmits the received data by fax, the communication unit stores the received data in a predetermined storage area accessible via the network, and specifies and stores the received data. The fax transmission request including the location information of the received data is transmitted to the server, and the received data acquired based on the location information included in the fax transmission request received from the server is faxed to the fax communication unit. It may be allowed.
According to this configuration, received data can be left in the storage area.

In one aspect of the present invention, the communication unit may transmit a transmission result obtained by fax transmission of the reception data to the server.
According to this configuration, the fax transfer result remains as a record on the server.

The technical idea of the present invention can be realized by means other than the category of fax machines. For example, a fax system in which a device having a fax transmission / reception function and a server that controls the device are connected via a network, the device registers itself as a device capable of fax transmission in the server, and When the server receives a fax transmission request specifying a registered device, the server transmits the fax transmission request to the specified device, and the device can execute the fax transmission according to the received fax transmission request. Furthermore, when the received data received by fax is faxed, the device can grasp a fax system that sends a fax transmission request designating itself to the server.
A server constituting the fax system is also established as an invention. Of course, each process executed by the server and the fax machine (device) is grasped as a method invention, each program for causing the server and the fax machine (device) to execute the process, and each program is stored. The computer-readable storage medium can also be grasped as an invention.

The figure which shows the outline of a system. The figure which shows the registration process which registers a device to a server. 10 is a flowchart showing remote fax transmission processing. The figure which shows an example of the device selection screen containing a device list. The figure which shows an example of a transmission setting screen. 10 is a flowchart showing a part of remote fax transmission processing when “download” is designated. 9 is a flowchart showing a part of remote fax transmission processing when “original scan” is designated. 9 is a flowchart showing a part of remote fax transmission processing when “hold data acquisition” is designated. 6 is a flowchart illustrating fax transfer processing. The figure which shows an example of a transmission result screen. The flowchart concerning the modification 2. The flowchart concerning the modification 3.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Each figure is only an example for explaining the present embodiment.

1. System configuration:
FIG. 1 shows an outline of a system 1 according to the present embodiment. The system 1 is an example of a fax system. The system 1 includes at least a device 10 and a server 20 that controls the device 10. Further, the system 1 may include a client terminal (terminal 30) of the server 20. The user of the device 10 operates the terminal 30 arbitrarily. The device 10, the server 20 and the terminal 30 are all connected to the network NW. The network NW may include the Internet and a local network (LAN) connected to the Internet. The network NW may be wired or wireless. Although FIG. 1 illustrates one device 10 and one terminal 30 connected to the network NW, a plurality of devices 10 and terminals 30 may exist.

  The device 10 is a fax apparatus having a fax transmission / reception function. Device 10 may simply be called a fax or a facsimile. The device 10 may be a so-called multifunction machine that functions as a printer, a copier, or the like in addition to a fax transmission / reception function. The device 10 includes a communication interface (I / F) 11, a control unit 12, a fax (FAX) communication unit 13, a storage unit 14, and the like. The communication I / F 11 and the control unit 12 may be collectively referred to as a communication unit.

  The control unit 12 is configured by, for example, an IC having a CPU, a memory, and the like, other electronic circuits, and the like. In the control unit 12, the CPU executes arithmetic processing according to a program (for example, firmware FW), thereby realizing each processing described below via communication with the server 20. The FAX communication unit 13 is a unit that realizes a fax transmission / reception function, that is, transmission of an image (an image that can include characters, photographs, CG, and other objects) through a predetermined communication line such as a telephone line. Since the fax transmission / reception function by the FAX communication unit 13 is known, detailed description thereof is omitted. Of course, the device 10 can have all the functions of a general fax machine.

  The server 20 is a server that provides services to each user through the Internet. For example, the server 20 is realized as a part of a cloud environment (virtual server) that provides a cloud service. The server 20 may be called a cloud server. Alternatively, the server 20 may be a physical server. The above-described server that provides GCP corresponds to an example of the server 20. The server 20 includes a communication I / F 21, a control unit 22, a storage unit 23, and the like. The control unit 22 is configured by, for example, an IC having a CPU, a memory, and other electronic circuits. In the control unit 22, the CPU executes arithmetic processing according to a program (for example, the fax control program 22 a), thereby realizing each process described below via communication with the device 10 and the terminal 30.

  The terminal 30 is realized by, for example, a personal computer (PC), a smartphone, a tablet terminal, a mobile phone, or a terminal having the same performance. The terminal 30 includes a communication I / F 31, a control unit 32, an operation input unit 33, a display unit 34, a storage unit 35, and the like. The control unit 32 is configured by, for example, an IC having a CPU, a memory, and the like, other electronic circuits, and the like. In the control unit 32, the CPU executes arithmetic processing according to a program (for example, the application 32a), thereby realizing each processing described below via communication with the server 20.

