JP2019046345A - Printer and control method of printer - Google Patents

Abstract

To provide a printer capable of avoiding harmful effects due to forgetting to disconnect the wireless connection.SOLUTION: The printer comprises: a communication control unit which is configured to establish a radio connection based on the predetermined communication standard for transferring printing data with an imaging apparatus; and a beacon reception part for receiving a beacon signal emitted from the imaging apparatus. The communication control unit is configured so as to, after completing printing based on the printing data transferred from the imaging apparatus via the radio connection, detect the distance up to the imaging apparatus on the basis of the beacon signal received by the beacon reception part, and when the distance is a predetermined reference distance or more, turn off the radio connection with the imaging apparatus.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a printing apparatus and a control method of the printing apparatus.

  It is known that a digital still camera (DSC) and a printer are connected using a physical interface of a universal serial bus (USB), and one-to-one communication is performed according to a so-called PictBridge standard (see Patent Document 1). . Moreover, it is also possible to use a wireless environment instead of a wired environment (see the above-mentioned Document 1) for connecting DSCs and printers according to the PictBridge standard.

Unexamined-Japanese-Patent No. 2006-285613

  After establishing a wireless connection between the DSC and the printer according to the PictBridge standard, the user operates the DSC to perform the wireless connection when the desired processing (processing for transmitting an image photographed by the DSC to the printer and causing the printer to print) is completed. Need to cut. However, the user may forget to disconnect the wireless connection. Unnecessarily continuing the wireless connection increases power consumption in both devices and limits the use of other features of the printer.

  The present invention has been made in view of the above-mentioned problems, and provides a printing apparatus and a control method of the printing apparatus which are useful for avoiding adverse effects due to forgetting to disconnect the wireless connection.

  In one aspect of the present invention, a printing apparatus, a communication control unit for establishing a wireless connection conforming to a predetermined communication standard for transfer of print data with an imaging apparatus, and a beacon transmitted by the imaging apparatus A beacon receiving unit for receiving a signal, and the communication control unit is configured to receive the beacon received by the beacon receiving unit after completion of printing based on the print data transferred from the imaging device via the wireless connection. A distance to the imaging device is detected based on a signal, and the wireless connection with the imaging device is disconnected when the distance is equal to or greater than a predetermined reference distance.

  According to the configuration, when the printing device recognizes that the distance to the imaging device is equal to or greater than the reference distance after the printing is completed, the wireless connection based on the predetermined communication standard established with the imaging device Cut. That is, even if the user forgets to disconnect the wireless connection after printing is completed, the wireless connection is automatically disconnected, and the adverse effect of forgetting to disconnect the wireless connection is avoided.

In one aspect of the present invention, the communication control unit may disconnect the wireless connection with the imaging device when a time during which the distance is equal to or longer than the reference distance continues for a predetermined reference time or longer. .
According to this configuration, it is possible to prevent the wireless connection from being disconnected immediately when the imaging device and the printing device are temporarily separated by the reference distance or more after the printing is completed.

In one aspect of the present invention, the communication control unit disconnects the wireless connection with the imaging device when the distance becomes equal to or greater than the reference distance after the distance is less than the reference distance. Good.
According to the configuration, when the distance between the imaging device and the printing device is reduced once after printing is completed and then separated, that is, if the user (the user who carries the imaging device) moves away after collecting the printing result from the printing device If it can be guessed, the wireless connection can be disconnected automatically.

In one aspect of the present invention, the communication control unit is configured to capture the image when a time during which the distance is equal to or longer than the reference distance continues after the distance becomes smaller than the reference distance. The wireless connection with the device may be disconnected.
According to the configuration, the wireless connection can be automatically disconnected when the distance between the imaging device and the printing device is reduced once after printing and the separated time continues for the reference time or more.

In one aspect of the present invention, when the communication control unit determines that the distance is equal to or greater than the reference distance after the distance is less than a second reference distance shorter than the reference distance, the communication control unit The wireless connection may be disconnected.
According to the configuration, the wireless connection can be automatically disconnected when the imaging apparatus and the printing apparatus come close to each other after printing is completed and then sufficiently separated.

In one aspect of the present invention, the beacon receiving unit may receive the beacon signal conforming to the Bluetooth Low Energy (BLE) communication standard.
According to this configuration, the printing apparatus can easily and appropriately detect the distance to the imaging apparatus based on the beacon signal transmitted from the imaging apparatus according to the BLE communication standard.

