JP2014187664A - Communication device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication device which secures suitable security for destination information on succeeded facsimile transmission.SOLUTION: A communication device includes: a first communication section; an acquisition section; a storage control section; a second communication section; and a transmission control section. The first communication section communicates with a portable terminal device with radio communication. The acquisition section acquires destination information for facsimile transmission and transmission data which is facsimile-transmitted in accordance with the destination information from the portable terminal device via the first communication section. The storage control section stores the acquired destination information in a transmission history storage section in accordance with the acquired transmission data. The second communication section facsimile-transmits the transmission data. The transmission control section controls facsimile transmission of the acquired transmission data from the second communication section in accordance with the acquired destination information. The storage control section deletes the destination information from the transmission history storage section when the facsimile transmission is succeeded, and does not delete the destination information from the transmission history storage section when it is failed.

Description

  The present invention relates to a communication device that performs facsimile transmission in cooperation with a mobile terminal device.

  Techniques related to communication devices have been proposed. For example, Patent Document 1 discloses an image processing communication device. The image processing communication device includes, for example, an Ir communication unit and a control unit. The Ir communication unit receives data from the portable terminal, stores the received data in the RAM, and notifies the control unit that the data has been received. The control unit determines the type of received data. If there is phone book data in the received data and not only the phone book data, data other than the phone book data is transmitted to the destination of the phone book data. If only the phone book data is present, the control unit writes and saves the phone book data in the flash memory. If there is no phone book data in the received data, the control unit performs processing selected by the user.

  Patent Document 2 discloses an information processing system. The information processing system includes a mobile terminal device and an information processing device. The portable terminal device transmits communication setting information and setting information to the information processing apparatus via the first communication unit in order to establish communication between the second communication unit and the fourth communication unit. The setting information indicates processing for entity information received or transmitted by the second communication unit. The mobile terminal device transmits or receives the entity information to or from the information processing device by non-contact communication via the second communication means. The portable terminal device receives an input of a setting information transmission instruction, and determines which communication is possible with the information processing device. The information processing apparatus receives or transmits the communication setting information and the setting information from the mobile terminal device to the mobile terminal device via the third communication unit, and processes the entity information with the setting corresponding to the setting information.

JP 2007-312142 A JP 2009-147896 A

  A communication device having a facsimile function may be installed in a public place. Communication devices installed in public places are used by an unspecified number of users. Therefore, it is necessary to prevent other people from acquiring or using the other party information for successful facsimile transmission that has already been executed, and it may be required to ensure the security of the other party information. In addition, there are cases where an unspecified number of users can be operated smoothly and can be suitably used.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a communication apparatus in which suitable security is ensured for information on a destination of successful facsimile transmission.

  One aspect of the present invention includes a first communication unit that communicates with a mobile terminal device by wireless communication, destination information for facsimile transmission from the mobile terminal device, and transmission data transmitted by facsimile according to the destination information. And acquiring the destination information acquired by the acquisition unit in the transmission history storage unit in association with the transmission data acquired by the acquisition unit. A storage control unit that stores the transmission data acquired by the acquisition unit in a transmission data storage unit, a second communication unit that transmits the transmission data by facsimile, and the destination information acquired by the acquisition unit, A transmission control unit configured to perform facsimile transmission of the transmission data acquired by the acquisition unit from the second communication unit, and the storage control unit includes a fax control unit configured by the transmission control unit. If the re-transmission is successful, the destination information is deleted from the transmission history storage unit, and if the facsimile transmission by the transmission control unit is unsuccessful, the destination information is not deleted from the transmission history storage unit. is there.

  According to this, when the facsimile transmission is successful, the destination information can be deleted from the transmission history storage unit. It is possible to prevent the other party's information on successful facsimile transmission from being obtained or used. If the facsimile transmission fails, the destination information stored in the transmission history storage unit without being deleted can be used for retransmission of the failed facsimile transmission.

  The storage control unit deletes the transmission data from the transmission data storage unit when the transmission by the transmission control unit is successful, and from the transmission data storage unit when the facsimile transmission by the transmission control unit fails. The transmission data may not be deleted. According to this, when the facsimile transmission is successful, the transmission data can be deleted from the transmission data storage unit. The transmission data of successful facsimile transmission can be prevented from being obtained or used by others. When the facsimile transmission fails, the transmission data stored in the transmission data storage unit without being deleted can be used for retransmission of the failed facsimile transmission.