  The operation input unit 33 includes, for example, a mouse, a keyboard, various buttons, keys, and the like for receiving an operation by the user. The display unit 34 is a part for showing various types of information to the user, and is configured by, for example, a liquid crystal display (LCD). At least a part of the operation input unit 33 may be realized by a touch panel displayed on the display unit 34.

  The communication I / Fs 11, 21, and 31 are interfaces for communicating with the outside through the network NW that the device 10, the server 20, and the terminal 30 have. Each of the communication I / Fs 11, 21, and 31 implements communication according to a predetermined communication protocol (for example, TCP / IP, HTTP, etc.). The device 10 communicates with the server 20 through the communication I / F 11. The terminal 30 communicates with the server 20 through the communication I / F 31. The server 20 communicates with the device 10 and the terminal 30 through the communication I / F 21. Each of the storage units 14, 23, and 35 is configured by a storage device such as a hard disk drive or a flash memory.

2. Device registration processing to the server:
FIG. 2 shows registration processing for registering the device 10 in the server 20 by processing executed by each of the server 20 and the device 10. The device 10 (control unit 12) requests the server 20 to register itself as a device capable of fax transmission (step S10). Such a request is called a registration request. The device 10 attaches its own transmission setting information that can handle fax transmission to the registration request and transmits it to the server 20.

  The transmission setting information includes, for example, resolution (image quality) information of image data that can be transmitted, information on whether or not a color image can be transmitted, destination list information (destination list) that can be faxed, and implementation possible. This includes image data acquisition methods and the like. There are four types of image data acquisition methods that can be performed, such as “attached data acquisition”, “download”, “original scan”, and “retained data acquisition”.

“Attached data acquisition” is a process of acquiring image data attached to a received fax transmission request from the fax transmission request.
“Download” is a process of acquiring image data from the outside via a network NW based on location information (URI: Uniform Resource Identifier) described in the received fax transmission request.
“Document scanning” is a process of acquiring a document reading result (image data) by executing a document reading process (not shown) provided on the device 10 and reading a document set on a document tray.
“Acquire retained data” is a process for obtaining image data by selecting image data from image data retained by the device 10. The image data held by the device 10 is image data stored in advance in the storage unit 14 included in the device 10. For example, a typical document or frequently used map data is assumed. .

  Upon receiving a registration request from the device 10 (step S20), the server 20 (control unit 22) registers the device 10 that is the transmission source of the registration request as a device capable of fax transmission, and is attached to the registration request. The transmission setting information is registered in association with the registered device 10 (step S21). Registering a certain device 10 as a device capable of fax transmission is, for example, stored in the list information (device list DL) of devices that are stored in the storage unit 23 and registered as control targets by the server 20 via the network NW. This refers to processing for adding the device 10 as a device capable of fax transmission. The device list DL is a combination of information for identifying each device (for example, specific information indicating whether the device is capable of fax transmission, product name, MAC address, IP address, etc.) Information). The registration of the transmission setting information associated with the device 10 refers to a process of associating the transmission setting information of the device 10 with the device 10 added to the device list DL and storing it in the storage unit 23.

When the image data acquisition method that can be performed by the device 10 includes “holding data acquisition”, the device 10 stores image data list information (holding image list) held in the device 10 as the transmission setting information. Including the registration request and transmitted to the server 20. Accordingly, the server 20 registers the transmission setting information including the retained image list of the device 10 in association with the device 10 registered as a device capable of fax transmission. The retained image list is, for example, a list in which information that can identify image data such as the file name and generation date / time of each image data retained by one device 10 is listed.
As described above, when there are a plurality of devices 10 connected to the network NW, such device registration processing is executed for each device 10 in a timely manner.

3. Remote fax transmission processing:
Next, remote fax transmission processing using the system 1 will be described. Assuming that the remote fax transmission process is executed, it is assumed that the above-described device registration process regarding one or more devices 10 has been executed.
FIG. 3 is a flowchart showing remote fax transmission processing. In FIG. 3, for convenience of explanation, processes executed by the terminal 30, the server 20, and the device 10 are shown in parallel. Details of the remote fax transmission process will be described with reference to FIGS.

  First, the terminal 30 (control unit 32) activates the application 32a (step S100). That is, when the user operates the terminal 30, the function of the application 32a is activated. The application 32a is dedicated software generated for remote fax transmission processing. In the following, the processing executed by the terminal 30 regarding the remote fax transmission processing is basically processing realized by the function of the application 32a. However, the process executed by the terminal 30 regarding the remote fax transmission process may be realized by the function of the web browser installed in the terminal 30 instead of the application 32a.