  The technical idea of the present invention is realized by something other than a printing apparatus. For example, a method (a control method of the printing apparatus) including each process (each process) to be executed by the printing apparatus, a program which causes the computer to execute the method, and a computer readable storage medium storing the program As an invention. Further, a system including an imaging device and a printing device is also realized as an invention.

The figure which shows the structural example of a system typically. 5 is a flowchart showing an automatic cutting process after printing according to the first embodiment. The figure which shows an example of an advertise packet. 10 is a flowchart showing an automatic cutting process after printing according to a second embodiment. 10 is a flowchart showing an automatic cutting process after printing according to a third embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Each drawing is merely an example for describing the present embodiment.

1. Overview of device configuration:
FIG. 1 schematically illustrates an exemplary configuration of a system 10 including a printer 20 and a DSC 30. The printer 20 corresponds to the printing apparatus of the present invention, and the DSC 30 corresponds to an imaging apparatus. The printer 20 is a device having at least a printing function, and may be a multifunction peripheral having various functions such as a copying function and a facsimile function in addition to the printing function. System 10 may be referred to as a printing system, a wireless communication system, or the like.

  In the example of FIG. 1, the printer 20 includes a control unit 21, a wireless communication unit 22, a beacon communication unit 23, a display unit 24, an operation reception unit 25, a printing unit 26 and the like. The control unit 21 appropriately includes, for example, one or more ICs including the CPU 21a, the ROM 21b, the RAM 21c, and the like, and other memories. In the control unit 21, the CPU 21a controls the behavior of the printer 20 by executing arithmetic processing according to a program stored in the ROM 21b or the like using the RAM 21c or the like as a work area. The control unit 21 incorporates a program (firmware) and executes control in accordance with the program. The control unit 21 executes the control method according to the present invention.

  The display unit 24 is a means for displaying visual information, and is configured of, for example, a liquid crystal display (LCD), an organic EL display, or the like. The display unit 24 may be configured to include a display and a drive circuit for driving the display. The operation accepting unit 25 is a means for accepting an operation by the user, and is realized by, for example, a physical button, a touch panel, a keyboard, or the like. Of course, the touch panel may be realized as one function of the display unit 24. The display unit 24 and the operation reception unit 25 can be collectively referred to as an operation panel or the like.

  The printing unit 26 is a mechanism that executes printing on a print medium based on print data under the control of the control unit 21. The printing method that can be adopted by the printing unit 26 is various, such as an inkjet method and an electrophotographic method, and is not particularly limited.

  The wireless communication unit 22 is an interface (IF) corresponding to wireless local area network (LAN) communication. The control unit 21 and the wireless communication unit 22 in the printer 20 correspond to the communication control unit of the present invention. The wireless communication unit 22 can execute wireless communication in an infrastructure mode via an external access point (AP) (not shown), specifically, wireless communication in accordance with the Wi-Fi scheme. Also, the wireless communication unit 22 may be able to execute direct wireless communication with a communication destination not via an external AP, specifically, wireless communication according to the Wi-Fi Direct system. The Wi-Fi method and the Wi-Fi Direct method are wireless communication methods according to the group of IEEE 802.11 standards that are wireless LAN standards, respectively, and are certified by the Wi-Fi Alliance.

  The wireless communication unit 22 functions as an AP, that is, as a group owner in wireless communication when performing wireless communication according to the Wi-Fi Direct system. In this case, the wireless communication unit 22 itself forms a wireless LAN. The wireless communication unit 22 when functioning as an AP has network identification information (SSID: Service Set Identifier) for identifying a wireless LAN formed by itself and a password necessary for connection to the wireless LAN.

  The beacon communication unit 23 is an IF capable of executing wireless communication of low power consumption as compared to wireless communication of the Wi-Fi system or the like. Here, it is assumed that the beacon communication IF 23 can execute wireless communication (BLE communication) conforming to the BLE communication standard. The communication standard to which the beacon communication unit 23 conforms may be a Bluetooth communication standard before Bluetooth 3.0.

