JP6849022B2 - Image processing equipment and image processing system - Google Patents

Description

The present invention relates to an image processing apparatus and an image processing system.

According to Patent Document 1, the CPU executes a PC link process with a desk PC using an infrared communication device, and when the "PC link" button is operated on the initial menu screen displayed on the display unit, the PC In order to set the link relationship, first send the check signal to the desk PC to check the response, then send the PC link signal to the desk PC to establish the link state, and in the displayed menu screen, "Mail transfer" Button is displayed. Then, when there is a mail transmission request from the desk PC, the CPU activates the mail communication program, displays the mail window screen on the display unit 21, causes the mail body to be input, and inputs the file and data to be transmitted from the desk PC. A portable communication terminal device that is attached to the body of an e-mail and transmits a wireless e-mail to an external communication service center by a wireless communication interface is disclosed.
Further, Patent Document 2 describes the user identification information, the collation result of the user identification information, and the setting information between the master unit device and the source slave unit device of any one of the plurality of slave unit devices. While exchanging various data including the information in a timely manner, it authenticates whether or not the sender slave unit has the legitimate right to use various information services, and as a result of this authentication, the sender slave unit is legitimate. If you have the right to use, by allowing the reception and input of the setting information from the source slave unit, the setting information transmitted from the source slave unit is stored, and the stored setting information can be stored in various ways. Among the information services, the Internet terminal system to be set when using the corresponding information service is disclosed.
Further, Patent Document 3 is an information providing system including an information communication terminal that receives information provided from the server device by communicating with the server device in a predetermined communication format, and the information communication terminal is used. Based on the request operation of the information provided by the person, the information provision request including the identification information of the information communication terminal or its user, the environment information of the terminal, etc. is transmitted to the server device to the transmission part of the additional information in the communication format. A server device is disclosed that restricts the provision of information to an information communication terminal based on additional information, or selects and provides information according to the terminal environment.

Japanese Unexamined Patent Publication No. 2000-10893 Japanese Unexamined Patent Publication No. 11-288402 Japanese Unexamined Patent Publication No. 11-328051

For example, when printing is performed by the image processing device, processing conditions such as printing conditions can be transmitted in advance from the terminal device side to the image processing device for printing by near-field type wireless communication or the like. An object of the present invention is to prevent other terminal devices from changing processing conditions after the processing conditions are sent from the terminal device to the image processing device by wireless communication.

The invention according to claim 1 is a communication unit that is stored in a terminal device and receives information on processing conditions for performing image processing specified by the terminal device, and wireless communication is performed by the communication unit. A control unit that receives information about the processing conditions from the terminal device of the above and makes the information not received from other terminal devices other than the one terminal device, an image processing unit that performs the image processing, and a user performing the image processing. The control unit includes an input unit that can further input an execution instruction to be executed and that allows the user to input a reception instruction that enables the communication unit to receive information on the processing conditions. The control unit includes the reception instruction that the user can receive. When the information about the processing condition is received from the one terminal device, and when the communication unit receives the information about the processing condition from the one terminal device, the other terminal device When the communication unit receives information about the processing condition from the one terminal device, it does not accept information about the processing condition from the other terminal device. The image processing device is characterized in that when the user does not input the execution instruction within a predetermined time, the state of not accepting the information regarding the processing conditions from the other terminal device is released.
The invention according to claim 2 further includes a display unit for displaying the processing conditions, and the control unit displays the processing conditions when the communication unit receives information about the processing conditions from the one terminal device. The unit switches to a screen for displaying the processing condition based on the received information on the processing condition, and the input unit displays the processing condition after the change when the user wants to change the processing condition displayed on the display unit. The image processing apparatus according to claim 1, wherein the conditions can be input by the user.
The invention according to claim 3, wherein the communication unit is an image processing apparatus according to claim 1, characterized by performing reception of information relating to the processing conditions at the wireless communication.
The invention according to claim 4 is an image processing device that processes an image, and a terminal device that creates processing conditions for performing image processing in the image processing device and transmits the processing conditions to the image processing device. The image processing device receives information on the processing conditions from a communication unit that receives information on the processing conditions and a terminal device that performs wireless communication in the communication unit, and the image processing device receives the information on the processing conditions. A control unit that does not accept from other terminal devices other than the above, an image processing unit that performs the image processing, and an execution instruction for the user to execute the image processing can be further input, and the communication unit can further input the processing. The control unit includes an input unit for inputting a reception instruction for the user to receive information on the condition, and the control unit provides information on the processing condition from the one terminal device when the user inputs the reception instruction. When the communication unit receives information about the processing condition from the one terminal device, the communication unit does not accept the information about the processing condition from the other terminal device. When the information regarding the processing condition is received from the one terminal device, the information regarding the processing condition from the other terminal device is not accepted, and the user does not input the execution instruction within a predetermined time. Is an image processing system characterized in that the state of not accepting information regarding the processing conditions from the other terminal device is released.
The invention according to claim 5 further includes a display unit for displaying the processing conditions, and the control unit displays the processing conditions when the communication unit receives information about the processing conditions from the one terminal device. The unit switches to a screen for displaying the processing condition based on the received information on the processing condition, and the input unit displays the processing condition after the change when the user wants to change the processing condition displayed on the display unit. The image processing system according to claim 4, wherein the conditions can be input by the user.
The invention according to claim 6 is the image processing system according to claim 4 , wherein the communication unit receives information on the processing conditions by short-range wireless communication.
The invention according to claim 7 is a wireless communication interface unit that is set by the first terminal device and receives information on processing conditions for performing image processing, and the first terminal at the wireless communication interface unit. The control unit includes a control unit for receiving information about the processing conditions from the apparatus and a processor having a memory for holding an instruction for controlling the image processing unit that performs the image processing, and the control unit is the first terminal. After the device is connected to the image processing device, when the second terminal device tries to connect to the image processing device, the change of the processing conditions is not accepted, and the first terminal device is the image processing device. The image processing device is characterized in that the information regarding the processing conditions is not accepted from the second terminal device after being connected to the second terminal device.
The invention according to claim 8 further includes a user interface that displays the processing conditions and allows the user to input a reception instruction so that the wireless communication interface unit can receive information on the processing conditions. When the user inputs the reception instruction through the user interface, the control unit sets the state of receiving information on the processing conditions from the first terminal device, and the wireless communication interface unit receives the information regarding the processing conditions from the first terminal device. When the user interface receives the information about the processing condition, the user interface displays the processing condition based on the received information about the processing condition, and when the user wants to change the displayed processing condition, the changed The image processing apparatus according to claim 7, wherein the processing conditions can be input by the user.
According to the ninth aspect of the present invention, when the user does not input the instruction within a predetermined time, the control unit releases the state of not accepting the information regarding the processing condition from the second terminal device. The image processing apparatus according to claim 7 , wherein the image processing apparatus is characterized by the above.