  Next, the terminal 30 displays the above-described device list DL of the server 20 on the display unit 34 (step S110). In this case, the terminal 30 requests the server 20 to transmit the device list DL. Upon receiving the request, the server 20 (control unit 22) transmits the latest device list DL currently stored in the storage unit 23 to the terminal 30 that is the transmission source of the request. As a result, the terminal 30 can acquire the device list DL and display it on the display unit 34.

  The device list DL may include devices that are controlled by the server 20 via the network NW and that do not correspond to devices capable of fax transmission. For example, a printer that does not have a fax transmission / reception function or a scanner that does not have a fax transmission / reception function may be included in the device list DL. In view of such a situation, in step S110, the terminal 30 extracts only devices that can be faxed from the device list DL received from the server 20, and causes the display unit 34 to display the extracted device list. It is good.

  Alternatively, in step S110, the terminal 30 may request the server 20 for a list of devices that can be faxed among the devices included in the device list DL. The server 20 that has received the request transmits a list in which only devices capable of fax transmission are extracted from the devices included in the latest device list DL to the terminal 30 that is the transmission source of the request. As a result, the terminal 30 can cause the display unit 34 to display a list of devices included in the device list DL and capable of fax transmission. In any case, in step S110, it can be said that the terminal 30 displays at least a part of the device list DL of the server 20 on the display unit 34.

  Next, the terminal 30 accepts designation of the device 10 from the device list DL displayed on the display unit 34 (step S120). In other words, by operating the operation input unit 33, the user designates the device 10 that is desired to execute fax transmission from the device list DL displayed on the display unit 34, and the terminal 30 performs such designation. Accept.

  FIG. 4 illustrates a device selection screen DS including the device list DL displayed on the display unit 34 in step S110. The device list DL illustrated in FIG. 4 includes product names of three devices “MFP1”, “MFP2”, and “MFP3”. These “MFP1”, “MFP2”, and “MFP3” are all devices capable of fax transmission. The user operates the operation input unit 33 to designate the device 10 (for example, “MFP1”) that the user wants to perform fax transmission from the device list DL.

  Next, the terminal 30 receives a transmission setting related to fax transmission by the device 10 specified in step S120 (step S130). As described above, in the server 20, transmission setting information is also registered in association with the device 10 registered in the device list DL. Accordingly, the terminal 30 acquires the transmission setting information associated with the device 10 designated in step S120 from the server 20, and accepts the transmission setting within the range of the transmission setting information.

  As an example, assume that “MFP1” is designated in step S120. According to the transmission setting information of the designated “MFP 1”, the resolution (image quality) of the transmittable image data is either “standard (normal)” or “high definition (clean)”, and the color image is “ Assume that there are four types of image data acquisition methods that can be transmitted and that can be performed: “attached data acquisition”, “download”, “original scan”, and “retained data acquisition”. In step S130, the terminal 30 causes the display unit 34 to display a user interface (UI) screen for accepting designation for each item of the transmission setting based on such transmission setting information. The user operates the operation input unit 33 to arbitrarily specify each item of the transmission setting via the UI screen, and the terminal 30 accepts such specification.

  FIG. 5 exemplifies a transmission setting screen SS indicating the transmission setting received for the device 10 (for example, “MFP1”) in step S130. A transmission setting screen SS is also displayed on the display unit 34. According to the example of the transmission setting screen SS, the setting reflecting the designation by the user is made for each item such as destination, resolution, color / monochrome, transmission data, and the like. The destination is one or more destination fax numbers (phone numbers) arbitrarily designated by the user from the destination list included in the transmission setting information of “MFP1”. In the transmission data column, a method for acquiring transmission data, that is, image data to be subjected to fax transmission, is specifically set. In the example of FIG. 5, reference destination information C: \ xxx \ test.pdf is set in the transmission data column, and this indicates a storage location in the storage unit 35 of the terminal 30. That is, such a setting is made when the user designates “attached data acquisition” as the image data obtaining method and designates the reference destination of the image data to be attached through the UI screen.

Of course, when the user designates “download”, “original scan”, or “retained data acquisition” as the image data acquisition method through the UI screen, the transmission data column of the transmission setting screen SS displays Settings different from the settings illustrated in FIG. 5 are made.
For example, when the user designates “download” as the image data acquisition method, the location information (URI) described above is set in the transmission data column of the transmission setting screen SS.
When the user designates “original scan” as the image data acquisition method, an instruction (original scan instruction information) indicating that an original should be scanned is set in the transmission data column of the transmission setting screen SS. The
When the user designates “hold data acquisition” as the image data acquisition method, the transmission setting of the device 10 (for example, “MFP1”) specified in step S120 is displayed in the transmission data column of the transmission setting screen SS. Information (holding image designation information) indicating image data arbitrarily designated by the user through the UI screen from the holding image list included in the information is set.