  The DSC 30 includes a control unit 31, a wireless communication unit 32, a beacon communication unit 33, a display unit 34, an operation reception unit 35, an imaging unit 36, and the like. The control unit 31 is configured to appropriately include, for example, one or more ICs having a CPU 31a, a ROM 31b, a RAM 31c, and the like, and other memories. In the control unit 31, the CPU 31a controls the behavior of the DSC 30 by executing arithmetic processing according to a program stored in the ROM 31b or the like using the RAM 31c or the like as a work area.

  The description of the display unit 24 and the operation reception unit 25 applies to the description of the display unit 34 and the operation reception unit 35. The imaging unit 36 includes an imaging device, a lens, and other optical systems, as is known.

  Like the wireless communication unit 22 of the printer 20, the wireless communication unit 32 is an IF compatible with wireless LAN communication, and is connected via an external AP (the wireless communication unit 22 of the printer 20 that functions as an AP or AP not shown). Wireless communication can be performed. Therefore, when the wireless communication unit 32 connects to the wireless communication unit 22 using an SSID and a password corresponding to the wireless LAN formed by the wireless communication unit 22 functioning as an AP, the printer 20 (master device of the wireless LAN Direct wireless communication can be performed between the wireless communication unit 22) and the DSC 30 (wireless communication unit 32) as a slave unit of the wireless LAN.

Like the beacon communication unit 23 of the printer 20, the beacon communication unit 33 is an IF capable of executing wireless communication of low power consumption as compared to wireless communication of the Wi-Fi system or the like. Here, beacon communication IF33 presupposes that BLE communication can be performed. The communication standard to which the beacon communication unit 33 conforms may be the Bluetooth communication standard prior to Bluetooth 3.0.
The following describes some possible embodiments of such an arrangement.

2. First embodiment:
FIG. 2 is a flowchart showing the post-printing automatic cutting process according to the first embodiment. In FIG. 2, the processing on the DSC 30 side and the processing on the printer (PRT) 20 side by side are shown.

  First, the DSC 30 and the printer 20 establish a wireless connection (PictBridge wireless connection) in accordance with a predetermined communication standard (PictBridge standard) for transfer of print data, between each other (steps S100 and S200). Here, it is assumed that the DSC 30 and the printer 20 are devices compliant with the Digital Photo Solutions for Imaging Devices (DPS) standard. In steps S100 and S200, after the control unit 31 of the DSC 30 and the control unit 21 of the printer 20 control the wireless communication units 22 and 32, respectively, to connect to the wireless LAN, MAC (Media Access Control) of the other party via the wireless LAN 2.) Establish peer-to-peer connection relationships through address acquisition and IP addressing negotiation. Furthermore, a PTP-IP session is established with the DSC 30 whose connection relationship has been determined under the initiative of the control unit 21 (PTP-IP (Picture Transfer Protocol over TCP / IP networks) Initiator). The wireless LAN assumed here may be a wireless LAN formed by an external AP for the DSC 30 and the printer 20, or may be a wireless LAN formed by the printer 20 (the wireless communication unit 22) as an AP.

  Regarding establishment of such PictBridge wireless connection (PTP-IP session in a wireless LAN environment), CIPA DCG-006-2012 DSP over IP implementation guidelines (general incorporated corporation Camera and Imaging Products Industry Association February 2012 issue) is also appropriately Please refer to it. Step S200 corresponds to a connection step of establishing PictBridge wireless connection on the printer 20 side.

  After the PictBridge wireless connection is established, the user operates the operation receiving unit 35 of the DSC 30, and inputs a print start instruction for an image file arbitrarily selected from the image file group stored in the DSC 30 (FIG. 2, See the two-dotted arrow).

  The control unit 31 of the DSC 30 receives a print start instruction from the user. The control unit 31 generates print data for causing the printer 20 to print the image file instructed by the print start instruction, and a print command including the print data is transmitted from the wireless communication unit 32 through the established PictBridge wireless connection. To the printer 20 (wireless communication unit 22) (step S110). The format of the print data is not particularly limited here. Further, the image file itself instructed by the print start instruction may be expressed as print data.

  The control unit 21 of the printer 20 executes printing based on the print command received via the wireless communication unit 22 (step S210). That is, based on the print data included in the print command, the print unit 26 is caused to execute printing. Needless to say, the control unit 21 can cause the printing unit 26 to execute printing based on the print data after appropriately executing conversion of the print data into a format that can be interpreted by the printing unit 26 and the like.

  After completion of printing, the control unit 21 transmits a print completion notification from the wireless communication unit 22 to the DSC 30 (wireless communication unit 32) via the established PictBridge wireless connection (step S220).