According to the invention of claim 1, after the processing conditions are sent from the terminal device to the image processing device, the processing conditions cannot be changed from another terminal device. In addition, the intention of the user who wants to send the processing conditions to the image processing device can be more reliably reflected. Further, it becomes easier to set so that the processing conditions cannot be changed from other terminal devices. Furthermore, when the user loses the intention to use the image processing device, it is possible to cancel the setting that the processing conditions cannot be changed from another terminal device.
According to the invention of claim 3 , the convenience of the user is further improved.
According to the invention of claim 4 , when the image processing apparatus performs image processing based on the processing conditions set in the terminal apparatus, a more convenient image processing system can be provided. In addition, the intention of the user who wants to send the processing conditions to the image processing device can be more reliably reflected. Further, it becomes easier to set so that the processing conditions cannot be changed from other terminal devices. Furthermore, when the user loses the intention to use the image processing device, it is possible to cancel the setting that the processing conditions cannot be changed from another terminal device.

It is a figure which showed the whole configuration example of the image processing system which concerns on this embodiment. It is an external view of the image processing apparatus which concerns on this embodiment. It is a figure which shows the internal structure of the image processing apparatus which concerns on this embodiment. (A) to (b) are external views of the mobile terminal according to the present embodiment. It is a block diagram which showed the functional configuration example of an image processing apparatus and a mobile terminal. It is a flowchart explaining the operation of the image processing apparatus and the mobile terminal in 1st Embodiment. (A) to (d) are examples of screens displayed on the liquid crystal panel of the mobile terminal at this time. (A) to (b) are diagrams showing an example of a screen displayed on the user interface of the image processing device at this time. (C) to (e) are diagrams showing an example of a screen displayed on the user interface of the image processing device at this time. It is a flowchart explaining the operation of the image processing apparatus and the mobile terminal in 2nd Embodiment. (A) to (c) are examples of screens displayed on the liquid crystal panel of the mobile terminal at this time. (D) to (f) are examples of screens displayed on the liquid crystal panel of the mobile terminal at this time. (A) to (c) are diagrams showing an example of a screen displayed on the user interface of the image processing device at this time. (D) to (f) are diagrams showing an example of a screen displayed on the user interface of the image processing device at this time.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
<Explanation of the overall configuration of the image processing system 1>
First, the overall configuration of the image processing system 1 according to the present embodiment will be described.
FIG. 1 is a diagram showing an overall configuration example of the image processing system 1 according to the present embodiment.
As shown in the figure, the image processing system 1 includes an image processing device 2A, an image processing device 2B, a mobile terminal 3A, a mobile terminal 3B, a mobile terminal 3C, an operation terminal 4A, an operation terminal 4B, and a management server 5. I have. Further, wireless communication is performed between the image processing device 2A and the image processing device 2B and the mobile terminal 3A, the mobile terminal 3B, and the mobile terminal 3C. Further, the image processing device 2A, the image processing device 2B, the operation terminal 4A, the operation terminal 4B, and the management server 5 are connected to the network 6, and the devices communicate with each other.

Although the image processing device 2A and the image processing device 2B are shown in FIG. 1, they are referred to as an image processing device 2 when it is not necessary to distinguish them. Similarly, FIG. 1 shows a mobile terminal 3A, a mobile terminal 3B, and a mobile terminal 3C, but when it is not necessary to distinguish between them, it is referred to as a mobile terminal 3. Further, although the operation terminal 4A and the operation terminal 4B are shown in FIG. 1, they are referred to as an operation terminal 4 when it is not necessary to distinguish them. Further, in the example shown in FIG. 1, two image processing devices 2 are shown, but three or more image processing devices 2 may be provided. Further, although the example shown in FIG. 1 shows three mobile terminals 3, four or more mobile terminals 3 may be provided. Then, in the example shown in FIG. 1, two operation terminals 4 are shown, but three or more operation terminals 4 may be provided.

The image processing device 2 is a device that processes an image, and is, for example, a device having a scanning function, a printing (printing) function, a copying function, a facsimile function, and the like, and forms an image on a recording medium such as paper. And output. Here, the image processing device 2 receives a print job from the mobile terminal 3 or the operation terminal 4, and executes the print process based on the received print job. The print job is data that includes image data to be printed and control commands that describe settings in the print process, and is a unit of the print process executed by the image processing device 2.

The mobile terminal 3 is an example of a terminal device that creates processing conditions for performing image processing in the image processing device 2 and transmits the image processing device 2 to the image processing device 2, and is a portable computer device. As the mobile terminal 3, for example, a smartphone, a tablet PC (Personal Computer), a notebook PC, or the like may be used.

The operation terminal 4 is a computer device used when a user browses, edits, or the like a document file. As the operation terminal 4, for example, a notebook PC, a desktop PC, or the like may be used. However, a portable computer device such as a smartphone may be used as the operation terminal 4.

The management server 5 is a computer device that stores various data processed by the image processing system 1.

The network 6 is a communication means used for information communication between the image processing device 2, the operation terminal 4, and the management server 5, and is, for example, a wired LAN (Local Area Network).