  After receiving the transmission setting specifying a certain device 10 as described above, the terminal 30 transmits a fax transmission request including the specification of the device 10 and the content of the transmission setting to the server 20 (step S140). Specifically, the user operates the transmission button SB in the transmission setting screen SS after confirming the setting of each item shown on the transmission setting screen SS. In response to the operation of the send button SB, the terminal 30 transmits a fax transmission request to the server 20. When the information on the reference destination of the image data is set as in the example of FIG. 5 in the transmission setting, the terminal 30 attaches the image data read from the reference destination to the fax transmission request and includes this image data. The fax transmission request is transmitted to the server 20.

  The server 20 (control unit 22) receives the fax transmission request transmitted from the terminal 30 (step S200). Then, the server 20 transmits the received fax transmission request to the device 10 (for example, “MFP1”) specified in the fax transmission request (step S210). The device 10 that is the transmission destination of the fax transmission request is naturally any device registered in the device list DL.

  The device 10 (control unit 12) receives the fax transmission request transmitted from the server 20 (step S300), and executes fax transmission according to the received fax transmission request (steps S310 and S320). In step S310, the device 10 acquires image data according to the transmission setting (image data acquisition method) in the fax transmission request. In step 320, the control unit 12 of the device 10 executes the fax transmission of the image data acquired in step S 310 to the FAX communication unit 13 in accordance with the transmission settings (settings such as destination and resolution) in the fax transmission request. Let

  After executing the fax transmission in step S320, the device 10 transmits the fax transmission result to the server 20 (step S330). The fax transmission result is information indicating at least whether the fax transmission was successful or unsuccessful. The server 20 receives the fax transmission result from the device 10 as a response to the transmission of the fax transmission request (step S210) (step S220). The fax transmission result may be a report including more detailed information as well as success / failure of the fax transmission. The report includes, for example, the destination of the fax transmission, the execution time of the fax transmission, the time required from the start to the completion of the fax transmission, the type of the fax transmission that has been executed, and the like. The type of fax transmission includes, for example, normal fax transmission performed by a user operating the fax apparatus, that is, the device 10 itself, remote fax transmission performed via the server 20 as in the present embodiment, and fax transmission described later. It is. The device 10 can generate such a report as a fax transmission result and transmit it to the server 20 (step S330).

  After transmitting the fax transmission request in step S140, the terminal 30 acquires a fax transmission result from the server 20 (step S150). Specifically, the terminal 30 requests the server 20 for a fax transmission result of the device 10 specified in the fax transmission request. When the server 20 is requested by the terminal 30 for the fax transmission result of the device 10, if the fax transmission result has been received from the device 10 (step S 220), the server 20 transmits the received fax transmission result to the terminal 30. . On the other hand, when the terminal 30 is requested for the fax transmission result of the device 10, the server 20 cannot transmit the fax transmission result to the terminal 30 unless the fax transmission result is received from the device 10.

When the fax transmission result cannot be transmitted to the terminal 30 when the terminal 30 requests the fax transmission result of the device 10, the server 20 notifies the terminal 30 that the fax transmission result has not been received. Alternatively, no notification is sent to the terminal 30 until the fax transmission result is received from the device 10, and if the fax transmission result is received from the device 10, the fax transmission result is transmitted to the terminal 30. When the terminal 30 receives notification from the server 20 that the fax transmission result has not been received, the terminal 30 repeatedly requests the server 20 for the fax transmission result. The terminal 30 can notify the user of the fax transmission result by causing the display unit 34 to display the fax transmission result acquired from the server 20.
Each time the server 20 receives a fax transmission result from the device 10, the server 20 accumulates the fax transmission result for each device 10, and in response to a fax transmission result request from the terminal 30, the fax transmission result for the designated device 10. A list may be provided.

Here, a detailed description will be given for each acquisition method of image data arbitrarily designated by the user in the transmission setting.
When “Attachment data acquisition” is specified:
When image data is attached to the fax transmission request received from the server 20 in step S300, the device 10 acquires the attached image data from the fax transmission request as transmission data to be faxed (step S310). . The fact that image data is attached to a fax transmission request is nothing other than “attached data acquisition” being specified in the transmission setting. Therefore, acquiring image data attached to a fax transmission request corresponds to an example of acquiring image data according to transmission settings.

When “Download” is specified:
FIG. 6 shows a part of the flowchart shown in FIG. 3 in detail. Steps S132 and S134 shown in FIG. 6 are partial processes that may be included in the process of step S130 (FIG. 3). In FIG. 6 (and FIGS. 7 and 8 described later), the description of steps S100 to S120 is omitted. 6 (and FIGS. 7 and 8), description common to FIG. 3 is omitted.