  The control unit 31 of the DSC 30 recognizes that the printing corresponding to the print command transmitted in step S110 is completed by receiving the print completion notification via the wireless communication unit 32, and the printing on the display unit 34 is completed. The display of the effect (print end display) is made (step S120).

  The user recognizes the end of printing by looking at the print end display on the display unit 34 of the DSC 30, recognizes the end of printing, moves to the place where the printer 20 is installed, and collects the print result (printed matter) output from the printer 20 Do. At this time, under normal circumstances, the user operates the DSC 30 and instructs the DSC 30 to disconnect the established PictBridge wireless connection which has become unnecessary to be maintained. Thereby, a sequence for disconnecting the established PictBridge wireless connection is executed, and the PictBridge wireless connection between the DSC 30 and the printer 20 is disconnected.

  However, the user may forget to disconnect the established PictBridge wireless connection. Therefore, in the present embodiment, the processing after step S230 is performed as a countermeasure against the disconnection. In other words, if the user disconnects the established PictBridge wireless connection after printing is finished, the processing after step S230 is forcibly terminated even during the process.

  After step S220, in step S230, the control unit 21 of the printer 20 determines whether or not the DSC 30 approaches itself (printer 20) based on the beacon signal transmitted by the DSC 30 of the partner of the established PictBridge wireless connection. Determine

In the DSC 30, basically, when the power is on, the beacon communication unit 33 transmits (broadcasts) the beacon signal by BLE communication at predetermined time intervals.
FIG. 3 illustrates an advertise packet ADP transmitted by the beacon communication unit 33 in BLE communication. Advertise packet ADP is a specific example of a beacon signal. In FIG. 3, the header and the like of the advertise packet ADP are omitted. As shown in FIG. 3, the advertise packet ADP includes a transmission source address D1, individual identification information D2, a signal strength value D3, and the like.

  The transmission source address D1 is the Bluetooth device address of the DSC 30, which is the transmission source of the advertise packet ADP. The individual identification information D2 is identification information for uniquely identifying the DSC 30, which is a transmission source of the advertise packet ADP, and is, for example, a MAC address. The signal strength value D3 is a value representing the received signal strength at a position separated by a predetermined reference distance. The signal strength value D3 may be referred to as a threshold of received signal strength.

  On the printer 20 side, the control unit 21 repeatedly receives, via the beacon communication unit 23, the beacon signal (advertise packet ADP) repeatedly transmitted by the DSC 30 as described above. That is, the control unit 21 receives the advertise packet ADP transmitted from the surrounding devices by the BLE communication by executing the scan of the advertisement packet with respect to the signal that can be recognized via the beacon communication unit 23. The control unit 21 receives the advertise packet ADP when it recognizes, in the header of the signal recognized through the beacon communication unit 23, for example, specific information indicating an advertisement packet defined by the BLE communication format. Can. When the individual identification information D2 (MAC address) included in the received advertise packet ADP matches the individual identification information (MAC address) of the DSC 30 of the other party, the received advertisement packet ADP is the one of the other party. It can be seen that the beacon signal is transmitted from the DSC 30. It can be said that the beacon communication unit 23 and the control unit 21 of the printer 20 function as a beacon receiving unit in that the beacon signal transmitted by the DSC 30 is received as described above.

The control unit 21 detects the distance (inter-device distance) between the DSC 30 of the other party and the printer 20 itself based on the beacon signal transmitted by the DSC 30 of the other party (detection step).
For example, the control unit 21 determines the received signal strength [RSSI (Received Signal Strength Indication)] of the advertise packet ADP when the beacon communication unit 23 receives the advertise packet ADP transmitted by the BLE communication from the DSC 30 of the other party. The signal strength value D3 included in the advertise packet ADP is compared. Then, the control unit 21 detects the inter-device distance based on the result of the comparison. In this case, the inter-device distance to be detected may be a specific distance such as several meters or several centimeters, but if RSSI> D3, for example, the inter-device distance is “less than the reference distance” and RSSI ≦ D3. If there is, the inter-apparatus distance may be determined as "more than the reference distance". That is, the control unit 21 only needs to be able to detect, as the inter-apparatus distance, some information indicating how far the printer 20 and the DSC 30 of the other party are separated.