  In the case where facsimile transmission by the transmission control unit fails, the storage control unit may delete the destination information from the transmission history storage unit when a predetermined storage time has elapsed from the failure of facsimile transmission. . According to this, even if the facsimile transmission fails, the destination information can be deleted from the transmission history storage unit at a timing when a predetermined storage time has elapsed.

  The storage control unit may delete the transmission data from the transmission data storage unit when the storage time has elapsed when the facsimile transmission by the transmission control unit fails. According to this, even if the facsimile transmission fails, the transmission data can be deleted from the transmission data storage unit at a timing when a predetermined storage time has elapsed.

  When the transmission by the transmission control unit fails, the acquisition unit acquires a retransmission instruction for instructing retransmission of the failed facsimile transmission from the portable terminal device via the first communication unit, When the retransmission instruction is acquired by the acquisition unit, the transmission control unit is associated with the destination information and stored in the transmission data storage unit according to the destination information stored in the transmission history storage unit. The transmission data may be controlled to be transmitted by facsimile from the second communication unit. According to this, the operation for re-transmission can be smoothly performed in cooperation with the mobile terminal device. It is possible to provide a communication device that realizes suitable operability.

  The first communication unit includes a third communication unit that communicates with the mobile terminal device through first wireless communication whose communication range is the first range, and a second wireless whose communication range is a second range wider than the first range. A fourth communication unit that communicates with the mobile terminal device by communication, wherein the acquisition unit acquires the destination information via the third communication unit, and transmits the transmission data via the fourth communication unit. May be obtained. According to this, transmission / reception of destination information can be executed by the first wireless communication between the mobile terminal device and the communication device, and transmission / reception of transmission data can be executed by the second wireless communication having a wide communication range. For example, it is possible to communicate with the mobile terminal device by a suitable wireless communication method according to the amount of data.

  According to the present invention, it is possible to obtain a communication apparatus in which suitable security is ensured with respect to information on the destination of successful facsimile transmission.

It is a figure which shows an example of the communication system containing a communication apparatus, a portable terminal device, and a counterpart device. It is a figure which shows an example of the memory for transmission history. (A)-(D) show each state of writing each information to the transmission history memory. (A) is a figure which shows an example of the memory for communication management. (B) is a figure which shows an example of the memory for transmission data. It is a flowchart which shows the 1st part of a communication apparatus process. It is a flowchart which shows the 2nd part of a communication apparatus process. It is a flowchart of a portable terminal process. It is a figure which shows the transmission operation screen displayed with a portable terminal device. (A) shows a state where the “Resend” button cannot be pressed. (B) shows a state where the “Resend” button can be pressed.

  Embodiments for carrying out the present invention will be described with reference to the drawings. The present invention is not limited to the configurations described below, and various configurations can be employed in the same technical idea. For example, some of the configurations shown below may be omitted or replaced with other configurations. Other configurations may be included.

<Communication system>
An outline of the communication system 10 will be described with reference to FIG. The communication system 10 includes a communication device 20, a mobile terminal device 50, and a counterpart device 80. The communication device 20 is, for example, a multifunction machine having a facsimile function, a scan function, and a copy function. The communication device 20 is connected to the public line 12. The public line 12 is an optical line and / or PSTN (Public Switched Telephone Networks) constructed by a predetermined communication carrier. The public line 12 includes a line for a mobile phone (for example, a 3G line and / or LTE (Long Term Evolution)). The public line 12 in this embodiment does not mean a specific communication line but generically refers to various communication lines used by users who have contracted with each communication carrier. The communication device 20 may be installed in a public place and used by an unspecified number of people.

  The portable terminal device 50 is a smartphone. A smartphone is a mobile phone having a computer function. The portable terminal device 50 can communicate with the communication device 20 by predetermined wireless communication in addition to communication via the public line 12. The first method of the predetermined wireless communication is, for example, near field communication (hereinafter referred to as “NFC”). The second method of the predetermined wireless communication is, for example, wireless LAN communication or Bluetooth (registered trademark). The second type wireless communication is a wireless communication having a wider communication range than the first type wireless communication. In the present embodiment, NFC (first method) and wireless LAN communication (second method) will be described as examples of wireless communication used between the communication device 20 and the mobile terminal device 50.

  The counterpart device 80 is a known communication device having a facsimile function or the same communication device as the communication device 20. The counterpart device 80 is connected to the public line 12 and becomes a communication counterpart of the communication device 20. In FIG. 1, one counterpart device 80 is illustrated, but a plurality of counterpart devices 80 are connected to the public line 12. The other description regarding the other party apparatus 80 is abbreviate | omitted.