Further, in the present embodiment, the speed between the image processing device 2 and the mobile terminal 3 is higher than that of short-range wireless communication (for example, near-field wireless communication: NFC (Near Field Communication)) and short-range wireless communication. Wireless communication is performed using another communication standard (for example, Wi-Fi Direct). NFC is a wireless communication standard in which the communication distance is limited to about 10 cm. Further, Wi-Fi Direct is a standard for direct communication between Wi-Fi terminals, and Wi-Fi Direct is equipped with a function in which each Wi-Fi compatible device operates as an access point. An access point is a relay device that wirelessly relays communication between devices. In addition, in Wi-Fi Direct, one of the multiple Wi-Fi compatible devices participating in the network actually operates as an access point, and the device that becomes the access point and the other Wii. -Direct communication is performed with the Fi compatible device.

Further, in Wi-Fi Direct, each communication device participating in a certain network is defined as P2P Device, and the network is defined as P2P Group. Then, in the P2P Group, the P2P Device that actually operates as an access point is defined as the P2P Group Owner, and the P2P Device other than the P2P Group Owner is defined as the P2P Device Client. Each P2P device detects a P2P device that is a candidate for a connection destination of the Wi-Fi Direct by exchanging a signal with another P2P device, and a P2P Group Owner is selected from a plurality of P2P devices.

In the present embodiment, the image processing device 2 functions as a P2P Group Owner. Further, in Wi-Fi Direct, an upper limit is generally set on the number of P2P Device Clients connected to the P2P Group Owner at the same time. In the present embodiment, the upper limit of the number of mobile terminals 3 simultaneously connected to the image processing device 2 by Wi-Fi Direct is, for example, three.

In the image processing system 1 described above, the user transmits a print job from the mobile terminal 3 or the operation terminal 4 to the image processing device 2 by wireless communication using the network 6 or Wi-Fi Direct, and the image processing device 2 receives the print job. You can print.
Further, the user can scan the document (read the image) or copy the document by going to the installation location of the image processing device 2. Further, the read image can be facsimile-transmitted via the network 6 or a public communication network (not shown).
The management server 5 can also manage the print jobs to be printed by the image processing device 2, sort the print jobs in an appropriate order, and send the print jobs to the image processing device 2. In this case, the management server 5 functions as a print server. Further, the management server 5 can share the file with the mobile terminal 3 and the operation terminal 4 by managing the file. In this case, the management server 5 functions as a file server.

<Explanation of image processing device 2>
FIG. 2 is an external view of the image processing device 2 according to the present embodiment. FIG. 3 is a diagram showing an internal structure of the image processing device 2 according to the present embodiment.
The image processing device 2 includes an image reading device 100 that reads an image of a document and an image forming device 200 that forms an image on a recording medium (paper). Further, the image processing device 2 has a control device 300 that controls the operation of the entire device, and a user interface (UI) 400 that outputs an instruction received from the user to the control device 300 and presents information from the control device 300 to the user. It has. Further, the image processing device 2 performs NFC communication between the mobile terminal 3 and the wireless interface (hereinafter referred to as wireless I / F) 500 that performs wireless communication by Wi-Fi Direct. It is provided with an NFC interface (hereinafter referred to as NFCI / F) 600.

The image reading device 100 is arranged above the image processing device 2. Further, the image forming apparatus 200 is arranged below the image reading apparatus 100 and has a built-in control device 300. The user interface 400 is arranged in the central portion on the front side of the upper part of the image processing device 2, that is, in the central portion on the front side of the image reading unit 110 described later in the image reading device 100. Further, the wireless I / F500 is arranged at the left end on the front side of the upper part of the image processing device 2, and the NFCI / F600 is built in the upper part of the image processing device 2.

First, the image reading device 100 will be described.
The image reading device 100 includes an image reading unit 110 that reads an image of a document, and a document transporting unit 120 that transports the document to the image reading unit 110. The document transport unit 120 is arranged above the image reading device 100, and the image reading unit 110 is arranged below the image reading device 100.
The document transport unit 120 has a document accommodating unit 121 for accommodating documents and a document ejection unit 122 for ejecting documents transported from the document accommodating unit 121, and the document is transmitted from the document accommodating unit 121 to the document ejection unit 122. To transport. The document transport unit 120 is also called an automatic document feeder (ADF: Auto Document Feeder).

The image reading unit 110 includes a platen glass 111, a light irradiation unit 112 that irradiates the surface to be read (image surface) of the document with light, and the light irradiation unit 112 that irradiates the surface to be read of the document with light L to irradiate the surface of the document. It includes a light guide unit 113 that guides the light L reflected by the surface to be read, and an imaging lens 114 that forms an optical image of the light L guided by the light guide unit 113. Further, the image reading unit 110 is composed of a photoelectric conversion element such as a CCD (Charge Coupled Device) image sensor that photoelectrically converts the light L imaged by the imaging lens 114, and detects an imaged optical image. It includes a unit 115 and a signal processing unit 116 that is electrically connected to the detection unit 115 and transmits an electric signal obtained by the detection unit 115.
The image reading unit 110 reads an image of the original document conveyed by the document conveying unit 120 and an image of the original document placed on the platen glass 111.

Next, the image forming apparatus 200 will be described.
The image forming apparatus 200 includes an image forming unit 20 that forms an image on the paper, a paper supply unit 60 that supplies the paper P to the image forming unit 20, and a paper P on which an image is formed by the image forming unit 20. A paper ejection unit 70 for ejecting an image, and an inverted conveying unit 80 for inverting the front and back of the paper P on which an image is formed on one side of the image forming unit 20 and conveying the paper P toward the image forming unit 20 again. ing.