  As described above, when the user designates “download” as the image data acquisition method through the UI screen, the terminal 30 may, for example, make an arbitrary designation from among the image data stored in the storage unit 35 from the user. The received and designated image data is uploaded to a predetermined storage area accessible via the network NW (step S132). The predetermined storage area referred to here is, for example, a storage area that the server 20 connected to the network NW or a server 40 (see FIG. 1) different from the server 20 has. The terminal 30 that uploaded the image data in this way sets the address of the storage area to which the image data is uploaded, that is, the location information (URI), as a method for acquiring the image data in the transmission settings (step S134). As a result, a fax transmission request including a transmission setting having location information (URI) is transmitted from the terminal 30 to the device 10 via the server 20.

  When the location information (URI) is set in the transmission setting included in the fax transmission request received from the server 20 in step S300, the device 10 downloads the image data based on the location information (URI) (step S310). ). That is, the predetermined storage area indicated by the location information (URI) is accessed via the network NW, and the image data stored therein is acquired. The fact that the location information (URI) is set in the transmission setting included in the fax transmission request is nothing but “download” is specified in the transmission setting. Therefore, downloading image data based on location information (URI) corresponds to an example of acquiring image data according to transmission settings.

When “Original Scan” is specified:
FIG. 7 shows a part of the flowchart shown in FIG. 3 in detail. Step S136 shown in FIG. 7 is a part of processing that may be included in the processing of step S130 (FIG. 3). As described above, when the user designates “document scan” as the image data acquisition method through the UI screen, the terminal 30 sets the document scan instruction information as the image data acquisition method in the transmission setting (step S136). ). As a result, a fax transmission request including a transmission setting having document scan instruction information is transmitted from the terminal 30 to the device 10 via the server 20.

  If the document scan instruction information is set in the transmission setting included in the fax transmission request received from the server 20 in step S300, the device 10 reads the document by executing a document reading process according to the document scan instruction information. A result (image data) is acquired (step S310). The fact that the document scan instruction information is set in the transmission setting included in the fax transmission request is nothing other than “document scanning” being specified in the transmission setting. Therefore, reading a document according to document scan instruction information corresponds to an example of acquiring image data according to transmission settings.

When “Retain retained data” is specified:
FIG. 8 shows a part of the flowchart shown in FIG. 3 in detail. Step S138 shown in FIG. 8 is a part of processing that may be included in the processing of step S130 (FIG. 3). As described above, when the user designates “hold data acquisition” as the image data acquisition method through the UI screen, the terminal 30 sets the hold image designation information as the image data acquisition method in the transmission setting (step S30). S138). As a result, a fax transmission request including a transmission setting having retained image designation information is transmitted from the terminal 30 to the device 10 via the server 20.

  When the retained image designation information is set in the transmission setting included in the fax transmission request received from the server 20 in step S300, the device 10 determines whether the image data stored in the storage unit 14 is in accordance with the retained image designation information. The image data is acquired from (Step S310). The fact that the retained image designation information is set in the transmission setting included in the fax transmission request is nothing but that “hold data acquisition” is designated in the transmission setting. Therefore, acquiring the image data from the storage unit 14 according to the retained image designation information corresponds to an example of acquiring the image data according to the transmission setting.

  As described above, according to the present embodiment, the device 10 registers itself with the server 20 as a device capable of fax transmission (see FIG. 2). In addition, when the server 20 receives a fax transmission request specifying the registered device 10 from the terminal 30, the server 20 transmits the fax transmission request to the specified device 10 (steps S200 and S210). Fax transmission is executed in accordance with the received fax transmission request (steps S300 to S320). That is, the environment for registering the device 10 capable of fax transmission to the server 20 (cloud server), which is a server that provides services to each user through the Internet, is provided to the user. As a result, the user operates the terminal 30 to access the server 20, and transmits a fax transmission request designating one of the devices 10 registered in the server 20 to the server 20. It is possible to cause the designated device 10 to execute fax transmission based on the fax transmission request. Since the server 20 that is a server that provides services to each user through the Internet is always in operation, the user operates the terminal 30 to send a fax transmission request via the server 20 to the device 10 whenever he / she likes. Can be sent.

4). Fax transfer processing:
Next, a fax transfer process using the system 1 will be described. In the fax transfer process, when the device 10 receives faxed image data transmitted from the outside, the received image data (hereinafter, received data) is automatically faxed to a preset destination. It is processing. In the present embodiment, the device 10 has a specific operation mode called a fax transfer mode, and executes the fax transfer process only when this fax transfer mode is enabled.

  FIG. 9 is a flowchart illustrating the fax transfer process. As a premise for explaining FIG. 9, it is assumed that the fax transfer mode is enabled for the device 10. Further, in the description of FIG. 9, the description common to FIG. 3 is omitted as appropriate.