<Communication device>
The communication device 20 will be described with reference to FIGS. The communication device 20 includes a CPU 22, a ROM 24, a RAM 26, a printing unit 28, a reading unit 30, a display unit 32, an operation unit 34, a line communication unit 36, a short-range communication unit 38, and wireless LAN communication. A unit 40 and a timer unit 42 are provided. These units 22 to 42 are connected to a bus 44.

  CPU22 performs arithmetic processing. The ROM 24 is configured by a flash memory. The ROM 24 includes a storage area for storing computer programs for various processes executed by the communication device 20. The computer program stored in the ROM 24 includes, for example, a computer program for communication device processing (see FIGS. 4 and 5) described later. The ROM 24 includes a storage area for a transmission history memory and a storage area for a communication management memory.

  As shown in FIG. 2, the transmission history memory stores a communication number (communication No.), a terminal ID, destination information, a transmission data storage location, and a communication result in association with each other. The communication number is an identification number (serial number) for identifying each record in the transmission history memory. The terminal ID is identification information for identifying the mobile terminal device 50. The portable terminal device 50 has a unique terminal ID. The destination information is a FAX number of the destination device 80. The transmission data storage location is information (address) indicating the storage location of transmission data. The transmission data is facsimile data transmitted by facsimile to the destination device 80. The communication device 20 acquires transmission data from the mobile terminal device 50. This point will be described later. The transmission result is information indicating success (OK) or failure (NG) of facsimile transmission of transmission data. Each information stored in association with the transmission history memory is used for retransmission when facsimile transmission fails.

  As shown in FIG. 3A, the communication management memory stores a communication number (communication No.), a terminal ID, partner information, and a communication result in association with each other. The communication number is an identification number (serial number) for identifying each record in the communication management memory. Other information is as described above. Each information stored in the communication management memory is used by, for example, an administrator of the communication device 20 to manage the usage status of the communication device 20 and the like. A general user of the communication device 20 cannot use each information stored in the communication management memory.

  The RAM 26 is a storage area used when the CPU 22 executes various computer programs. The RAM 26 stores predetermined data (information) used in the process during the execution of various processes. For example, a transmission data memory is secured in the RAM 26 as a storage area for storing transmission data. The transmission data is stored and stored at a predetermined address in the transmission data memory (see FIG. 3B). In FIG. 3B, “data for communication No. 1” is stored in “address 1” in the memory for transmission data, and the transmission data is stored in other addresses (see “address field” which is blank). It shows a state where it is not stored and is an empty area. The CPU 22 controls the communication device 20 by executing various computer programs stored in the ROM 24. Thereby, in the communication apparatus 20, various processes are performed and various functions are implement | achieved.

  The printing unit 28 prints an image corresponding to the facsimile data received by the communication device 20 on a recording sheet. The reading unit 30 reads a document. The display unit 32 displays various information. The display unit 32 is configured by a liquid crystal display, for example. The operation unit 34 is operated when predetermined information or an instruction is input to the communication device 20. The operation unit 34 includes a plurality of keys. An example of the keys included in the operation unit 34 is a numeric keypad. A touch pad may be provided in the operation unit 34 and the touch pad and the display unit 32 may be combined to realize a touch panel function. In this case, a part of the operation unit 34 has a configuration using a touch panel function. The line communication unit 36 is connected to the public line 12 and executes communication via the public line 12.

  The short-range communication unit 38 performs NFC. The wireless LAN communication unit 40 performs wireless LAN communication. A communication technique in which the communication device 20 and the mobile terminal device 50 perform wireless communication while switching between NFC and wireless LAN communication is referred to as Wi-Fi handover. When Bluetooth is used as the second type of wireless communication, a communication technique in which the communication device 20 and the mobile terminal device 50 perform wireless communication while switching between NFC and Bluetooth is referred to as Bluetooth handover. The timer 42 measures the passage of time.

<Mobile terminal device>
The portable terminal device 50 will be described with reference to FIG. The portable terminal device 50 includes a CPU 52, a ROM 54, a RAM 56, a display unit 58, an operation unit 60, a camera unit 62, a short-range communication unit 64, a wireless LAN communication unit 66, a line communication unit 68, A timer 70 is provided. These units 52 to 70 are connected to a bus 72.