The image forming unit 20 has four image forming units 21Y, 21M, 21C, 21K of yellow (Y), magenta (M), cyan (C), and black (K) arranged in parallel at regular intervals. It has. Each image forming unit 21 defines in advance an electrostatic latent image formed by laser irradiation by a photoconductor drum 22, a charger 23 that uniformly charges the surface of the photoconductor drum 22, and an optical system unit 50 described later. It is provided with a developer 24 that develops and visualizes with the obtained color component toner. Further, the image forming unit 20 is provided with toner cartridges 29Y, 29M, 29C, 29K for supplying toner of each color to the developing units 24 of the image forming units 21Y, 21M, 21C, 21K.

The image forming unit 20 includes an optical system unit 50 that irradiates the photoconductor drum 22 of the image forming units 21Y, 21M, 21C, 21K with a laser beam below the image forming units 21Y, 21M, 21C, 21K. There is. The optical system unit 50 includes a semiconductor laser and a modulator (not shown), a polygon mirror (not shown) that deflects and scans the laser beam emitted from the semiconductor laser, and a glass window (not shown) that passes the laser beam. , A frame (not shown) for sealing each component is provided.

Further, the image forming unit 20 includes an intermediate transfer unit 30 for multiplex transfer of toner images of each color formed on the photoconductor drums 22 of the image forming units 21Y, 21M, 21C, and 21K onto the intermediate transfer belt 31, and an intermediate transfer unit. It is provided with a secondary transfer unit 40 that transfers the toner image formed on the paper P by superimposing the toner image on the paper P, and a fixing device 45 that heats and pressurizes the toner image formed on the paper P to fix the toner image. ..

The intermediate transfer unit 30 includes an intermediate transfer belt 31, a drive roller 32 for driving the intermediate transfer belt 31, and a tension roller 33 for applying a constant tension to the intermediate transfer belt 31. Further, the intermediate transfer unit 30 is a plurality of intermediate transfer units 30 for transferring a toner image formed on the photoconductor drum 22 so as to face each other with the intermediate transfer belt 31 sandwiched between the photoconductor drums 22 and the intermediate transfer belt 31 (this implementation). In this form, the primary transfer roller 34) and the backup roller 35 facing the secondary transfer roller 41 described later via the intermediate transfer belt 31 are provided.

The intermediate transfer belt 31 is attached to a plurality of rotating members such as a drive roller 32, a tension roller 33, a plurality of primary transfer rollers 34, a backup roller 35, and a driven roller 36. Then, the intermediate transfer belt 31 is circulated and driven at a predetermined speed in the arrow direction by a drive roller 32 that is rotationally driven by a drive motor (not shown). As the intermediate transfer belt 31, for example, one molded from rubber or resin is used.
Further, the intermediate transfer unit 30 includes a cleaning device 37 for removing residual toner and the like existing on the intermediate transfer belt 31. The cleaning device 37 removes residual toner, paper dust, and the like from the surface of the intermediate transfer belt 31 after the toner image transfer step is completed.

The secondary transfer unit 40 includes a secondary transfer roller 41 that is provided at the secondary transfer position and presses the backup roller 35 via the intermediate transfer belt 31 to secondarily transfer the image onto the paper P. The secondary transfer position where the toner image transferred to the intermediate transfer belt 31 is transferred to the paper P by the secondary transfer roller 41 and the backup roller 35 facing the secondary transfer roller 41 via the intermediate transfer belt 31 is determined. It is composed.
The fixing device 45 fixes the image (toner image) on the paper P secondarily transferred by the intermediate transfer unit 30 to the paper P using heat and pressure by the heat fixing roller 46 and the pressure roller 47.

The paper supply unit 60 includes a paper storage unit 61 that stores the paper P on which an image is formed, a delivery roll 62 that feeds out the paper P stored in each of the paper storage units 61, and the paper that is fed by the delivery roll 62. It includes a transport path 63 to which P is transported, and transport rolls 64, 65, 66 that transport the paper P arranged along the transport path 63 and sent out by the delivery roll 62 to the secondary transfer position.

The paper ejection unit 70 is provided above the image forming unit 20, and has a first loading tray 71 for loading the paper P on which the image is formed by the image forming unit 20, and the first loading tray 71 and an image. A second loading tray 72 for loading the paper P on which the image is formed by the image forming unit 20 is provided between the reading device 100 and the reading device 100.
The paper ejection unit 70 is provided on the downstream side in the transport direction with respect to the fixing device 45, and is provided on the transport roll 75 for transporting the paper P on which the toner image is fixed and on the downstream side in the transport direction of the transport roll 75. It is provided with a switching gate 76 for switching the conveying direction of the paper P. Further, the paper ejection unit 70 transfers the paper P to be conveyed to the first loading tray 71 on the downstream side of the switching gate 76 in the conveying direction and to one side of the conveying direction (right side in FIG. 3) switched by the switching gate 76. A first discharge roll 77 for discharging is provided. Further, the paper ejection unit 70 includes a transport roll 78 for transporting the paper P to be transported to the downstream side of the switching gate 76 in the transport direction to the other side (upper side in FIG. 3) of the transport direction switched by the switching gate 76. A second discharge roll 79 for discharging the paper P conveyed by the transfer roll 78 to the second loading tray 72 is provided.

The reversing transport unit 80 transports the inverted paper P to the side of the fixing device 45 by rotating the transport roll 78 in the direction opposite to the direction in which the paper P is discharged to the second loading tray 72. The reverse transport path 81 is provided. A plurality of transport rolls 82 are provided in the reverse transport path 81 along the reverse transport path 81. The paper P conveyed by these transfer rolls 82 is again fed to the secondary transfer position by the transfer roll 82.

Further, the image forming apparatus 200 includes an apparatus main body frame 11 that directly or indirectly supports the image forming unit 20, the paper supply unit 60, the paper ejection unit 70, the reverse transfer unit 80, and the control device 300, and the apparatus main body. It includes a device housing 12 that is attached to the frame 11 and forms an outer surface of the image processing device 2.
The apparatus main body frame 11 is provided on one end side in the lateral direction of the image processing apparatus 2, and internally includes a switching gate 76, a first discharge roll 77, a transport roll 78, a second discharge roll 79, and the like, as well as up and down. It includes a reader support unit 13 that extends in the direction and supports the image reader 100. The reading device support portion 13 supports the image reading device 100 in cooperation with a portion on the back side of the device main body frame 11.