  The control unit 21 acquires and stores the signal strength value D3 used for comparison with the received signal strength RSSI of the advertise packet ADP from the DSC 30 in the past (or sets it in advance at the time of product shipment of the printer 20). Signal strength value D3 may be used.

  Further, the control unit 21 may detect the inter-device distance as follows. For example, the printer 20 stores, in advance, in the RAM 21 c or the like, a table defining the correspondence between the distance between the source of the advertise packet ADP and the side receiving the advertise packet ADP and the received signal strength RSSI of the advertise packet ADP. Keep it. Then, when the advertise packet ADP transmitted by the DSC 30 of the other party is received through the beacon communication unit 23, the control unit 21 reads the distance corresponding to the received signal strength RSSI by referring to the table. To detect the distance between devices.

  The control unit 21 detects the inter-apparatus distance as described above each time the advertisement packet ADP transmitted by the DSC 30 of the other party is received through the beacon communication unit 23, thereby the current (latest) apparatus distance Can understand. Naturally, the "current device distance" is updated as needed.

  Therefore, in step S230, the control unit 21 determines whether the current inter-apparatus distance is less than the reference distance, and if the current inter-apparatus distance is less than the reference distance, it is determined that the DSC 30 of the other party approaches. ("Yes" in step S230), and the process proceeds to step S240. On the other hand, if the current inter-device distance is equal to or greater than the reference distance, the control unit 21 determines that the DSC 30 of the other party is not approaching (“No” in step S230), and repeats the determination of step S230. The control unit 21 stores the setting value of the reference distance in advance in the RAM 21 c or the like.

  In step S240, the control unit 21 determines whether the current inter-device distance is equal to or greater than the reference distance, and if the current inter-device distance is equal to or greater than the reference distance, the DSC 30 of the other party is moved away (once approaching After that, it is determined that they have moved away from each other ("Yes" in step S240), and the process proceeds to step S250. On the other hand, if the current inter-apparatus distance is less than the reference distance, the control unit 21 determines that the DSC 30 of the other party is not moving away (while keeping close) (“No” in step S240), and the step S240. Repeat the judgment of.

  In step S250, after determining “Yes” in step S240, the control unit 21 determines whether a predetermined reference time has elapsed. The control unit 21 stores the setting value of the reference time in advance in the RAM 21 c or the like. If the reference time has not elapsed ("No" in step S250), the process proceeds to step S260, and if the reference time has elapsed ("Yes" in step S250), the process proceeds to step S270.

  In step S260, the control unit 21 determines whether the current inter-device distance is less than the reference distance, and if the current inter-device distance is less than the reference distance, it is determined that the DSC 30 of the other party approaches again. ("Yes" in step S260), and the process returns to the determination of step S240. That is, if the DSC 30 of the other party moves away (is moved away after approaching once), if it approaches again before the reference time elapses, the determination in step S240 is repeated. On the other hand, when the current inter-apparatus distance is equal to or greater than the reference distance, the control unit 21 determines that the DSC 30 of the other party is not approaching again (“No” in step S260), and returns to the determination of step S250. Therefore, after the determination in step S240 is "Yes", if the state in which the inter-device distance is equal to or more than the reference distance continues until the reference time elapses, the process proceeds from step S250 to step S270. .

  In step S270, the control unit 21 disconnects the established PictBridge wireless connection (disconnection step). That is, the control unit 21 stops the PTP-IP session established with the DSC 30 in a wireless LAN environment. At this time, the control unit 21 instructs the wireless communication unit 22 to close the TCP (Transmission Control Protocol) port from the wireless communication unit 22 to the wireless communication unit 33. Accordingly, in response to the instruction, the DSC 30 disconnects the established PictBridge wireless connection (step S130). Thus, the automatic cutting process after printing is completed.

  According to the first embodiment, the communication control units (21, 22) of the printer 20 receive from the DSC 30 after completion of printing based on the print data transferred from the DSC 30 via the established PictBridge wireless connection. The time when the inter-apparatus distance is equal to or greater than the reference distance after the distance to the DSC 30 (inter-apparatus distance) detected based on the beacon signal (advertise packet ADP) becomes less than the reference distance (“Yes” in step S230) (Step S250 “Yes”), the established PictBridge wireless connection is disconnected (step S270). Even when the PictBridge wireless connection between the printer 20 and the DSC 30 is disconnected, the connection to the wireless LAN of the printer 20 and the DSC 30 is maintained.