  The CPU 52 executes arithmetic processing. The ROM 54 is configured by a flash memory. The ROM 54 includes a storage area for storing computer programs for various processes executed by the mobile terminal device 50. The computer program stored in the ROM 54 includes a computer program for portable terminal processing (see FIG. 6) described later. A computer program for portable terminal processing is installed in the ROM 54, for example, by being downloaded from a predetermined server on the Internet. The ROM 54 includes a storage area for storing various data. Various types of data include the terminal ID of the mobile terminal device 50, the counterpart information of the counterpart device 80, and transmission data. Examples of the transmission data include document data and photo data. The document data is created by a predetermined application program. Document data created by an information processing device different from the portable terminal device 50 may be stored in the ROM 54.

  The RAM 56 is a storage area used when the CPU 52 executes various computer programs. The RAM 56 stores predetermined data (information) used in the process during the execution of various processes. The CPU 52 controls the mobile terminal device 50 by executing various computer programs stored in the ROM 54. Thereby, in the mobile terminal device 50, various processes are executed, and various functions are realized.

  The display unit 58 displays various information. The display unit 58 is configured by a liquid crystal display, for example. The operation unit 60 is operated when inputting predetermined information or instructions to the mobile terminal device 50. The operation unit 60 includes predetermined keys and a touch pad. A part of the operation unit 60 is configured by a touch panel function in which the touch pad and the display unit 58 are combined. The camera unit 62 captures an external image. Photo data corresponding to the captured external image is stored in the ROM 54, for example. The near field communication unit 64 performs NFC. The wireless LAN communication unit 66 executes wireless LAN communication. NFC between the communication device 20 and the mobile terminal device 50 is performed via the short-range communication unit 38 and the short-range communication unit 64. Wireless LAN communication between the communication device 20 and the mobile terminal device 50 is performed via the wireless LAN communication unit 40 and the wireless LAN communication unit 66. The line communication unit 68 executes communication via the public line 12. The timer 70 measures the passage of time.

<Communication device processing>
Communication device processing executed by the communication device 20 will be described with reference to FIGS. 4 and 5. The communication device process is started when, for example, the communication device 20 is powered on. The CPU 22 that has started the communication device process determines whether or not an NFC connection request has been acquired (S100). The connection request is transmitted from the mobile terminal device 50 and received by the short-range communication unit 38 when NFC is established between the communication device 20 and the mobile terminal device 50 (see S200 in FIG. 6). The CPU 22 acquires a connection request via the short-range communication unit 38. When the connection request has not been acquired (S100: No), the CPU 22 repeatedly executes S100 until the connection request is acquired. When the connection request is acquired (S100: Yes), the CPU 22 performs pairing in NFC and establishes NFC with the requesting mobile terminal device 50.

  The CPU 22 acquires the terminal ID of the portable terminal device 50 and the partner information of the partner device 80 that is the destination of facsimile transmission (S102). The terminal ID and destination information are transmitted from the portable terminal device 50 by NFC (see S202 in FIG. 6) and received by the short-range communication unit 38. The CPU 22 acquires a terminal ID and counterpart information via the short-range communication unit 38. The CPU 22 associates the acquired terminal ID with the counterpart information and writes it in the transmission history memory (S104). In the transmission history memory, the acquired terminal ID and destination information are stored in association with a predetermined communication number (for example, the smallest number at the timing of writing). Specifically, if no information is stored in the transmission history memory, the terminal ID acquired in S102 is “ID1”, and the destination information is “052-11-2122”, the CPU 22 , “ID1” and “052-11-2222” are written in the transmission history memory in association with the communication number “1” (see FIG. 2A).

  Next, the CPU 22 acquires transmission data (S106). The transmission data is transmitted by wireless LAN communication from the mobile terminal device 50 with NFC established (see S206 in FIG. 6) and received by the wireless LAN communication unit 40. The wireless communication system change from NFC to wireless LAN communication is performed according to the Wi-Fi handover described above. The CPU 22 acquires transmission data via the wireless LAN communication unit 40. The CPU 22 stores the acquired transmission data in the transmission data memory (S108). As a result, the transmission data is stored in a predetermined address of the transmission data memory. The CPU 22 writes the address indicating the storage location of the transmission data in the transmission history memory in association with the communication number corresponding to the writing in S104 (hereinafter referred to as “processing target communication number”). Thus, the transmission history memory is in a state in which the communication number, the terminal ID, the destination information, and the transmission data storage location are stored in association with each other. For example, it is assumed that the communication number to be processed is “1” (see FIG. 2A) and the transmission data acquired in S106 is “data for communication No. 1”. In S108, the CPU 22 saves “communication No. 1 data” in “address 1” of the transmission data memory (see FIG. 3B). Then, the CPU 22 writes the transmission data storage location “address 1” in the transmission history memory in association with the communication number “1” to be processed (see FIG. 2B).