The control device 300 has a function of performing image processing such as color correction and gradation correction on the input image data in addition to controlling the operation of the entire device, and generates the image data to which the image processing has been performed.
The control device 300 is actually a computer device including a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), and the like. That is, the CPU executes various software such as an OS (Operating System) and an application. The RAM is a memory used as a working memory of the CPU or the like. Further, the ROM is a memory for storing various programs and the like executed by the CPU. Then, the CPU realizes each function of the image processing device 2 by loading and executing various programs stored in the ROM or the like in the RAM. The control device 300 may include an HDD (Hard Disk Drive), which is a magnetic disk device, for storing image data and the like used in the image forming operation.

The user interface 400 is a touch panel that displays various information and accepts operation input from the user. Here, the user interface 400 includes a display on which various information is displayed and a position detection sheet that detects the position of contact with a finger, a stylus pen, or the like. As the means for detecting the contacted position, any means may be used, such as a means for detecting based on the pressure due to contact, a means for detecting based on the static electricity of the contacted object, and the like. Further, instead of the touch panel, an input means such as a display and a keyboard may be used.

The wireless I / F 500 includes an antenna for wireless communication with the mobile terminal 3 by Wi-Fi Direct, and functions as a communication interface for transmitting and receiving various data with the mobile terminal 3.

The NFCI / F600 includes an antenna for performing NFC communication with the mobile terminal 3 and functions as a communication interface for transmitting and receiving various data with the mobile terminal 3.

The image processing device 2 configured as described above operates as follows.
For example, when copying or printing is performed by the image forming apparatus 200, the process is as follows.
The image data of the original document read by the image reading device 100 for copying and the image data received from the mobile terminal 3, the operating terminal 4, or the management server 5 for printing are predetermined in the control device 300. Image processing is applied. The image data that has undergone image processing is converted into four color material gradation data of yellow (Y), magenta (M), cyan (C), and black (K), and output to the optical system unit 50. ..

The optical system unit 50 emits the laser light emitted from the semiconductor laser (not shown) to the polygon mirror via the f−θ lens (not shown) according to the input color material gradation data. In the polygon mirror, the incident laser light is modulated according to the gradation data of each color, deflected and scanned, and the image forming units 21Y, 21M, 21C, 21K are subjected to an imaging lens (not shown) and a plurality of mirrors. The photoconductor drum 22 is irradiated.

In the photoconductor drum 22 of the image forming units 21Y, 21M, 21C, 21K, the surface charged by the charger 23 is scanned and exposed to form an electrostatic latent image. The formed electrostatic latent image is developed as a toner image of each color of yellow (Y), magenta (M), cyan (C), and black (K) by each image forming unit 21Y, 21M, 21C, 21K. Will be done. The toner image formed on the photoconductor drum 22 of the image forming units 21Y, 21M, 21C, 21K is multiple-transferred onto the intermediate transfer belt 31 which is an intermediate transfer body.

On the other hand, in the paper supply unit 60, the delivery roll 62 rotates in accordance with the timing of image formation to pick up the paper P stored in the paper storage unit 61 and transport the paper P through the transport path 63 by the transport rolls 64 and 65. Will be done. After that, the transfer roll 66 rotates according to the movement timing of the intermediate transfer belt 31 on which the toner image is formed, and the paper P is transferred to the secondary transfer position formed by the backup roller 35 and the secondary transfer roller 41. .. Toner images in which four colors are multiplexed are sequentially transferred in the sub-scanning direction on the paper P conveyed from the bottom to the top at the secondary transfer position by using a pressure contact force and a predetermined electric field. Will be done. Then, the paper P on which the toner images of each color are transferred is subjected to a fixing process by heat and pressure by the fixing device 45, and then discharged and loaded on the first loading tray 71 or the second loading tray 72.

When there is a request for double-sided printing, the paper P on which an image is formed on one side is conveyed by the reverse transfer unit 80 so that the front and back sides are reversed, and is sent to the secondary transfer position again. Then, at the secondary transfer position, the toner image is transferred to the other surface of the paper P, and the image transferred by the fixing device 45 is fixed. After that, the paper P on which the images are formed on both sides is discharged and loaded on the first loading tray 71 or the second loading tray 72.

Further, the image data of the original document read by the image reading device 100 can be stored in the control device 300 without being printed by the image forming device 200. Further, this image data can also be transmitted to the mobile terminal 3, the operation terminal 4, or the management server 5 by using the network 6 or Wi-Fi Direct. Further, this image data can be facsimile-transmitted from the control device 300 to the external device.

<Explanation of mobile terminal 3>
As described above, the mobile terminal 3 is a portable computer device, and includes a CPU, RAM, ROM, and the like. Then, the CPU loads various programs stored in the ROM or the like into the RAM and executes the OS and various software. In the case of the mobile terminal 3, the various software may be called an application.

The mobile terminal 3 may be provided with, for example, an HDD or a flash memory as a storage means. The HDD and the flash memory store input data for various software, output data from various software, and the like. Further, the mobile terminal 3 may further include an input device such as a keyboard and a mouse.
The mobile terminal 3 further includes the following in the present embodiment.

4 (a) to 4 (b) are external views of the mobile terminal 3 according to the present embodiment.
Of these, FIG. 4A is a view of the mobile terminal 3 viewed from the side where the user normally operates, and FIG. 4B is a case where the side shown in FIG. 4A is the surface. It is the figure which looked at the mobile terminal 3 from the back side.
The mobile terminal 3 illustrated here is a so-called smartphone. A touch panel is used as an image display means. Therefore, as shown in FIG. 4A, the mobile terminal 3 includes a liquid crystal panel 3a for displaying information such as contents as an image in a predetermined area, and the liquid crystal panel 3a is represented by a human finger or a stylus pen. It is provided with a position detection unit (not shown) that detects the position where the contact object comes into contact with the liquid crystal panel 3a when the contact object comes into contact with the liquid crystal panel 3a. The touch panel used as the liquid crystal panel 3a in the present embodiment is not particularly limited, and various types such as a resistance film type and a capacitance type are adopted.

