JP7074159B2 - Image recording device - Google Patents

Description

The present invention relates to an image recording device that receives image data from an image output device and performs image printing processing based on the received image data.

As described in the following patent document, the image recording device can receive image data from an image output device such as a scanner and perform image printing processing based on the received image data.

Japanese Unexamined Patent Publication No. 2007-88888

In the technique described in the above patent document, the selection of the printer to perform the printing process is usually performed in the scanner. However, since the display panel of the scanner often has a low display capability, the amount of information displayed on the display panel is limited to the printer name and the like. Therefore, it is difficult to identify the printer that executes the printing process from the contents displayed on the display panel. The present invention has been made in view of such circumstances, and an object of the present invention is to easily identify a printer that executes a printing process.

In order to solve the above problems, the image recording device of the present invention is a communication method different from that of the first communication and wireless communication with a first communication unit that performs communication based on the first communication method. A second communication unit that performs communication based on the second communication method and a control unit are provided, and the control unit identifies image data and a communication destination from an image output device via the first communication unit. The first receiving means for receiving the identification information, the image recording means for recording an image based on the image data received by the first receiving means on a printing paper, and the identification information received by the first receiving means are described in the first. 2. It is characterized by having a first transmission means for broadcasting via a communication unit.

Further, in order to solve the above problems, the image recording device of the present invention communicates with a first communication unit that performs communication based on the first communication method by a communication method different from the first communication and by radio. A second communication unit that performs communication based on the second communication method and a control unit are provided, and the control unit transfers image data and a communication destination from an image output device via the first communication unit. The first receiving means for receiving the identification information for identification, the image recording means for recording an image based on the image data received by the first receiving means on a printing paper, and the identification information received by the first receiving means. When the identification information is received from the external terminal by the third receiving means that receives from the external terminal via the second communication unit and the third receiving means, the external terminal receives the identification information via the second communication unit. , A second transmission means for transmitting a reply to the reception of the identification information.

In the present invention, the image data and the identification information are transmitted from the image output device to the image recording device by communication based on the first communication method. Then, the image recording device executes an image printing process based on the received image data. Further, the image recording device transmits the received identification information by wireless communication based on a second communication method different from the first communication method. As a result, for example, when a user having an external terminal is within the communication range of the second wireless communication, the external terminal receives the identification information. At this time, for example, when the information indicating that the identification information has been received is displayed on the display unit of the external terminal, the user recognizes that he / she is near the printer that executes the print process and executes the print process. The printer can be easily identified.

It is a block diagram of communication system 1. It is a figure which shows the operation flowchart of the scanner 10. It is a figure which shows the operation flow chart of a printer 30. It is a figure which shows the operation flow chart of a printer 30. It is a figure which shows the operation flow chart of a mobile phone 60. It is a figure which shows the operation flow chart of a mobile phone 60. It is a figure which shows the operation flowchart of the printer 30 of 2nd Embodiment. It is a figure which shows the operation flowchart of the printer 30 of 2nd Embodiment. It is a figure which shows the operation flowchart of the mobile phone 60 of 2nd Embodiment. It is a figure which shows the operation flowchart of the mobile phone 60 of 2nd Embodiment.

<Communication system configuration>
FIG. 1 shows a block diagram of a communication system 1 exemplified as an embodiment according to the present application. The communication system 1 includes a scanner (an example of an image output device of the present invention) 10, a printer (an example of an image recording device of the present invention) 30, a printer 31, and a mobile phone (an example of an external terminal of the present invention) 60.

The configuration of the scanner 10 will be described. The scanner 10 mainly includes a CPU (abbreviation of Central Processing Unit) 12, a storage unit 14, a display 16, an input I / F18, a network I / F20, a proximity wireless communication I / F21, and a reading unit 22. These components are made communicable with each other via the input / output port 24.

The display 16 includes a display surface for displaying various functions of the scanner 10. The input I / F 18 is a key for executing each function of the scanner 10, and may be, for example, a touch panel integrally configured with the display 16, and a user operation on an icon displayed on the display 16. Accept. In addition to the touch panel, hard keys or the like may be used. When the input I / F 18 is composed of hard keys, the scanner 10 accepts an operation on the key corresponding to the icon displayed on the display. The reading unit 22 is a portion for executing a scanning process for reading an image recorded on a document and creating image data, and includes, for example, a CCD image sensor, a contact image sensor, and the like.

The network I / F 20 communicates with an external device and is connected to a printer 30 and a printer 31 existing in the same network as the scanner 10. That is, the network I / F 20 is capable of performing wired LAN system communication (an example of the first communication system of the present invention). This enables the scanner 10 to perform data communication with the printer 30 and the printer 31 via the network I / F 20. Near field communication I / F21 is capable of performing NFC (abbreviation of Near Field Communication) wireless communication based on the international standard of ISO / IEC21481 or ISO / IEC18092. As a result, the scanner 10 can perform data communication with the mobile phone 60 once it is in a state where it can perform NFC wireless communication.

The CPU 12 executes the process according to the scan program 26 in the storage unit 14. The scan program 26 is a program for executing the scan process. Hereinafter, the CPU 12 that executes the program, such as the scan program 26, may be simply described by the program name. For example, the description "the scan program 26" may mean "the CPU 12 that executes the scan program 26".