  The CPU 22 starts control of facsimile transmission for the destination information acquired in S102 and stored in S104 and the transmission data stored in the transmission data memory in S108 (S110). By this control, facsimile transmission of transmission data from the line communication unit 36 to the partner apparatus 80 corresponding to the partner information is started. The transmission data is encoded in a format according to a communication standard for facsimile transmission. The CPU 22 determines whether or not the facsimile transmission started in S110 is successful (S112). It is assumed that the communication device 20 has a redial function. The redial function corresponds to a case where the counterpart device 80 is communicating with a communication device other than the communication device 20, and repeats facsimile transmission to the counterpart device 80 at a predetermined interval and a predetermined number of times. The function to execute. Since the redial function is a function that also includes a known communication device that includes a facsimile function, other description related thereto is omitted. In the communication device 20 having the redial function, if the transmission data can be transmitted by facsimile to the destination device 80 at any timing, it is determined that the facsimile transmission is successful (S112: Yes). On the other hand, if the transmission data cannot be transmitted to the destination device 80 by facsimile even after being repeated a predetermined number of times, it is determined that the facsimile transmission has failed (S112: No).

  When the facsimile transmission is successful (S112: Yes), the CPU 22 writes the transmission result “OK” in the transmission history memory in association with the communication number to be processed (S114). Thus, the transmission history memory is in a state in which the communication number, terminal ID, destination information, transmission data storage location, and transmission result are stored in association with each other (see FIG. 2C). Subsequently, the CPU 22 writes the terminal ID, destination information, and transmission result stored in the transmission history memory in association with the communication number to be processed in the communication management memory (S116). For example, if no information is stored in the communication management memory and the transmission history memory is in the state of FIG. 2C, the CPU 22 associates the communication number “1” with “ID1”. “052-11-2222” and “OK” are written in the communication management memory (see FIG. 3A). If one or more records are stored in the communication management memory, the communication number is the number next to the communication number of the last record (for example, if the communication management memory is in the state shown in FIG. “2” next to the number “1”).

  Next, the CPU 22 deletes the transmission data stored in this storage location from the transmission data memory according to the transmission data storage location associated with the communication number to be processed in the transmission history memory (S118). Subsequently, the CPU 22 deletes each piece of information associated with the processing target communication number from the transmission history memory (S120). In S120, the CPU 22 also deletes the communication number to be processed from the transmission history memory. When there is one record stored in the transmission history memory (see FIGS. 2C and 2D), the transmission history memory is in a state where no information is stored (unregistered state). . After executing S120, the CPU 22 ends the communication device process.

  Returning to S112, if the facsimile transmission fails (S112: No), the CPU 22 shifts the process to S122 of FIG. 5, and determines whether or not the retransmission flag is “ON”. The retransmission flag is information indicating whether or not to repeatedly perform facsimile transmission according to each piece of information associated with the communication number to be processed stored in the transmission history memory, and the initial value is “OFF”. It is. The retransmission flag “ON” indicates re-execution. The retransmission flag is set in S130 of FIG. The CPU 22 performs control to display a communication error screen on the display unit 32 in the transition to S122. The communication error screen includes, for example, information “communication error, please send again”. By this control, a communication error screen is displayed on the display unit 32. The user to be operated can check the communication error screen displayed on the display unit 32. The user to be operated is a user who has performed an operation that causes S100 to be affirmed (S100: Yes), such as holding the mobile terminal device 50 over the communication device 20 (short-range communication unit 38).

  When the retransmission flag is “ON” (S122: Yes), the CPU 22 shifts the process to S126. When the retransmission flag is not “ON” (S122: No), the CPU 22 writes the transmission result “NG” in the transmission history memory in association with the communication number to be processed (S124). As a result, the transmission history memory is in a state in which the communication number, terminal ID, destination information, transmission data storage location, and transmission result are stored in association with each other (see FIG. 2D). After executing S124, the CPU 22 shifts the process to S126.