  That is, even if the user forgets to disconnect the PictBridge wireless connection after printing, the PictBridge wireless connection is automatically disconnected. If the PictBridge wireless connection is not disconnected, extra power may be consumed to maintain the connection, or other functions of the printer 20 (for example, a copy function or a PC other than the DSC 30 connected to the printer 20) The printing function from the external device can not be used. In this embodiment, it is possible to avoid the negative effect of forgetting to disconnect the PictBridge wireless connection of such a user.

  As one expectation, a user who carries the DSC 30 approaches the printer 20 after printing by the printer 20 is finished, recovers the printing result, and is likely to leave the printer 30 thereafter. Also, even if the user (DSC 30) leaves the printer 20 after collecting the print result, it may be temporary separation. According to the first embodiment, in view of such a specific action of the user, it is possible to say that the user needs to maintain the need to maintain the PictBridge wireless connection between the DSC 30 and the printer 20 at one timing (Yes in step S250). At the timing when it is determined that “the PictBridge wireless connection can be disconnected automatically.

3. Second embodiment:
FIG. 4 is a flowchart showing the post-printing automatic cutting process according to the second embodiment. The second embodiment (FIG. 4) will be described in terms of differences from the first embodiment (FIG. 2). FIG. 4 differs from FIG. 2 in that the determination in step S230 is omitted.

  That is, after step S220, the control unit 21 of the printer 20 determines whether the current inter-apparatus distance is equal to or greater than the reference distance (step S240), and if the current inter-apparatus distance is equal to or greater than the reference distance It is determined that the DSC 30 of the other party is at a distant position ("Yes" in step S240), and the process proceeds to step S250. On the other hand, if the current inter-device distance is less than the reference distance, the control unit 21 determines that the DSC 30 of the other party is not moving away (“No” in step S240), and repeats the determination of step S240.

  In step S250, after determining “Yes” in step S240, the control unit 21 determines whether a reference time has elapsed, and if the reference time has not elapsed (“No” in step S250) If the reference time has elapsed ("Yes" in step S250), the process proceeds to step S270. Step S265 is substantially the same as step S260. That is, the control unit 21 determines whether or not the current inter-device distance is less than the reference distance, and determines that the DSC 30 of the other party approaches if the current inter-device distance is less than the reference distance (step In S265, the process returns to the determination of step S240. On the other hand, if the current inter-device distance is equal to or greater than the reference distance ("No" in step S265), the process returns to the determination of step S250.

  According to the second embodiment, the communication control units (21, 22) of the printer 20 receive from the DSC 30 after completion of printing based on the print data transferred from the DSC 30 via the established PictBridge wireless connection. When the time for which the distance (inter-apparatus distance) to the DSC 30 detected based on the beacon signal (advertise packet ADP) is longer than the reference distance continues for the reference time or more (“Yes” in step S250) The PictBridge wireless connection is disconnected (step S270).

  Thus, even if the user forgets to disconnect the PictBridge wireless connection after printing, the PictBridge wireless connection is automatically disconnected. As one expectation, the user may leave the DSC 30 away from the printer 20 after printing by the printer 20. According to the second embodiment, in view of such a specific action of the user, it is possible to say that it is possible for the user to reduce the necessity of maintaining the PictBridge wireless connection between the DSC 30 and the printer 20 at one timing (Yes in step S250). At the timing when it is determined that “the PictBridge wireless connection can be disconnected automatically.

4. Third embodiment:
FIG. 5 is a flowchart showing the post-printing automatic cutting process according to the third embodiment. The third embodiment (FIG. 5) will be described in terms of differences from the first embodiment (FIG. 2). FIG. 5 differs from FIG. 2 in that the determinations in steps S250 and S260 are omitted.
That is, after step S220, in step S230, the control unit 21 determines whether the current inter-device distance is less than the reference distance, and if the current inter-device distance is less than the reference distance, It is determined that the DSC 30 has approached ("Yes" in step S230), and the process proceeds to step S240. On the other hand, if the current inter-device distance is equal to or greater than the reference distance, the control unit 21 determines that the DSC 30 of the other party is not approaching (“No” in step S230), and repeats the determination of step S230.