The storage unit 14 is configured by combining a RAM (abbreviation of Random Access Memory), a ROM (abbreviation of Read Only Memory), a flash memory, an HDD (abbreviation of Hard Disk), a buffer included in the CPU 12, and the like. Further, the storage unit 14 includes a data storage area 28. The data storage area 28 is an area for storing image data created by the reading unit 22, data necessary for executing the scan program 26, and the like.

The printer 30 and the printer 31 have the same configuration. Therefore, the configuration of the printer 30 will be described as a representative. The printer 30 includes a CPU (an example of a control unit of the present invention) 32, a storage unit 34, a display 36, an input I / F 38, a network I / F (an example of the first communication unit of the present invention) 40, and a short-range wireless communication I. / F (an example of a second communication unit of the present invention) 42, a recording unit 44, an LED (an example of a notification unit of the present invention) 46, and a sensor 47 are mainly provided. These components are made communicable with each other via the input / output port 48.

The display 36 includes a display surface for displaying various functions of the printer 30. The input I / F 38 is a key for executing each function of the printer 30, and may be, for example, a touch panel integrally configured with the display 36, and a user operation for an icon displayed on the display 36. Accept. In addition to the touch panel, hard keys or the like may be used. When the input I / F 38 is composed of hard keys, the printer 30 accepts an operation on the key corresponding to the icon displayed on the display. The recording unit 44 is a printing mechanism, and examples thereof include an inkjet head. The CPU 32 inputs a drive signal to the recording unit 44, and when the recording unit 44 is an inkjet head, ejects ink from the nozzle according to the input drive signal.

The LED 46 is arranged outside the housing of the printer 30, and is visually recognized by the user when it blinks when energized. The sensor 47 is arranged in the ejection tray of the printed original, and detects the presence or absence of the original in the ejection tray.

The network I / F 40 communicates with an external device and is connected to a scanner 10 existing in the same network as the printer 30. This enables the printer 30 to perform data communication with the scanner 10. Near field communication I / F42 is a Bluetooth (R) (registered trademark of Bluetooth SIG) Low Energy (hereinafter referred to as BLE) type wireless communication based on the IEEE 802.15.1 standard and its equivalent standards. (An example of the second communication method of the present invention) can be performed. As a result, the printer 30 can perform data communication with the mobile phone 60 when it is in a state where it can perform BLE wireless communication.

The CPU 32 executes the process according to the print program 50 in the storage unit 34. The print program 50 is a program for executing a print process. Hereinafter, the CPU 32 that executes the program, such as the print program 50, may be simply described by the program name. For example, the description "the print program 50 is" may mean "the CPU 32 that executes the print program 50".

The storage unit 34 is configured by combining a RAM, a ROM, a flash memory, an HDD, a buffer included in the CPU 32, and the like. Further, the storage unit 34 includes a data storage area (an example of the storage unit of the present invention) 52. The data storage area 52 is an area for storing data and the like necessary for execution in the print program 50.

The configuration of the mobile phone 60 will be described. The mobile phone 60 mainly includes a CPU 62, a storage unit 64, a display 66, an input I / F 68, a short-range wireless communication I / F 70, a proximity wireless communication I / F 71, and a mobile phone communication I / F 72. These components are made communicable with each other via the input / output port 74.

The display 66 has a display surface for displaying various functions of the mobile phone 60. The input I / F 68 is a key for executing each function of the mobile phone 60, and may be, for example, a touch panel integrally configured with the display 66, and the user to the icon displayed on the display 66. Accept operations. In addition to the touch panel, hard keys or the like may be used. When the input I / F 68 is composed of hard keys, the mobile phone 60 accepts an operation on the key corresponding to the icon displayed on the display.

The short-range wireless communication I / F70 is capable of performing Bluetooth wireless communication based on the IEEE 802.15.1 standard and the standard equivalent thereto. As a result, the mobile phone 60 can perform data communication with the printer 30 when it is in a state where it can perform Bluetooth wireless communication.

Near field communication I / F71 is capable of performing NFC type wireless communication based on the international standard of ISO / IEC21481 or ISO / IEC18092. As a result, the mobile phone 60 can perform data communication with the scanner 10 once it is in a state where it can perform NFC wireless communication.

The mobile phone communication I / F 72 is capable of performing wireless communication of the mobile phone communication method with the base station 78. As a result, the mobile phone 60 can perform data communication via the base station 78 when the mobile phone 60 is in a state where wireless communication of the mobile phone communication method can be performed.

The CPU 62 executes the process according to the control application 76 in the storage unit 64. The control application 76 is a program for identifying the printer that executed the printing process. Hereinafter, the CPU 62 that executes the program, such as the control application 76, may be simply described by the program name. For example, the description "the control application 76 is" may mean "the CPU 62 that executes the control application 76".

The storage unit 64 is configured by combining a RAM, a ROM, a flash memory, an HDD, a buffer included in the CPU 62, and the like. Further, the storage unit 64 includes a data storage area 77. The data storage area 77 is an area for storing data and the like necessary for executing the control application 76.

<Print processing using communication system>
In the communication system 1, the scan data scanned by the scanner 10 is transmitted to either the printer 30 or the printer 31, and the printing process of the image based on the scan data is performed in the printer. However, since the user may not know the position of the printer, the communication system 1 uses the beacon of BLE (Bluetooth Low Energy) communication to notify the position of the printer that executes the printing process. Will be done.

The BLE communication is an extremely low power communication, and the BLE communication transmits a beacon signal called an advertisement packet from the terminal on the transmitting side. The beacon signal is composed of only a small amount of data such as symbols necessary for identification, and cannot include instructions such as commands. The beacon signal is not transmitted to a specific device, but is transmitted to an unspecified number of devices at the same time. That is, the beacon signal is broadcast-transmitted.