  In S126, the CPU 22 determines whether or not the storage time has elapsed since the facsimile transmission failed. The storage time is appropriately set in consideration of various conditions as the time for accepting retransmission of failed facsimile transmissions. The storage time is, for example, a predetermined time of several minutes. When the storage time has elapsed (S126: Yes), the CPU 22 returns the process to S116 of FIG. 4 and executes the processes after S116. In this case, in S116, based on FIG. 2D, the transmission result written in the communication management memory is “NG”.

  When the storage time has not elapsed (S126: No), the CPU 22 determines whether or not a retransmission instruction has been acquired (S128). The retransmission instruction is a command for instructing retransmission of facsimile transmission started in S110 of FIG. The retransmission instruction is transmitted from the mobile terminal device 50 by NFC in S214 of FIG. In the communication device 20, the retransmission instruction transmitted from the mobile terminal device 50 is received by the short-range communication unit 38. The CPU 22 acquires a retransmission instruction via the short-range communication unit 38.

  When the retransmission instruction has not been acquired (S128: No), the CPU 22 returns the process to S126 and executes S126. When the retransmission instruction is acquired (S128: Yes), the CPU 22 sets “ON” in the retransmission flag (S130). Thereafter, the CPU 22 returns the process to S110 of FIG. 4 and executes the processes after S110. In this case, in S110, according to the destination information associated with the communication number to be processed in the transmission history memory (see “052-11-2222” based on FIG. 2D), the same communication number to be processed Of transmission data (refer to “Data for communication No. 1” based on FIG. 3B) stored in the transmission data storage location associated with (refer to “Address 1” based on FIG. 2D) Facsimile transmission is started. That is, in this S110, the facsimile transmission that failed in the previous S110 is retransmitted.

<Mobile terminal processing>
The mobile terminal process executed by the mobile terminal device 50 will be described with reference to FIG. The mobile terminal process is started when a user of the mobile terminal device 50 (operation target user) operates the operation unit 60 and inputs an execution instruction for starting a computer program for mobile terminal processing. Along with the input of the execution instruction, the CPU 52 controls the display unit 58 to display a transmission operation screen including the operation unit 60 using the touch panel function. By this control, a transmission operation screen as shown in FIG. 7A is displayed on the display unit 58 (however, destination information such as “052-111-2222” is not displayed). The “Resend” button on the operation unit 60 is in a state where it cannot be pressed (the halftone dot in the “Resend” part in FIG. 7A indicates this state). In addition, for example, after the execution instruction is input, the operation target user performs an operation of designating transmission destination data and destination data as transmission data destination. As the destination information is input, the input destination information is displayed on the transmission operation screen (see FIG. 7A). In accordance with this operation, the CPU 52 specifies destination information and transmission data. Thereafter, the user to be operated presses the “Send” button. The user to be operated holds the portable terminal device 50 over the communication device 20 at a predetermined timing before or after pressing the “Send” button.

  The CPU 52 that has started the portable terminal process determines whether NFC has been established with the communication device 20 (S200). In establishing NFC, the connection request described in relation to S100 of FIG. 4 is transmitted from the short-range communication unit 64 to the communication device 20. Then, the CPU 52 performs pairing in NFC and establishes NFC with the communication device 20. When NFC is not established because the mobile terminal device 50 is not held over the communication device 20 (S200: No), the CPU 52 repeatedly executes S200. When NFC is established (S200: Yes), the CPU 52 performs control to transmit the terminal ID and partner information of the own device from the short-range communication unit 64 to the communication device 20 (S202). By this control, the terminal ID and the partner information are transmitted from the short-range communication unit 64 to the communication device 20 by NFC. The CPU 52 is in a state where the “Resend” button of the operation unit 60 can be pressed (see FIG. 7B) at a predetermined timing, such as when NFC is established (S200: Yes).

  Subsequently, the CPU 52 controls processing for establishing wireless LAN communication with the communication device 20 in accordance with the Wi-Fi handover. Then, the CPU 52 determines whether or not wireless LAN communication has been established with the communication device 20 (S204). For example, when the process for establishing the wireless LAN communication is being executed and the wireless LAN communication is not established (S204: No), the CPU 52 continues to control the process described above. When the wireless LAN communication is established (S204: Yes), the CPU 52 performs control to transmit the specified transmission data together with the destination information from the wireless LAN communication unit 66 to the communication device 20 (S206). With this control, transmission data is transmitted from the wireless LAN communication unit 66 to the communication device 20 by wireless LAN communication.