Further, as shown in FIG. 4B, the mobile terminal 3 includes a wireless I / F3b and an NFCI / F3c. The radio I / F3b and NFCI / F3c have the same structures and functions as the radio I / F500 and NFCI / F600 of the image processing device 2 described above, respectively. When the user performs NFC communication between the mobile terminal 3 and the image processing device 2, the user holds or touches the mobile terminal 3 on the NCCI / F600 of the image processing device 2. As a result, NFC communication is automatically performed between the NFCI / F3c of the mobile terminal 3 and the NFCI / F600 of the image processing device 2.

In the image processing system 1 having the above configuration, for example, when the user wants to copy the original, the user first goes to the installation location of the image processing device 2. Then, the user interface 400 is operated in front of the image processing device 2, processing conditions for copying (for example, parameters such as resolution, paper size, magnification of enlargement / reduction) are set, and a start key (not shown) is set. ) Is pressed to copy. Therefore, if the user wants to make a copy of the original and another person is using the image processing device 2 when he / she goes to the installation location of the image processing device 2, he / she waits without being able to do anything until the person finishes. It ends up.

In order to suppress such a problem, with the development of the mobile terminal 3 in recent years, processing conditions for copying to the mobile terminal 3 are set in advance, and when the image processing device 2 becomes available, the mobile terminal 3 is changed to the image processing device 2. A function has been proposed that allows copying to be started immediately by sending this processing condition.

However, if another processing condition is sent from another mobile terminal to the image processing device 2 after the processing condition set by the mobile terminal 3 is sent to the image processing device 2, there is a problem that the processing condition is changed. This tends to occur, for example, when one user sends the processing conditions to the image processing device 2 on the mobile terminal 3 and then leaves the image processing device 2 due to paper replacement or the like. That is, in this case, since the user is not in front of the image processing device 2, another person can send another processing condition to the image processing device 2 by another mobile terminal 3. In this case, when the user returns, the processing conditions different from the original processing conditions are set, so that the image processing is performed under the different processing conditions, which is inconvenient for the user.

Therefore, in the present embodiment, this problem is suppressed by preventing the processing conditions from being changed after the processing conditions set by the user on the mobile terminal 3 are sent to the image processing device 2.
Hereinafter, the configuration of the image processing device 2 for realizing this matter will be described.

<Explanation of functional configuration of image processing device 2 and mobile terminal 3>
FIG. 5 is a block diagram showing a functional configuration example of the image processing device 2 and the mobile terminal 3.
As shown in the figure, the image processing device 2 includes a Wi-Fi connection unit 701, an NFC connection unit 702, an image processing device side control unit 703, an image processing unit 704, a display unit 705, and an input unit 706. .. The mobile terminal 3 includes a Wi-Fi connection unit 801, an NFC connection unit 802, a mobile terminal side control unit 803, and a display unit 804. Here, among various functions possessed by the image processing device 2 and the mobile terminal 3, those related to the present embodiment are selected and shown.

The Wi-Fi connection unit 701 is a functional unit for performing wireless communication by Wi-Fi Direct on the image processing device 2 side. The Wi-Fi connection unit 701 corresponds to the wireless I / F 500 shown in FIG.

The NFC connection unit 702 is a functional unit for performing wireless communication by NFC on the image processing device 2 side. The NFC connection unit 702 corresponds to the NFCI / F600 shown in FIG. The NFC connection unit 702 functions as an example of a communication unit that is stored in the mobile terminal 3 and receives information on processing conditions for performing image processing specified by the mobile terminal 3 by wireless communication.

The image processing device side control unit 703 receives information on processing conditions from one mobile terminal 3 that performs wireless communication with the NFC connection unit 702, and does not accept information from other mobile terminals 3 other than one mobile terminal 3. This is an example of a control unit. In this case, one mobile terminal 3 is a user's mobile terminal 3 that transmits processing conditions using NFC in front of the image processing device 2, and the other mobile terminal 3 is a mobile terminal of another person other than this user. It is 3. Further, the image processing device side control unit 703 controls the Wi-Fi connection unit 701, the NFC connection unit 702, the image processing unit 704, the display unit 705, and the input unit 706. The image processing device side control unit 703 corresponds to the control device 300 of FIG.

The image processing unit 704 is a functional unit that processes an image. In the present embodiment, the image processing unit 704 corresponds to at least one of an image forming device 200 for forming an image and an image reading device 100 for reading an image of a document.
Therefore, the processing conditions here are the processing conditions for image processing executed by the image forming apparatus 200 and the image reading apparatus 100. Specifically, the processing conditions are at least a condition for forming an image by the image forming apparatus 200, a condition for reading an image by the image reading apparatus 100, and a condition for outputting information of the image read by the image reading apparatus 100 to an external device. There is one. In this case, outputting the information of the read image to an external device corresponds to facsimile transmission.

In the present embodiment, the image information (image data) for image formation by the image processing unit 704 is received by the Wi-Fi connection unit 701 instead of the NFC connection unit 702. This is because the communication speed of Wi-Fi Direct is generally faster than that of NFC, so for images such as image information where the amount of data tends to be large, the transmission of image information is faster using Wi-Fi Direct. Because it becomes. On the other hand, regarding the processing conditions, since the amount of data is generally small, problems are unlikely to occur even when NFC is used.

The display unit 705 is a functional unit that displays processing conditions for performing image processing.
Further, the input unit 706 is a functional unit in which the user inputs a reception instruction for making the NFC connection unit 702 ready to receive information regarding the processing conditions.