There are four types of beacon signals, ADV_IND, ADV_DIRECT_IND, ADV_SCAN_IND, and ADV_NONCONN_IND, when classified by PDU TYPE, that is, SNMP (Simple Network Management Protocol) command type. Of the four types of beacon signals, it is preferable to use the ADV_IND beacon signal. Further, the transmission range of the beacon signal can be set to any one of the three types of "Immedit", "Near", and "Far". "Immedit" has a beacon signal transmission range of several centimeters, "Near" has a beacon signal transmission range of several meters, and "Far" has a beacon signal transmission range of several tens of meters. In the communication system 1, it is preferable that the transmission range of the beacon signal is set to "Near".

In the present invention, the above-mentioned beacon signal includes preset unique ID information, and the terminal receiving the beacon signal matches the ID information included in the received beacon signal with its own ID information. If so, a response to the beacon signal is returned. That is, when the source terminal transmitting the beacon signal receives a response to the beacon signal reception, the terminal receiving the beacon signal exists within the transmission range of the beacon signal of the source terminal. There is. Therefore, by adopting a printer that executes printing processing as a terminal that transmits a beacon signal and a mobile phone 60 as a terminal that receives a beacon signal, the printer that executes printing processing is notified to the user. It becomes possible. The beacon transmitted as a response is preferably a connection request packet that requests bidirectional communication from the destination device.

Specifically, when the user holding the mobile phone 60 approaches the scanner 10 in order to execute the scanning process, the mobile phone 60 is brought close to the scanner 10. At this time, information for establishing NFC wireless communication is transmitted and received between the mobile phone 60 and the scanner 10, and NFC wireless communication is established. The information transmitted from the mobile phone 60 to the scanner 10 includes the serial number of the mobile phone 60 as the identification information for identifying the mobile phone 60.

Further, in the scanner 10, the scanning process such as the resolution is set by the user operation. At this time, the image printing process based on the scan data is also set. As the print processing settings, not only the print color, the print original size, and the like, but also the printer that performs the print process is set. At the time of printer setting, the display 16 of the scanner 10 displays a printer selection screen for selecting whether to execute the printing process by the printer 30 or the printer 31. Then, the user selects an arbitrary printer on the printer selection screen. In the following description, the case where the printer 30 is selected on the printer selection screen will be described. Further, in the scanner 10, as a setting of the printing process, the presence / absence of execution of secure printing (stored printing) is also set.

When the start button is operated in the scanner 10 after the setting of the scanning process and the setting of the printing process are completed, the scanning process is executed. Then, the scan data created by the scan process is transmitted to the printer 30 via the network I / F 20. At this time, along with the scan data, the setting information indicating the print processing setting and the unique information including the serial number acquired from the mobile phone 60 are transmitted to the printer 30.

When the printer 30 receives data from the scanner 10, the printer 30 determines whether or not the print process to be executed is secure printing based on the setting information included in the data. If the print process to be executed is not secure printing, the image print process based on the received scan data is executed. As a result, the original on which the image based on the scan data is printed is ejected to the ejection tray.

Further, the printer 30 continuously transmits a beacon signal via the short-range wireless communication I / F 42. The beacon signal includes an identifier, distance information, strength information, unique information, and secure print information. The identifier is identification information for identifying the beacon signal. More specifically, it is a BD address (Bluetooth device address) or the like. In BLE communication, both the beacon signal transmitted and received before shifting to bidirectional communication and the packet after shifting to bidirectional communication include a unique BD address for each Bluetooth device. The distance information is information indicating the transmission range of the beacon signal. The strength information is information indicating the communication strength of the beacon signal. The secure print information is information indicating whether or not the print process executed by the printer 30 is secure printing.

When the beacon signal is transmitted from the printer 30, the user moves to the printer 30 or the printer 31. Incidentally, the printer 30 and the printer 31 are arranged apart from each other to some extent, and the user does not recognize the arrangement position of the printer 30 and the printer 31. That is, the user does not recognize which printer is the printer 30 that executes the printing process. Then, when the user approaches, for example, the printer 30 and enters the transmission range of the beacon signal, the mobile phone 60 receives the beacon signal via the short-range wireless communication I / F 70.

When the mobile phone 60 receives the beacon signal, it extracts unique information from the beacon signal and determines whether or not the serial number included in the unique information matches its own serial number. Then, when the serial number included in the unique information matches its own serial number, the mobile phone 60 transmits a response to the beacon signal to the printer 30 via the short-range wireless communication I / F 70.

Then, when the printer 30 receives the response to the beacon signal, the printer 30 blinks the LED 46. As a result, the user who is close to the printer 30 can recognize the printer 30 that has executed the printing process and can collect the printed document from the printer 30 without hesitation. When the printed document is collected from the ejection tray of the printer 30, the LED 46 stops blinking. Further, the printer 30 stops transmitting the beacon signal in response to receiving the response to the beacon signal.

Incidentally, when the user approaches the printer 31 and does not enter the transmission range of the beacon signal transmitted from the printer 30, the mobile phone 60 does not receive the beacon signal, so that the LED 46 of the printer 30 does not blink. Further, since the printer 31 does not oscillate the beacon signal, it does not receive a response from the mobile phone 60. In such a case, the user recognizes that the printer is not the printer to be executed for the printing process because the LED 46 of the printer 31 does not blink even though the printer 31 is approached, and the user approaches the printer 30 to obtain the printer. The LED 46 of 30 blinks according to the above procedure.