  The device 10 receives the image data transmitted from the outside by fax using the FAX communication unit 13 (step S30). Then, the device 10 (the control unit 12) transmits a fax transmission request designating itself as a device for executing fax transmission of received data received by fax to the server 20 (step S31). That is, in the fax transfer mode, the device 10 (the control unit 12) is similar to the terminal 30 (the control unit 32) that transmits a fax transmission request to the server 20 as described above when the fax is received. Behave. However, while the terminal 30 designates the device 10 in accordance with the user's arbitrary operation from the devices 10 capable of fax transmission registered in the device list DL, the device 10 receiving the fax in the fax transfer mode , Specify itself automatically.

  In the fax transfer process, the transmission settings (destination, resolution, image data acquisition method, etc.) to be included in the fax transmission request to be transmitted to the server 20 are set as specific transmission settings in advance. A fax transmission request including the contents of the specific transmission setting is transmitted to the server 20. The image data acquisition method that can be employed in the fax transfer process is one of the above-described three types of “attached data acquisition”, “download”, and “retained data acquisition”. For example, in the specific transmission setting, when the image data acquisition method is designated as “attached data acquisition”, the device 10 attaches the received data to the fax transmission request and sends a fax transmission request including the received data. It transmits to the server 20 (step S31).

  Alternatively, in the specific transmission setting, when the acquisition method of the image data is designated as “download”, the device 10 can receive the received data via a predetermined storage area (for example, the network NW) that can be accessed via the network NW. The storage area of the server 20 connected to the server 20 or a server 40 different from the server 20). Then, the address of the upload destination storage area, that is, the location information (URI) is set as an image data acquisition method in the transmission setting. As a result, the fax transmission request including the transmission setting having the location information (URI) of the received data is transmitted from the device 10 to the server 20 (step S31).

  Alternatively, in the specific transmission setting, when the acquisition method of the image data is designated as “holding data acquisition”, the device 10 stores the reception data in the storage unit 14 (holding unit) and stores the reception data. The retained image designation information to be designated is set as an image data acquisition method in the transmission setting. As a result, a fax transmission request including a transmission setting having retained image designation information for designating received data is transmitted from the device 10 to the server 20 (step S31).

  The server 20 (control unit 22) transmits the fax transmission request received from the device 10 in step S200 to the device 10 specified in the fax transmission request, that is, the device 10 that is the transmission source of the fax transmission request ( Step S210).

  The device 10 (control unit 12) receives the fax transmission request transmitted from the server 20 (step S300), and executes fax transmission according to the received fax transmission request (steps S310 and S320). In step S310, the device 10 acquires received data according to the transmission setting (image data acquisition method) in the fax transmission request. That is, when reception data is attached to the fax transmission request received from the server 20 in step S300, the device 10 acquires the attached reception data from the fax transmission request (step S310).

  Alternatively, when the location information (URI) is set in the transmission setting included in the fax transmission request received from the server 20 in step S300, the device 10 receives the information via the network NW based on the location information (URI). Data is downloaded (step S310). Alternatively, the device 10 stores in the storage unit 14 according to the stored image designation information when the retained image designation information for designating the received data is set in the transmission setting included in the fax transmission request received from the server 20 in step S300. Receiving data is acquired (step S310). In step 320, the control unit 12 of the device 10 sends the received data received in step S 310 to the destination set in the transmission setting (the specific transmission setting) included in the fax transmission request received from the server 20. Transmission is executed by the FAX communication unit 13.

  Although omitted from FIG. 9, the terminal 30 (control unit 32) naturally acquires a fax transmission result from the server 20 as shown in FIGS. The processing result can be presented to the user via the display unit 34.

  FIG. 10 is an example of a transmission result screen SR that the terminal 30 displays on the display unit 34 after step S150. The transmission result screen SR shows a list of fax transmission results of a certain device 10 (for example, “MFP1”). In the transmission result screen SR, for example, the fax transmission execution time (date and time), the type of fax transmission, the success / failure of the fax transmission, the destination of the fax transmission, and the like corresponding to each fax transmission request are shown. According to the example of FIG. 10, the type of fax transmission executed by a certain device 10 such as “remote transmission” and “transfer” is shown, and the user can view the remote fax by looking at the transmission result screen SR. It is possible to know that transmission or fax transfer has been executed.

  The device 10 recognizes that the fax transmission executed by receiving the fax transmission request from the server 20 is in principle a remote fax transmission. However, when a fax transmission request designating itself in step S31 (FIG. 9) is transmitted to the server 20, a parameter for identifying fax transmission is set in the fax transmission request. Thereby, when the parameter is set in the fax transmission request received from the server 20, the device 10 can recognize that the fax transmission is not remote fax transmission. As a result, when transmitting the fax transmission result to the server 20 in step S330, the device 10 can accurately transmit the information including the type of fax transmission.