In the present embodiment, the image processing device side control unit 703 can be in a state of receiving information on processing conditions from one mobile terminal 3 when the user inputs a reception instruction by the input unit 706. This reception instruction can be input, for example, by pressing a button provided on the image processing device 2. Then, when the user in front of the image processing device 2 presses this button, the image processing device 2 is in a state of receiving information regarding the processing conditions from the mobile terminal 3. By doing so, the user in front of the image processing device 2 shifts the state of the image processing device 2 to a state of explicitly accepting the processing conditions from the mobile terminal 3. After that, the user transmits the processing conditions by the mobile terminal 3 owned by the user. Then, after receiving this processing condition, the image processing device side control unit 703 prevents the other mobile terminal 3 from receiving the processing condition. That is, this makes it possible to realize a function in which the NFC connection unit 702 accepts information on processing conditions from one mobile terminal 3 that performs wireless communication, and does not accept information from other mobile terminals 3 other than one mobile terminal 3.

However, it is not always necessary to input the reception instruction. For example, when the image processing device side control unit 703 receives information on processing conditions from one mobile terminal 3 at the NFC connection unit 702, it is in a state of not accepting information on processing conditions from another mobile terminal 3. You may do so. That is, when the user sends the processing conditions by NFC communication by his / her mobile terminal 3, the information about the processing conditions from the other mobile terminals 3 is not accepted.

Further, the input unit 706 can further input an execution instruction for executing the image processing by the user. That is, when the user inputs an execution instruction, image processing is started according to the processing conditions set by the user on the mobile terminal 3. When the user does not input the execution instruction within a predetermined time, the image processing device side control unit 703 releases the state of not accepting the information regarding the processing conditions from the other mobile terminal 3.

The display unit 705 and the input unit 706 correspond to the user interface 400 of FIG. That is, the user interface 400 is a touch panel in the present embodiment and displays processing conditions.
When the user interface 400 is a touch panel, a button for inputting a reception instruction or an execution instruction is displayed on the touch panel, and the user can input a reception instruction or an execution instruction by touching this button. However, the present invention is not limited to this, and a normal button equipped with a switch mechanism may be prepared separately. The button for inputting the execution instruction can be regarded as a start key.

The Wi-Fi connection unit 801 is a functional unit for communicating with the Wi-Fi Direct on the mobile terminal 3 side. The Wi-Fi connection unit 801 corresponds to the wireless I / F3b shown in FIG.

The NFC connection unit 802 is a functional unit for performing NFC communication on the mobile terminal 3 side. The NFC connection unit 802 corresponds to the NFCI / F3c shown in FIG.

The mobile terminal side control unit 803 controls the Wi-Fi connection unit 801 and the NFC connection unit 802. The mobile terminal side control unit 803 corresponds to the CPU, RAM, and ROM provided in the mobile terminal 3.

The display unit 804 is a functional unit that displays information such as contents as an image on the mobile terminal 3, and corresponds to the liquid crystal panel 3a of FIG.

<Explanation of operation of image processing device 2 and mobile terminal 3>
Next, the operation of the image processing device 2 and the mobile terminal 3 will be described.

[First Embodiment]
First, the first embodiment will be described.
FIG. 6 is a flowchart illustrating the operation of the image processing device 2 and the mobile terminal 3 in the first embodiment. Further, FIGS. 7A to 7D show an example of a screen displayed on the liquid crystal panel 3a of the mobile terminal 3 at this time. Further, FIGS. 8-1 (a) to 8 (b) and 8-2 (c) to (e) are views showing an example of a screen displayed on the user interface 400 of the image processing device 2 at this time.
Hereinafter, the operations of the image processing device 2 and the mobile terminal 3 will be described with reference to FIGS. 5 to 8-2. Here, a case where the user makes a copy of the original using the image processing device 2 and the mobile terminal 3 will be described as an example.

First, the user operates the mobile terminal 3 and sets the processing conditions for copying the original in the image processing device 2 (step 101). This is performed by the user operating while looking at the screen displayed on the display unit 804 of the mobile terminal 3.

Actually, the user starts an application for setting this processing condition on the mobile terminal 3 and sets the processing condition using this application. Specifically, when the application for setting the processing conditions is started, the screen of FIG. 7A is displayed on the liquid crystal panel 3a. This screen allows the user to select a function to be performed by the image processing device 2. In this case, the user selects a copy function by tapping "copy".

FIG. 7B is a screen displayed on the liquid crystal panel 3a after tapping "copy", and is a screen for selecting what kind of document to copy. On this screen, the user can select from "normal copy" (single-sided copy), "license / business card copy", "double-sided copy", "two copies one copy" (two ups), and "poster copy". You can choose. And here, the user shall tap "normal copy".

In this case, the screen is switched to that shown in FIG. 7 (c). FIG. 7C shows various conditions for copying. Here, the color mode, paper size, magnification, copy density, and image quality of the original can be set. Then, it is assumed that the user sets "black and white" as the color mode, "A4" as the paper size, "100%" as the magnification, "normal" as the copy density, and "character / photograph" as the image quality of the original.
As described above, in the mobile terminal 3, the processing conditions for copying by the image processing device 2 can be set.

Then, when the user taps the "OK" button while the screen shown in FIG. 7 (c) is displayed, the screen switches to the screen shown in FIG. 7 (d). The screen of FIG. 7D is a standby screen for transmitting the processing conditions to the image processing device 2 by NFC.

Returning to FIG. 6, the user transmits the processing conditions from the mobile terminal 3 to the image processing device 2 using the NFC (step 102). That is, the NFC connection unit 802 of the mobile terminal 3 and the NFC connection unit 702 of the image processing device 2 are automatically connected by NFC, and the mobile terminal 3 transmits the processing conditions to the image processing device 2. It is done. The processing conditions are transmitted using, for example, NDEF (NFC Data Exchange Format).

Actually, the user holds the mobile terminal 3 over the NFCI / F600 of the image processing device 2 while the screen of FIG. 7D is displayed. Then, when any part of the screen is tapped, the processing conditions are transmitted from the NFCI / F3c of the mobile terminal 3 to the NFCI / F600 of the image processing device 2.