  After executing S206, the CPU 52 determines whether or not a certain period of time has elapsed since the completion of transmission of transmission data by wireless LAN communication (S208). The fixed time as the determination condition is appropriately set in consideration of various conditions. For example, the fixed time is a time corresponding to the above-described storage time (see S126 in FIG. 5). When the predetermined time has elapsed (S208: Yes), the CPU 52 ends the portable terminal process. When the predetermined time has not elapsed (S208: No), the CPU 52 determines whether or not the operation target user has pressed the “Resend” button of the operation unit 60 using the touch panel function (S210). The CPU 52 determines S210 according to whether or not the “Resend” button (see FIG. 7B) of the operation unit 60 on the transmission operation screen is pressed. The user to be operated re-executes the failed facsimile transmission according to the communication error screen displayed on the display unit 32 when the facsimile transmission started in S110 of FIG. 4 fails (see S112 of FIG. 4: No). To send, press the “Resend” button.

  If the “Resend” button has not been pressed (S210: No), the CPU 52 returns the process to S208 and executes S208. When the “Resend” button is pressed (S210: Yes), the CPU 52 controls processing for establishing NFC with the communication device 20, and determines whether NFC has been established (S212). When NFC is not established (S212: No), the CPU 52 returns the process to S208 and executes the processes after S208. In order to establish NFC, the mobile terminal device 50 must be held over the communication device 20 at a predetermined timing before or after the “Resend” button is pressed. That is, it is necessary to bring the mobile terminal device 50 and the communication device 20 close to a distance where NFC is possible. If the method of holding the portable terminal device 50 over the communication device 20 is inappropriate, or if the portable terminal device 50 is not held over the communication device 20, NFC is not established.

  When NFC is established (S212: Yes), the CPU 52 performs control to transmit a retransmission instruction from the short-range communication unit 64 to the communication device 20 (S214). With this control, a retransmission instruction is transmitted from the short-range communication unit 64 to the communication device 20 by NFC. After executing S214, the CPU 52 returns the process to S208, and executes the processes after S208.

<Effect of this embodiment>
According to this embodiment, the following effects can be obtained.

  (1) In the communication device 20, when the facsimile transmission started in S110 of FIG. 4 is successful based on the request from the mobile terminal device 50 (see S112: Yes in FIG. 4), the communication number for the successful facsimile transmission Each information including the (communication number to be processed) and the destination information associated with the communication number to be processed is deleted from the transmission history memory (see S120 in FIG. 4). When the facsimile transmission started in S110 of FIG. 4 fails (see S112 of FIG. 4: No), each piece of information including the communication number to be processed and the destination information associated with the communication number to be processed is It is assumed that control such as immediate deletion from the transmission history memory is not executed. Therefore, when the facsimile transmission is successful, it is possible to prevent each person including information on the other party of the successful facsimile transmission from being acquired or used by another person. Security can be ensured for each piece of information including the destination information of successful facsimile transmission. When the facsimile transmission fails, each information including the destination information can be stored in the transmission history memory.

  If the facsimile transmission started in S110 in FIG. 4 fails (see S112 in FIG. 4: No), and the storage time has passed since the failure in facsimile transmission (see S126 in FIG. 5: Yes), the communication to be processed Each information including the partner information associated with the number is deleted from the transmission history memory (see S120 in FIG. 4). Therefore, as with the case where the facsimile transmission is successful, it is possible to ensure security for each piece of information including the destination information.

  When deleting each piece of information including the destination information associated with the communication number to be processed from the transmission history memory, the information is stored in this storage location according to the transmission data storage location associated with the transmission target communication number. The transmitted data is deleted from the transmission data memory (see S118 in FIG. 4). Therefore, it is possible to prevent the transmission data stored in the transmission data memory together with each piece of information including the destination information from being acquired or used by others.

  (2) Even when the facsimile transmission started in S110 in FIG. 4 fails (see S112 in FIG. 4: No), if the storage time has not elapsed (see S126 in FIG. 5: No) When the retransmission instruction is received from the portable terminal device 50 and the retransmission instruction is acquired (see S128 in FIG. 5: Yes), the destination information stored in the transmission history memory in association with the communication number to be processed Accordingly, the transmission data stored in the transmission data memory is transmitted again by facsimile (see S110 in FIG. 4). Therefore, during the storage time, an operation for re-transmission can be smoothly performed in cooperation with the mobile terminal device 50. With regard to retransmission of failed facsimile transmissions, the communication device 20 can be provided with suitable operability.