Further, in the printer 30, when it is determined whether or not the print process to be executed is secure print based on the setting information included in the data received from the scanner 10, the print process to be executed is secure print. In some cases, the printer 30 stores the received image data in the data storage area 52 and transmits a beacon signal via the short-range wireless communication I / F 42. At this time, the mobile phone 60 receives the beacon signal in response to the user entering the transmission range of the beacon signal transmitted from the printer 30. Then, the mobile phone 60 transmits a response to the beacon signal via the short-range wireless communication I / F 70. The type of response transmitted from the mobile phone 60 at this time is a connection request packet requesting a shift to bidirectional communication of the BLE method.

Then, when the printer 30 receives the response to the beacon signal, the printer 30 stops transmitting the beacon signal. Then, the printer 30 establishes BLE-type bidirectional communication with the mobile phone 60 in accordance with the bidirectional communication request of the beacon signal transmitted from the mobile phone 60. This makes it possible to send and receive instructions such as commands between the printer 30 and the mobile phone 60. The printer 30 blinks the LED 46 in response to receiving a response to the beacon signal.

Further, in the mobile phone 60, it is determined whether or not the printing process in the printer 30 is secure printing based on the secure printing information included in the beacon signal received from the printer 30. Since this description is for the case where the printing process on the printer 30 is secure printing, it is naturally determined that the printing process on the printer 30 is secure printing. Then, when it is determined that the printing process by the printer 30 is secure printing, a print confirmation screen is displayed on the display 66 of the mobile phone 60. On the print confirmation screen, a comment indicating that secure printing is executed by the printer 30 and an OK button are displayed. The OK button is a button for allowing the execution of secure printing, and when the OK button is operated, the printer 30 executes the printing process.

Specifically, when the OK button is operated on the display 66 of the mobile phone 60, the mobile phone 60 transmits a print instruction to the printer 30 by using the bidirectional communication of the BLE method. When the printer 30 receives a print instruction from the mobile phone 60, the printer 30 executes a print process based on the image data stored in the data storage area 52. Then, the printer 30 ejects the printed document for which the printing process has been completed to the ejection tray, and when the printed document is collected from the ejection tray, the LED 46 stops blinking.

As described above, in the communication system 1, the printer that executes the printing process transmits the beacon signal using the BLE communication, so that the user has entered the transmission range of the beacon signal transmitted from the printer 30. Be identified. Then, when the user enters the transmission range of the beacon signal, the LED 46 blinks. As a result, the user can easily recognize the printer 30 that has executed the printing process and can collect the printed document from the printer 30 without hesitation.

Further, in the communication system 1, the printing process is executed only when the user enters the transmission range of the beacon signal transmitted from the printer that executes the printing process at the time of secure printing. That is, at the time of secure printing, the printing process is executed only when the user approaches the printer that executes the printing process. This makes it possible to ensure the confidentiality of the printed document. Further, at the time of secure printing, a print confirmation screen is displayed on the display 66 of the mobile phone 60, and when the OK button is operated on the screen, the print process is executed. This makes it possible to further ensure the confidentiality of the printed document.

<Scan program, print program, control application>
The above-mentioned printing process is performed by executing the scan program 26 in the CPU 12 of the scanner 10, executing the printing program 50 in the CPU 32 of the printer 30, and executing the control application 76 in the CPU 62 of the mobile phone 60.
Below, the flow when the scan program 26 is executed by the CPU 12 of the scanner 10 using FIG. 2, and the flow when the print program 50 is executed by the CPU 32 of the printer 30 using FIGS. 3 and 4. 5 and 6, respectively, will explain the flow when the control application 76 is executed by the CPU 62 of the mobile phone 60.

When the scan program 26 is executed by the CPU 12 in the scanner 10, the CPU 12 determines whether or not wireless communication between the mobile phone 60 and the NFC method is established, as shown in FIG. 2 (S100). When the wireless communication of the mobile phone 60 and the NFC method is not established (NO of S100), the process of S100 is repeated. On the other hand, when the mobile phone 60 and the NFC system wireless communication are established (YES in S100), the serial number of the mobile phone 60 is acquired by the established NFC system wireless communication (S102).

Next, the CPU 12 determines whether or not the print process for which secure printing is specified is set by operating the input I / F 18 of the scanner 10 (S104). When the print process in which secure printing is specified is set (YES in S104), the information indicating that secure printing is specified is stored (S106). Then, the process proceeds to S108. On the other hand, if the print process for which secure printing is specified is not set (NO in S104), the process in S106 is skipped and the process proceeds to S108.

In S108, the printer selection screen is displayed on the display 16 of the scanner 10 (S108). Then, on the printer selection screen, the CPU 12 determines whether or not the printer to execute the printing process is selected (S110). If no printer is selected on the printer selection screen (NO in S110), the process of S110 is repeated. On the other hand, when the printer is selected on the printer selection screen (YES in S110), the scan process is executed (S112).

Next, the CPU 12 determines whether or not the scan process is completed (S114).
If the scan process is not completed (NO in S114), the process returns to S112. On the other hand, when the scan process is completed (YES in S114), data is transmitted to the printer selected in S110 via the network I / F20 (S116). This data includes the unique information including the serial number acquired in S102, the setting information of the print process, and the scan data created in S112. Further, when the information indicating that secure printing is specified is stored in S106, the setting information includes the information indicating that secure printing is specified. When the processing of S116 is completed, the processing of the scan program 26 is completed.