  In step S240, the control unit 21 determines whether the current inter-device distance is equal to or greater than the reference distance, and if the current inter-device distance is equal to or greater than the reference distance, the DSC 30 of the other party is moved away (once approaching After that, it is determined that they have moved away) ("Yes" in step S240), and the process proceeds to step S270. On the other hand, if the current inter-apparatus distance is less than the reference distance, the control unit 21 determines that the DSC 30 of the other party is not moving away (while keeping close) (“No” in step S240), and the step S240. Repeat the judgment of.

  According to the third embodiment, the communication control units (21, 22) of the printer 20 receive from the DSC 30 after completion of printing based on the print data transferred from the DSC 30 via the established PictBridge wireless connection. After the distance to the DSC 30 detected based on the beacon signal (advertise packet ADP) (distance between devices) becomes less than the reference distance ("Yes" in step S230), the distance between devices becomes equal to or greater than the reference distance In the case ("Yes" in step S240), the established PictBridge wireless connection is disconnected (step S270).

  Thus, even if the user forgets to disconnect the PictBridge wireless connection after printing, the PictBridge wireless connection is automatically disconnected. As one expectation, a user who carries the DSC 30 approaches the printer 20 after printing by the printer 20 is finished, recovers the printing result, and is likely to leave the printer 20 thereafter. According to the third embodiment, in view of such specific behavior of the user, it is possible to say that the user needs to maintain the need to maintain the PictBridge wireless connection between the DSC 30 and the printer 20 at one timing (Yes in step S240). At the timing when it is determined that “the PictBridge wireless connection can be disconnected automatically.

5. Fourth Embodiment:
As a simpler configuration, the control unit 21 may perform the determination of step S240 after step S220, and may proceed to step S270 when determining “Yes” in the step S240 (fourth embodiment). That is, after the end of printing based on the print data transferred from the DSC 30 via the established PictBridge wireless connection, the communication control units (21, 22) of the printer 20 receive the beacon signal (advertise packet ADP) received from the DSC 30. If the distance (inter-device distance) to the DSC 30 detected based on the detected distance is equal to or greater than the reference distance (“Yes” in step S240), the established PictBridge wireless connection is disconnected (step S270).

  Such a fourth embodiment is a high-level concept of the first to third embodiments and the fifth embodiment described later (it is assumed that the inter-apparatus distance to the DSC 30 after the printing is completed is at least the reference distance It can be said that the concept of disconnecting the PictBridge wireless connection is presented as a condition). Also in the fourth embodiment, the PictBridge wireless connection is automatically disconnected even if the user forgets to disconnect the PictBridge wireless connection after printing.

6. Fifth embodiment:
The control unit 21 may determine the inter-device distance using a plurality of threshold values. Specifically, the control unit 21 prestores the reference distance (first reference distance) described above and a second reference distance shorter than the first reference distance. Then, for example, in step S230 (FIGS. 2 and 5), the control unit 21 determines whether the current inter-apparatus distance is less than the second reference distance. That is, if the inter-apparatus distance is less than the second reference distance, the DSC 30 determines that the printer 20 is in a “very” close state (“Yes” in step S230). In step S240 (FIGS. 2 and 5), the control unit 21 determines whether the current inter-apparatus distance is equal to or greater than the first reference distance. That is, if the inter-apparatus distance is equal to or more than the first reference distance, it is determined that the DSC 30 has moved away from the printer 20 ("Yes" in step S240). In step S260 (FIG. 2), the control unit 21 determines that the DSC 30 has approached the printer 20 (“Yes” in step S260) if the current inter-apparatus distance is less than the first reference distance.

  According to such a fifth embodiment (combination with the first embodiment), the communication control units (21, 22) of the printer 20 transmit the print data transferred from the DSC 30 via the established PictBridge wireless connection. After the end of printing based on the distance to the DSC 30 detected based on the beacon signal (advertise packet ADP) received from the DSC 30 (distance between devices) becomes less than the second reference distance ("Yes" in step S230) If the time during which the inter-apparatus distance is equal to or longer than the first reference distance continues for the reference time or more ("Yes" in step S250), the established PictBridge wireless connection is disconnected (step S270).