  As described above, according to the present embodiment, the device 10 transmits a fax transmission request designating itself to the server 20 when performing fax transmission (steps S30 and S31). When the server 20 receives a fax transmission request specifying the registered device 10, the server 20 transmits the fax transmission request to the specified device 10 (steps S200 and S210), and the device 10 follows the received fax transmission request. Fax transmission is executed (steps S300 to S320). That is, when the device 10 receives a fax, the device 10 transmits a fax transmission request designating the device 10 to the server 20, thereby causing the server 20 to transmit a fax transmission request to the device 10. The received data can be faxed according to the transmission request. At this time, since the fax transmission request passes through the server 20, it is recorded in the server 20 in some form that the fax transfer has occurred. Accordingly, it is possible to provide the user with an environment in which information related to fax transfer can be obtained by accessing the server 20.

  Further, according to the present embodiment, the device 10 stores the received data in the storage unit 14 and receives the fax transmission received from the server 20 when “retained data acquisition” is designated as the image data acquisition method related to fax transfer. The received data is faxed according to the request. According to such a configuration, since the received data itself is not transmitted to the server 20, the amount of communication between the device 10 and the server 20 can be suppressed during fax transmission.

  Further, according to the present embodiment, the device 10 stores the received data in a predetermined storage area accessible via the network NW when “download” is designated as the image data acquisition method related to fax transfer. A fax transmission request including its own designation and location information (URI) of the stored received data is transmitted to the server 20. Then, the received data downloaded based on the location information (URI) included in the fax transmission request received from the server 20 is faxed. According to such a configuration, received data to be fax-transferred by the device 10 is stored in a predetermined storage area different from the device 10 (for example, the server 20 connected to the network NW or a server 40 different from the server 20). Storage area). In addition, by uploading received data to be downloaded to a server 40 different from the server 20, consumption of the storage capacity of the server 20 can be suppressed. Further, when “attached data acquisition” is designated as the image data acquisition method related to fax transfer, the device 10 transmits the received data to the server 20 once, so that the received data remains in the server 20. it can.

  Further, according to the present embodiment, the device 10 transmits the transmission result of the received data transmitted by fax to the server 20. As a result, the fax transfer result remains as a record in the server 20, and the fax transfer result can be easily presented to the user.

5. Variations:
The present invention is not limited to the above-described embodiment, and various modifications as described below can be employed. Of course, combinations of each embodiment and each modification are also included in the disclosure scope of the present application. In the following, description of items that are the same as those already described is omitted.

Modification 1:
Until now, the fax transmission request transmitted from the terminal 30 or the device 10 to the server 20 or the fax transmission request transmitted from the server 20 to the device 10 includes image data (received data) as a fax transmission target. ) Is attached, or location information (URI) for downloading image data is set as one item of transmission settings. However, when transmitting a fax transmission request, the terminal 30, the device 10, or the server 20 may transmit these image data and location information (URI) separately from the fax transmission request. Further, the device 10 may proceed simultaneously with acquisition of image data as a fax transmission target (step S310) and fax transmission of image data (step S320). In other words, the device 10 scans a document while receiving image data transmitted from the server 20 (attached to a fax transmission request, etc.), downloading image data from the predetermined storage area, or the like. However, the acquired image data may be sequentially faxed (directly transmitted).

Modification 2:
FIG. 11 is a flowchart illustrating a part of the remote fax transmission process according to the second modification. However, FIG. 11 can also be used as a modification to a part of the flowchart of the fax transfer process shown in FIG. The device 10 executes steps S332 and S334 instead of step S330 (FIGS. 3 and 6-9), and the server 20 executes step S222 instead of step S220 (FIGS. 3 and 6-9). May execute steps S152 and S154 instead of step S150 (FIGS. 3 and 6 to 8). Note that the fax transmission result in Modification 2 (and Modification 3 described later) refers to the report described above.

  After executing the fax transmission in step S320, the device 10 uploads the fax transmission result to a predetermined storage area accessible via the network NW (step S332). The predetermined storage area is, for example, a storage area that the server 20 connected to the network NW or a server 40 (see FIG. 1) different from the server 20 has. Next, the device 10 transmits the address of the storage area of the upload destination of the fax transmission result, that is, the location information (URI) of the fax transmission result, to the server 20 as a response to the transmission of the fax transmission request (step S210) (step S210). S334). The server 20 receives location information (URI) of the fax transmission result from the device 10 as a response to the transmission of the fax transmission request (step S210) (step S222).