Further, when the print program 50 is executed by the CPU 32 in the printer 30, the CPU 32 determines whether or not data has been received from the scanner 10 as shown in FIG. 3 (S120). When no data is received from the scanner 10 (NO in S120), the process of S120 is repeated. On the other hand, when data is received from the scanner 10 (YES in S120), the CPU 32 determines whether or not the image printing process based on the scan data is secure printing (S122).

When the image printing process based on the scan data is secure printing (YES in S122), transmission of the beacon signal (advertisement packet) is started via the short-range wireless communication I / F42 (S124). ). Then, it is determined by the CPU 32 whether or not the response to the beacon signal is received via the short-range wireless communication I / F 42 (S126). If no response to the beacon signal has been received (NO in S126), the process of S126 is repeated. On the other hand, when the response to the beacon signal is received (YES in S126), the LED 46 blinks (S128). As described above, the response received here is a connection request packet requesting bidirectional communication. Next, the CPU 32 stops the transmission of the beacon signal, and establishes the BLE-type bidirectional communication with the mobile phone 60 according to the request of the connection request packet received in S126 (S130). Then, the process proceeds to S132.

Next, in S132, the LED 46 blinks (S130). Then, it is determined by the CPU 32 whether or not the print instruction is received from the mobile phone 60 by the two-way communication of the BLE method (S132). When the print instruction is not received from the mobile phone 60 (NO in S132), the process of S132 is repeated. On the other hand, when the print instruction is received from the mobile phone 60 (YES in S132), the print process is executed (S134).

Subsequently, the CPU 32 determines whether or not the printing process is completed (S136).
If the printing process is not completed (NO in S136), the process returns to S134. On the other hand, when the printing process is completed (YES in S136), the CPU 32 determines whether or not the printed original is collected from the ejection tray (S138). Whether or not the printed document is collected from the ejection tray is determined based on the detection value of the sensor 47. If the printed document has not been collected from the ejection tray (NO in S138), the process of S138 is repeated. On the other hand, when the printed document is collected from the ejection tray (YES in S138), the LED 46 is turned off (S140). Then, the processing of the print program 50 is completed.

If the image printing process based on the scan data is not secure printing in S122 (YES in S122), the printing process is executed (S142). Then, whether or not the printing process is completed is determined by the CPU 32 (S144). If the printing process is not completed (NO in S144), the process returns to S142. On the other hand, when the printing process is completed (YES in S144), the transmission of the beacon signal is started (S146).

Next, it is determined by the CPU 32 whether or not the response to the beacon signal is received via the short-range wireless communication I / F 42 (S148). If no response to the beacon signal has been received (NO in S148), the process of S148 is repeated. On the other hand, when the response to the beacon signal is received (YES in S148), the transmission of the beacon signal is stopped (S150). Then, the LED 46 blinks (S152). Subsequently, the CPU 32 determines whether or not the printed document is collected from the ejection tray (S154). If the printed document has not been collected from the ejection tray (NO in S154), the process of S154 is repeated. On the other hand, when the printed original is collected from the ejection tray (YES in S154), the LED 46 is turned off (S140), and the processing of the print program 50 is completed.

Further, when the control application 76 is executed by the CPU 62 in the mobile phone 60, as shown in FIG. 5, the CPU 62 determines whether or not the wireless communication between the scanner 10 and the NFC method is established (S160). .. When the wireless communication between the scanner 10 and the NFC method is not established (NO in S160), the process of S160 is repeated. On the other hand, when the wireless communication of the scanner 10 and the NFC system is established (YES in S160), the serial number of the scanner 10 is transmitted by the established wireless communication of the NFC system (S162), and the process proceeds to S164. Then, the CPU 62 shifts the mobile phone 60 to a state in which it can receive the beacon signal (S164). That is, the short-range wireless communication I / F 70 is energized.

Next, whether or not the beacon signal has been received is determined by the CPU 62 (S166). When the beacon signal is not received (NO in S166), the process of S166 is repeated. On the other hand, when the beacon signal is received (YES in S166), the CPU 62 determines whether or not the serial number included in the beacon signal matches its own serial number (S168). If the serial number included in the beacon signal does not match its own serial number (NO in S168), the process returns to S166.

On the other hand, when the serial number included in the beacon signal matches its own serial number (YES in S168), the response to the beacon signal is transmitted via the short-range wireless communication I / F70 (S170). The beacon transmitted as a response is a connection request packet. Next, it is determined whether or not the printing process executed by the printer is secure printing (S172). As described above, this determination is made based on the secure print information included in the beacon signal received from the printer.

When the print process executed by the printer is secure printing (YES in S172), it is determined whether bidirectional communication between the printer and the BLE method has been established according to the request of the connection request packet, which is the response received in S170. (S174), if established, proceed to (YES in S174) S176. If bidirectional communication has not been established yet (NO in S174), the determination is repeated until bidirectional communication is established. It should be noted that the fact that the other party that established the two-way communication is the printer that transmitted the response in S170 means that the identification information included in the beacon signal determined to have been received in S166 is included in the packet received after the two-way communication is established. It can be judged by the fact that it is.