  Further, according to the fifth embodiment (combination with the third embodiment), the communication control units (21, 22) of the printer 20 are based on the print data transferred from the DSC 30 via the established PictBridge wireless connection. After the end of printing, after the distance (inter-device distance) to the DSC 30 detected based on the beacon signal (advertise packet ADP) received from the DSC 30 becomes less than the second reference distance ("Yes" in step S230) If the inter-device distance becomes equal to or greater than the first reference distance (“Yes” in step S240), the established PictBridge wireless connection is disconnected (step S270). That is, after the printing is completed, when the DSC 30 and the printer 20 come very close to each other and then sufficiently separate from the approach, the established PictBridge wireless connection can be automatically disconnected.

  In the fifth embodiment, the signal strength value D3 included in the advertise packet ADP transmitted by the DSC 30 may include a plurality of signal strength values. For example, the signal strength value D3 included in the advertise packet ADP includes a first signal strength value and a second signal strength value higher than the first signal strength value. Then, the control unit 21 compares the received signal strength indicator RSSI of the advertise packet ADP with the signal strength value D3 (first signal strength value, second signal strength value) included in the advertise packet ADP. Then, if the RSSI> the second signal strength value, it is determined that the inter-apparatus distance is less than the second reference distance, that is, the DSC 30 approaches the printer 20 "very". If the second signal strength value ≧ RSSI> the first signal strength value, it is determined that the inter-apparatus distance is equal to or greater than the second reference distance and less than the first reference distance, that is, the DSC 30 approaches the printer 20. If RSSI ≦ first signal strength value, it is determined that the inter-device distance is equal to or greater than the first reference distance, that is, the DSC 30 is away from the printer 20.

7. Other description:
In the present embodiment, the beacon signal transmitted from the DSC 30 may be transmitted by a wireless communication technology other than BLE communication. Further, the wireless connection established for transfer of print data between the DSC 30 and the printer 20 (the wireless connection to be subject to automatic disconnection after printing is completed) is a wireless connection conforming to a standard other than the PictBridge standard. May be Moreover, in the above-mentioned embodiment, the example in which CPU (processor) performs each process was demonstrated. Here, in the present specification, the CPU may be configured by one or more CPUs, or may be configured by one or more integrated circuits (for example, an application specific integrated circuit (ASIC)). The CPU may be configured by a combination of one or more CPUs and one or more integrated circuits.

DESCRIPTION OF REFERENCE NUMERALS 10 system 20 printer 20 control unit 21a CPU 21b ROM 21c RAM 22 wireless communication unit 23 beacon communication unit 24 display unit 25 operation reception unit 26 Printing unit, 30: DSC, 31: control unit, 32: wireless communication unit, 33: beacon communication unit, 34: display unit, 35: operation reception unit, 36: imaging unit, ADP: advertise packet, D3: signal strength value

Claims (7)

A communication control unit that establishes a wireless connection conforming to a predetermined communication standard for transferring print data with the imaging apparatus;
A beacon receiving unit for receiving a beacon signal transmitted by the imaging device;
The communication control unit detects a distance to the imaging device based on the beacon signal received by the beacon receiving unit after printing based on the print data transferred from the imaging device via the wireless connection is completed. And the wireless connection with the imaging device is disconnected when the distance is equal to or greater than a predetermined reference distance.   The printing according to claim 1, wherein the communication control unit disconnects the wireless connection with the imaging device when a time in which the distance is equal to or longer than the reference distance continues for a predetermined reference time or more. apparatus.   The said communication control part cut | disconnects the said wireless connection with the said imaging device, when it becomes more than the said reference distance, after the said distance becomes less than the said reference distance, It is characterized by the above-mentioned. Printing device.   The communication control unit disconnects the wireless connection with the imaging device when a time in which the distance is equal to or longer than the reference distance continues for a predetermined reference time or longer after the distance is less than the reference distance. The printing apparatus according to claim 3,   The communication control unit disconnects the wireless connection with the imaging device when the distance becomes equal to or greater than the reference distance after the distance is less than a second reference distance shorter than the reference distance. The printing apparatus according to claim 1.   The printing apparatus according to any one of claims 1 to 5, wherein the beacon receiving unit receives the beacon signal conforming to a Bluetooth low energy communication standard. Establishing a wireless connection in accordance with a predetermined communication standard for transferring print data with the imaging device;
A detection step of detecting a distance to the imaging device based on a beacon signal received from the imaging device after printing based on the print data transferred from the imaging device via the wireless connection is completed;
And c. Disconnecting the wireless connection with the imaging device if the distance is equal to or greater than a predetermined reference distance.

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