<Modification>
This embodiment can also be performed as follows.

  (1) In the above, the case where the portable terminal device 50 is a smartphone has been described as an example. The portable terminal device 50 may be a portable terminal device having a computer function capable of executing the above-described portable terminal processing (see FIG. 6). For example, the mobile terminal device 50 may be a tablet device. Examples of the tablet-type device include computer products called tablet terminals or tablet PCs. The tablet-type device does not include the line communication unit 68 among the units 52 to 70 included in the mobile terminal device 50 described above, and may not support a call or the like via the public line 12.

  (2) In the above description, NFC and wireless LAN communication have been described as examples of wireless communication between the communication device 20 and the mobile terminal device 50. The wireless communication between the two devices may be performed by a wireless communication of a method different from these. The wireless communication employed between the two apparatuses may not be two types. For example, it may be performed by one type of wireless communication. The method and / or the number of types of wireless communication to be adopted may be appropriately determined in consideration of various conditions such as the data amount, the communication range, and / or operability.

  In the communication device process (see FIGS. 4 and 5) and the portable terminal process (see FIG. 6), at least a part of the wireless communication performed by NFC may be performed by wireless LAN communication. Similarly, at least a part of wireless communication that is to be executed by wireless LAN communication may be executed by NFC. The wireless communication system to be adopted may be appropriately determined in consideration of various conditions such as data amount, communication range and / or operability.

10 Communication System 12 Public Line 20 Communication Device 22 CPU
24 ROM
26 RAM
28 Printing unit 30 Reading unit 32 Display unit 34 Operation unit 36 Line communication unit 38 Short-range communication unit 40 Wireless LAN communication unit 42 Timekeeping unit 44 Bus 50 Mobile terminal device 52 CPU
54 ROM
56 RAM
58 display unit 60 operation unit 62 camera unit 64 short-range communication unit 66 wireless LAN communication unit 68 line communication unit 70 timing unit 72 bus 80 partner device

Claims (6)

A first communication unit that communicates with the mobile terminal device by wireless communication;
An acquisition unit that acquires destination information for facsimile transmission from the portable terminal device, and transmission data that is transmitted by facsimile according to the destination information, via the first communication unit;
The destination information acquired by the acquisition unit is stored in a transmission history storage unit in association with the transmission data acquired by the acquisition unit, and the transmission data acquired by the acquisition unit is transmitted to a transmission data storage unit A storage control unit for storing
A second communication unit for transmitting the transmission data by facsimile;
A transmission control unit that performs control to perform facsimile transmission of the transmission data acquired by the acquisition unit from the second communication unit in accordance with the destination information acquired by the acquisition unit;
The storage control unit
When the facsimile transmission by the transmission control unit is successful, the destination information is deleted from the transmission history storage unit,
A communication apparatus that does not delete the destination information from the transmission history storage unit when facsimile transmission by the transmission control unit fails. The storage control unit
When the facsimile transmission by the transmission control unit is successful, the transmission data is deleted from the transmission data storage unit,
The communication apparatus according to claim 1, wherein when the facsimile transmission by the transmission control unit fails, the transmission data is not deleted from the transmission data storage unit.   The storage control unit deletes the destination information from the transmission history storage unit when a predetermined storage time has elapsed from the failure of the facsimile transmission when the facsimile transmission by the transmission control unit fails. The communication device according to claim 1 or 2.   The communication device according to claim 3, wherein the storage control unit deletes the transmission data from the transmission data storage unit when the storage time elapses when facsimile transmission by the transmission control unit fails. The acquisition unit acquires a retransmission instruction for instructing retransmission of the failed facsimile transmission from the portable terminal device through the first communication unit when the facsimile transmission by the transmission control unit fails,
When the retransmission instruction is acquired by the acquisition unit, the transmission control unit is associated with the destination information and stored in the transmission data storage unit according to the destination information stored in the transmission history storage unit 5. The communication device according to claim 1, wherein control is performed to transmit the transmitted data transmitted by facsimile from the second communication unit. 6. The first communication unit is
A third communication unit that communicates with the mobile terminal device by first wireless communication whose communication range is the first range;
A fourth communication unit that communicates with the mobile terminal device by second wireless communication that is a second range that is wider than the first range,
The acquisition unit
Obtaining the destination information via the third communication unit;
The communication apparatus according to claim 1, wherein the transmission data is acquired via the fourth communication unit.

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