In S176, a print confirmation screen is displayed on the display 66 of the mobile phone 60 (S176). Then, whether or not the OK button is operated on the print confirmation screen is determined by the CPU 62 (S178). If the OK button is not operated on the print confirmation screen (NO in S178), the process of S178 is repeated. On the other hand, when the OK button is operated on the print confirmation screen (YES in S178), the print instruction is transmitted to the printer by bidirectional communication in the BLE method (S180). Then, the processing of the control application 76 ends. Further, in S172, when the print process executed by the printer is not secure printing (NO in S174), the processes of S176 to S180 are skipped, and the process of the control application 76 ends.

Even when the print process executed by the printer is not secure printing, the response transmitted in S170 is a connection request packet. However, in the BLE method, the device that has received the connection request packet does not necessarily have to comply with the connection request, and in this embodiment as well, the printer 30 requests the connection request packet received in S148 shown in FIG. Ignoring it, the process ends without establishing bidirectional communication. Therefore, if it is determined in S172 that the printing is not secure, the processing of the control application 76 can be terminated by the CPU 62.

The CPU 32 that executes S120 is an example of the first receiving means. The CPU 32 that executes S134 and S142 is an example of the image recording means. The CPU 32 that executes S124 and S146 is an example of the first transmission means. The CPU 32 that executes S126 and S148 is an example of the second receiving means. The CPU 32 that executes S128 and S152 is an example of the first notification means.

<Second Embodiment>
The operation of the communication system 1 according to the second embodiment will be described. Since the communication system 1 in the second embodiment has the same configuration as the communication system 1 in the first embodiment, the description of the configuration of the communication system 1 in the second embodiment will be omitted.

In the communication system 1 of the first embodiment, the printer that executes the printing process transmits the beacon signal, but in the communication system 1 of the second embodiment, the mobile phone 60 transmits the beacon signal. Specifically, when the scan process is executed by the scanner 10, the scan data, the setting information indicating the setting of the print process, and the unique information including the serial number acquired from the mobile phone 60 are displayed as in the first embodiment. , Sent to the printer performing the print process. Then, the printer that has received the scan data or the like is in a state where the beacon signal can be received. That is, the short-range wireless communication I / F 42 of the printer that has received the scan data or the like is energized, and the data can be received via the short-range wireless communication I / F 42.

On the other hand, in the mobile phone 60, the beacon signal is continuously transmitted. The beacon information transmitted from the mobile phone 60 includes an identifier, distance information, strength information, and unique information, and the unique information includes the serial number of the mobile phone 60. Therefore, when a user having a mobile phone 60 approaches a printer that has received scan data or the like, for example, the printer 30, and the printer 30 is within the transmission range of the beacon signal transmitted by the mobile phone 60, the printer 30 is charged. , Receives a beacon signal via short-range wireless communication I / F42.

The printer 30 extracts unique information from the received beacon signal, and determines whether or not the serial number included in the unique information matches the serial number of the unique information included in the data received from the scanner 10. Then, when the serial number included in the unique information of the beacon information matches the serial number of the unique information included in the data received from the scanner 10, the LED 46 blinks. As a result, even in the communication system 1 of the second embodiment, the user can easily recognize the printer 30 that has executed the printing process and can collect the printed original from the printer 30 without hesitation. When the printer 30 receives the beacon signal, the printer 30 transmits a response to the beacon signal to the mobile phone 60 via the short-range wireless communication I / F 42. As a result, the mobile phone 60 stops transmitting the beacon signal in response to receiving the response to the beacon signal. Note that this response includes secure print information.

Further, also in the communication system 1 of the second embodiment, the print process is executed only when the user approaches the printer that executes the print process during secure printing. Specifically, the mobile phone 60 receives a response to the beacon signal, stops transmitting the beacon signal, and then exchanges the BLE communication for transmitting the beacon signal with the printer 30 in a BLE manner. Establish communication. That is, when it is confirmed that the printer 30 is located within the transmission range of the beacon signal, the mobile phone 60 establishes the BLE type bidirectional communication. This makes it possible to send and receive instructions such as commands between the printer 30 and the mobile phone 60.

Upon receiving the response to the beacon signal emitted by the mobile phone 60, the mobile phone 60 determines whether or not secure printing is set as the printing process by the printer 30 based on the secure printing information included in the response. When secure printing is set as the printing process by the printer 30, the printer 30 and the BLE method wireless communication are established. Then, a print confirmation screen is displayed on the display 66 of the mobile phone 60. Then, when the OK button is operated on the print confirmation screen, a print instruction is transmitted to the printer 30. As a result, the printer 30 performs the printing process. As described above, also in the communication system 1 of the second embodiment, since the printing process is executed only when the user approaches the printer that executes the printing process, it is possible to ensure the confidentiality of the printed document. Become.

Hereinafter, the flow when the print program 50 is executed in the CPU 32 of the printer 30 in order to execute the process of the second embodiment described above will be described with reference to FIGS. 7 and 8, and the CPU 62 of the mobile phone 60 will be described. The flow when the control application 76 is executed will be described with reference to FIGS. 9 and 10. However, the flow executed by the CPU 32 of the printer 30 of the second embodiment and the CPU 62 of the mobile phone 60 is common to the flow executed by the CPU 32 of the printer 30 of the first embodiment and the CPU 62 of the mobile phone 60. Since there are processes, common processes will be briefly described. Further, since the scan program 26 executed by the CPU 12 of the scanner 10 of the second embodiment is the same as the scan program 26 executed by the CPU 12 of the scanner 10 of the first embodiment, description and illustration will be omitted.