  The terminal 30 acquires location information (URI) of the fax transmission result from the server 20 (step S152). Specifically, the terminal 30 designates a certain device 10 and requests the server 20 for location information (URI) of the fax transmission result of the device 10. When the location information (URI) of the fax transmission result of the device 10 is requested by the terminal 30, the server 20 has received the location information (URI) of the fax transmission result from the device 10 (step S 222). The location information (URI) of the received fax transmission result is transmitted to the terminal 30. On the other hand, when the location information (URI) of the fax transmission result of the device 10 is requested to the terminal 30, if the location information (URI) of the fax transmission result is not received from the device 10, the server 20 receives the fax transmission result. Location information (URI) cannot be transmitted to the terminal 30.

  When the location information (URI) of the fax transmission result of the device 10 is requested to the terminal 30 and the location information (URI) of the fax transmission result cannot be transmitted to the terminal 30, the server 20 locates the fax transmission result. The terminal 30 is notified that the information (URI) has not been received. Alternatively, if the location information (URI) of the fax transmission result is received from the device 10 without receiving any notification to the terminal 30 until the location information (URI) of the fax transmission result is received from the device 10, the location of the fax transmission result is received. Information (URI) is transmitted to the terminal 30. When the terminal 30 receives a notification that the location information (URI) of the fax transmission result has not been received from the server 20, the terminal 30 repeatedly requests the location information (URI) of the fax transmission result from the server 20. The terminal 30 downloads the fax transmission result via the network NW based on the location information (URI) of the fax transmission result acquired from the server 20 (step S154). The terminal 30 can notify the user of the fax transmission result by displaying the fax transmission result downloaded in this manner on the display unit 34.

Modification 3:
FIG. 12 is a flowchart illustrating a part of the remote fax transmission process according to the third modification. However, FIG. 12 can also be used as a modification to a part of the flowchart of the fax transfer process shown in FIG. The server 20 executes step S224 after step S220 (FIGS. 3, 6-9), and the terminal 30 replaces step S150 (FIGS. 3, 6-8) in the same manner as in the second modification (FIG. 11). Steps S152 and S154 may be executed. In Modification 2 (FIG. 11), the device 10 uploads the fax transmission result. In Modification 3 (FIG. 12), the server 20 uploads the fax transmission result. That is, after receiving the fax transmission result (step S220), the server 20 uploads the fax transmission result to a predetermined storage area accessible via the network NW (step S224). Thereafter, in response to a request from the terminal 30 (step S152), the server 20 transmits the address of the upload destination storage area of the fax transmission result, that is, the location information (URI) of the fax transmission result to the terminal 30. If the upload destination of the fax transmission result by the server 20 is a storage area in the server 20, the upload process can be substantially omitted.

DESCRIPTION OF SYMBOLS 1 ... System, 10 ... Device (fax machine), 11 ... Communication I / F, 12 ... Control part, 13 ... FAX communication part, 14 ... Memory | storage part, 20 ... Server, 21 ... Communication I / F, 22 ... Control part 22a ... fax control program, 23 ... storage unit, 30 ... terminal, 31 ... communication I / F, 32 ... control unit, 32a ... application, 33 ... operation input unit, 34 ... display unit, 35 ... storage unit, 40 ... Server, DL ... Device list, FW ... Firmware, NW ... Network

Claims (5)

A fax machine connected to a server via a network,
A registration request for registering itself as a device capable of fax transmission is transmitted to the server via the network, and the fax transmission designating the fax device is received from the server receiving the fax transmission request designating the registered device. A communication unit for receiving a request via the network;
A fax communication unit that performs fax transmission according to the received fax transmission request,
The communication unit transmits a fax transmission request specifying itself to the server via the network when the received data received by the fax communication unit is transmitted by fax. A holding unit for holding the received data when the received data is faxed;
The fax apparatus according to claim 1, wherein the fax communication unit transmits the held received data by fax according to the fax transmission request received from the server.   When the received data is faxed, the communication unit stores the received data in a predetermined storage area accessible via the network, and includes its own designation and location information of the stored received data. The fax transmission request is transmitted to the server, and the received data acquired based on the location information included in the fax transmission request received from the server is faxed to the fax communication unit. The fax machine according to 1.   The fax apparatus according to claim 1, wherein the communication unit transmits a transmission result obtained by transmitting the received data by fax to the server. A fax system in which a device having a fax transmission / reception function and a server that controls the device are connected via a network,
The device registers itself as a device capable of fax transmission with the server,
When the server receives a fax transmission request specifying a registered device, the server transmits the fax transmission request to the specified device.
The device is capable of performing fax transmission according to the received fax transmission request;
Further, when the received data received by fax is transmitted by fax, the device transmits a fax transmission request designating the device to the server.

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