When the print program 50 is executed by the CPU 32 in the printer 30, the CPU 32 determines whether or not data has been received from the scanner 10 as shown in FIG. 7 (S200). When no data is received from the scanner 10 (NO in S200), the process of S200 is repeated. On the other hand, when data is received from the scanner 10 (YES in S200), the state shifts to a state in which the beacon signal can be received (S202). Then, whether or not the image printing process based on the scan data is secure printing is determined by the CPU 32 (S204).

When the image printing process based on the scan data is secure printing (YES in S204), the CPU 32 determines whether or not the beacon signal is received via the short-range wireless communication I / F 42 (S206). .. When the beacon signal is not received (NO in S206), the process of S206 is repeated. On the other hand, when the beacon signal is received (YES in S206), the response to the beacon signal is transmitted via the short-range wireless communication I / F 42 (S207). The response to the beacon signal includes information for specifying whether or not the printing process is secure printing. Also, this response is a connection request packet.

Subsequently, it is determined whether or not the BLE-type two-way communication with the mobile phone 60 has been established (S208). If it is determined that it has been established (YES in S208), the process proceeds to S210, and if it is determined that it has not been established yet (NO in S208), the determination in S208 is repeated. The fact that the other party that has established bidirectional communication is the mobile phone 60 that transmitted the response in S207 means that the packet received after establishing bidirectional communication contains the identification information included in the beacon signal determined to have been received in S206. It can be judged by being included. Then, the processing after S210 is executed, but since the processing after S210 is the same as the processing after S130 shown in FIG. 4, the description thereof will be omitted.

Further, when the printing process of the image based on the scan data is not secure printing in S204 (NO in S204), the printing process is executed (S222). Then, whether or not the printing process is completed is determined by the CPU 32 (S224). If the printing process is not completed (NO in S224), the process returns to S222. On the other hand, when the printing process is completed (YES in S224), the CPU 32 determines whether or not the beacon signal is received via the short-range wireless communication I / F 42 (S226). When the beacon signal is not received (NO in S226), the process of S226 is repeated.

On the other hand, when the beacon signal is received (YES in S226), the CPU 32 determines whether or not the serial number included in the beacon signal matches the serial number included in the data received from the scanner 10. (S227). If the serial number included in the beacon signal does not match the serial number included in the data received from the scanner 10 (NO in S227), the process returns to S226. On the other hand, when the serial number included in the beacon signal matches the serial number included in the data received from the scanner 10 (YES in S227), the response to the beacon signal is sent via the short-range wireless communication I / F42. Send (S228). Then, the processing after S230 is executed, but since the processing after S230 is the same as the processing after S152 shown in FIG. 3, the description thereof will be omitted. The response transmitted in S228 does not have to be a connection request packet because it is not necessary to establish bidirectional communication thereafter. However, as described above, in the BLE method, the device that has received the connection request packet does not necessarily have to comply with the connection request, and therefore may be a connection request packet.

Further, when the control application 76 is executed by the CPU 62 in the mobile phone 60, as shown in FIG. 9, the CPU 62 determines whether or not the wireless communication between the scanner 10 and the NFC method is established (S240). .. When the wireless communication between the scanner 10 and the NFC method is not established (NO in S240), the process of S240 is repeated. On the other hand, when the wireless communication of the scanner 10 and the NFC method is established (YES in S240), the transmission of the beacon signal is started via the short-range wireless communication I / F70 (S244).

Next, it is determined by the CPU 62 whether or not the response to the beacon signal is received via the short-range wireless communication I / F70 (S246). If no response to the beacon signal has been received (NO in S246), the process of S246 is repeated. On the other hand, when the response to the beacon signal is received (YES in S246), the CPU 62 determines whether or not the printing process is secure printing based on the information included in the response to the beacon signal. (S248). If the print process is not secure printing (NO in S248), the process of the control application 76 ends.

On the other hand, when the printing process is secure printing (YES in S248), the CPU 62 stops the transmission of the beacon signal and performs BLE-type bidirectional communication according to the response (connection request packet) determined to have been received in S246. Establish (S250). Proceed to S256. Since the processing after S256 is the same as the processing after S176 shown in FIG. 6, the description thereof will be omitted.

The CPU 32 that executes S200 is an example of the first receiving means. The CPU 32 that executes S214 and S222 is an example of the image recording means. The CPU 32 that executes S206 and S226 is an example of the third receiving means. The CPU 32 that executes S207 and S228 is an example of the second transmission means. The CPU 32 that executes S220 and S230 is an example of the second notification means. The CPU 32 that executes S202 is an example of the communication state changing means.

The present invention is not limited to the above embodiment, and can be carried out in various embodiments with various modifications and improvements based on the knowledge of those skilled in the art. Specifically, in the above embodiment, the serial number of the mobile phone 60 is adopted as the identification information, but various information can be adopted as the identification information. Specifically, for example, the scanner 10 creates a one-time ID, and the one-time ID is transmitted to a printer to be executed for printing processing together with scan data and the like. As a result, the printer includes the one-time ID as identification information in the beacon signal and transmits the beacon signal to the mobile phone 60. On the other hand, the scanner 10 transmits the created one-time ID not only to the printer but also to the mobile phone 60. The mobile phone 60 that has received the one-time ID determines whether or not the one-time ID included in the beacon signal matches the one-time ID received from the scanner 10. Then, when the one-time ID included in the beacon signal matches the one-time ID received from the scanner 10, the mobile phone 60 transmits a response to the beacon signal to the printer. As described above, even if the one-time ID created by the scanner 10 is adopted as the identification information, the same effect as that of the above embodiment can be obtained.

Further, for example, in the above embodiment, the LED 46 of the printer to be executed by the print process is blinked in order to notify that the printer is the printer to be executed by the print process, but the display 36 is blinking, the sound is generated by the speaker, and the like. May notify that the printer is the target of printing processing.

Further, for example, in the above embodiment, the scan process is executed by the scanner 10, and the scan data created by the scan process is transmitted to the printer to be executed by the print process, but is stored in a PC or the like. The image data may be transmitted to the printer to be executed the printing process.

Further, in the above embodiment, secure printing is executed on condition that a print instruction is transmitted from the mobile phone 60 to the printer 30, but Bluetooth wireless communication is performed between the printer 30 and the mobile phone 60. Secure printing may be performed provided that it is established. Further, for example, secure printing can be executed on condition that predetermined authentication information or the like is input to the input I / F 38 of the printer 30.

Further, in the above embodiment, the short-range wireless communication I / F is capable of both bidirectional communication and beacon transmission. However, in the first embodiment, the short-range wireless communication I / F uses a module capable of only transmitting a beacon signal, and the CPU transmits and stops the beacon signal, updates the information contained in the beacon signal, and the like. You may go.

Further, in the above embodiment, an example in which the processes shown in FIGS. 2 to 10 are executed by the CPU 12 or the like has been described, but these processes are not limited to the CPU 12 or the like and may be executed by an ASIC or another logic integrated circuit. Alternatively, these processes may be executed by the cooperation of a CPU or the like, an ASIC, or another logic integrated circuit.

10: Scanner (image output device)
30: Printer (image recording device)
32: CPU (control unit)
40: Network I / F (1st communication unit)
42: Short-range wireless communication I / F (second communication unit)
46: LED (notification unit)
52: Data storage area (storage unit)
60: Mobile phone (external terminal)

Claims (10)

With the first communication unit that performs communication based on the first communication method,
A second communication unit that performs communication using a communication method different from that of the first communication and based on a second communication method that is short-range wireless communication.
Control unit and
An image recording device equipped with
The control unit
A first receiving means for receiving identification information from the information processing device via the first communication unit to identify a communication destination device with which the image recording device should communicate.
A first transmitting means that broadcasts a signal including the identification information received by the first receiving means via the second communication unit.
A mobile phone that is a communication destination device identified by the identification information received by the first receiving means via the second communication unit in response to a broadcast of the signal including the identification information by the first transmitting means. The second receiving means to receive from the terminal and
An image recording means for recording an image corresponding to the identification information on printing paper based on receiving the reply by the second receiving means, and an image recording means.
An image recording device characterized by having. The first transmitting means and the second receiving means are unidirectional communication, respectively.
The image recording means is
After receiving the reply by the second receiving means, the image is recorded on a printing paper on condition that bidirectional communication with the mobile terminal based on the second communication method is established. The image recording apparatus according to claim 1. The control unit
In response to receiving the reply to the identification information from the mobile terminal by the second receiving means, the transmission of the identification information received by the first receiving means via the second communication unit is stopped. The image recording apparatus according to claim 1 or 2. The image recording device according to any one of claims 1 to 3, wherein the identification information is information for identifying one mobile terminal capable of communication based on the second communication method. The second communication method is Bluetooth Low Energy.
The image recording device according to any one of claims 1 to 4, wherein the first transmission means transmits the beacon based on Bluetooth Low Energy including the identification information. The image recording device includes a notification unit.
The control unit
The image recording apparatus according to any one of claims 1 to 5, further comprising a first notification means that performs notification by the notification unit based on the reception of the reply by the second reception means. .. With the first communication unit that performs communication based on the first communication method,
A second communication unit that performs communication using a communication method different from that of the first communication and based on a second communication method that is short-range wireless communication.
Notification unit and
Control unit and
An image recording device equipped with
The control unit
A first receiving means for receiving identification information from the information processing device via the first communication unit to identify a communication destination device with which the image recording device should communicate.
A third receiving means for receiving a signal broadcast from a mobile terminal via the second communication unit, and a third receiving means.
When the identification information is included in the signal received by the third receiving means, the mobile terminal, which is the communication destination device identified by the identification information, is connected to the mobile terminal via the second communication unit. A second transmission means for transmitting a reply to the reception of a signal containing the identification information, and
When the identification information is included in the signal received by the third receiving means, the second notifying means for notifying by the notifying unit and the second notifying means.
An image recording means for recording an image corresponding to the identification information on printing paper when the identification information is included in the signal received by the third receiving means.
An image recording device characterized by having. The second transmitting means and the third receiving means are unidirectional communication, respectively.
The image recording means is
After receiving the identification information from the mobile terminal by the third receiving means, the image is recorded on printing paper on condition that bidirectional communication with the mobile terminal based on the second communication method is established. The image recording apparatus according to claim 7, wherein the image recording apparatus is to be used. The control unit
A claim comprising a communication state changing means for changing a communication based on a second communication method via the second communication unit into a possible state after receiving the identification information by the first receiving means. 7. The image recording apparatus according to 7. The identification information received by the third receiving means is included in the beacon and received together with the distance information indicating the distance of the mobile terminal from the image recording device.
The second transmission means is
The image recording apparatus according to any one of claims 7 to 9, wherein when the distance indicated by the distance information is shorter than the threshold value, the reply to the reception of the identification information is transmitted.

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