On the image processing device 2 side, when the NFC connection unit 702 receives the processing conditions, the image processing device side control unit 703 switches the screen displayed on the display unit 705 to one that displays the processing conditions (step 103). .. This screen is a screen in which the user confirms the processing conditions. Further, the processing condition may be changed by the user inputting the change of the processing condition from the input unit 706 on this screen.

Further, when the image processing device side control unit 703 receives the processing condition from the NFC connection unit 702, the image processing device side control unit 703 is in a state of not accepting the information regarding the processing condition from the other mobile terminal 3 (step 104).

Next, the image processing device side control unit 703 determines whether or not an execution instruction has been input from the input unit 706 (step 105).
Then, when the execution instruction is not input from the input unit 706 (No in step 105), it is determined whether or not the time after receiving the processing condition from the NFC connection unit 702 has elapsed more than a predetermined time (No). Step 106). Then, when a predetermined time or more has elapsed (Yes in step 106), the image processing device side control unit 703 releases the state of not accepting information on the processing conditions from the other mobile terminal 3 (step 107). .. If the time has not passed since the predetermined time (No in step 106), the process returns to step 105.

On the other hand, when the user sets the original and the execution instruction is input from the input unit 706 (Yes in step 105), the image processing unit 704 copies the original (step 108).

Actually, in the image processing device 2, the screen of FIG. 8-1 (a), which is the standby screen for the operation, is first displayed on the user interface 400. Then, when the NFCI / F600 receives the processing condition from the mobile terminal 3 from this state, the screen is switched to the screen shown in FIG. 8-1 (b).
The screen shown in FIG. 8-1 (b) displays the processing conditions, and the same screen as that in FIG. 7 (c) described above is displayed on the user interface 400. Then, when the user sees the processing conditions displayed on the user interface 400 and wants to make a change, he / she can touch the user interface 400 to input the changed processing conditions. The changed processing conditions are reflected in the display of the user interface 400. In this state, even if the other mobile terminal 3 is held over the NFCI / F600 of the image processing device 2, the change of the processing condition is not accepted.

Further, in the present embodiment, by touching the "Go to document setting method" button from the screen of FIG. 8-1 (b), the screen displayed on the user interface 400 is displayed in FIGS. 8-2 (c) and 8 You may shift to the screen as shown in -2 (d).

Of these, FIG. 8-2 (c) is a screen for explaining a method of setting a document on the platen glass 111 (see FIG. 3) of the image reading unit 110. As shown in the figure, the relationship between the size of the paper and the position where the original is set on the platen glass 111 is described with reference to the drawings.

Further, FIG. 8-2 (d) is a screen for explaining a method of setting a document when the document transport unit 120 (see FIG. 3, automatic document feeder) can be used. In FIG. 8-2 (d), the same screen as in FIG. 8-2 (c) is displayed on the user interface 400 when the "when using the document feeder" is not checked. On the other hand, when the user checks the box, the display is switched to the screen shown in FIG. 8-2 (e), and the screen explains how to set the document on the automatic document feeder.

Then, when the user sets the manuscript according to the instructions on the screen illustrated in FIGS. 8-2 (c) to (e) and presses the start key, the manuscript is copied. However, if the start key is not pressed within the predetermined time, the processing conditions are cleared and the screen returns to the screen shown in FIG. 8-1 (a).

[Second Embodiment]
Next, the second embodiment will be described.
FIG. 9 is a flowchart illustrating the operation of the image processing device 2 and the mobile terminal 3 in the second embodiment. Further, FIGS. 10-1 (a) to 10 (c) and 10-2 (d) to (f) show an example of a screen displayed on the liquid crystal panel 3a of the mobile terminal 3 at this time. Further, FIGS. 11-1 (a) to 11 (c) and 11-2 (d) to (f) are diagrams showing an example of a screen displayed on the user interface 400 of the image processing device 2 at this time.
Hereinafter, the operations of the image processing device 2 and the mobile terminal 3 will be described with reference to FIGS. 9 to 11-2. Here, too, a case where the user makes a copy of the original using the image processing device 2 and the mobile terminal 3 will be illustrated and described.

Step 201 of FIG. 9 is the same as step 101 of FIG. Further, FIGS. 10-1 (a) to (c), which are screens displayed on the user interface 400 of the mobile terminal 3 at this time, are the same as those in FIGS. 7 (a) to 7 (c).

In the present embodiment, when the screen of FIG. 10-1 (c) is displayed and the "OK" button is tapped, the screen is switched to the screen of FIG. 10-2 (d). The screen of FIG. 10-2 (d) is a screen that prompts the image processing device 2 to press the “mobile acceptance” button described later.
Then, when "Next" is touched on the screen of FIG. 10-2 (d), the screen is switched to the screen of FIG. 10-2 (e). The screen of FIG. 10-2 (e) is a screen that prompts the mobile terminal 3 to be held over the NFCI / F600 of the image processing device 2, and then switches to the screen of FIG. 10-2 (f). The screen of FIG. 10-2 (f) is a standby screen for transmitting the processing conditions to the image processing device 2 by NFC.

Returning to FIG. 9, on the image processing apparatus 2 side, the input unit 706 receives the input of the reception instruction from the user (step 202).

Actually, in the image processing device 2, the screen of FIG. 11-1 (a), which is the standby screen for the operation, is first displayed on the user interface 400. Then, when the "Mobile Acceptance" button is touched from this state, the screen is switched to the screen shown in FIG. 11-1 (b). Touching this "mobile acceptance" button corresponds to the user inputting a reception instruction.
FIG. 11-1 (b) is a standby screen for receiving the processing condition from the mobile terminal 3 by NFC.

Further, the next step 203 is the same as the step 102 of FIG.
Actually, with the screens of FIGS. 10-2 (f) and 11-1 (b) displayed, the mobile terminal 3 is held over the NFCI / F600 of the image processing device 2, and any of the screens is displayed. When the portion of is tapped, the processing conditions are transmitted from the NFCI / F3c of the mobile terminal 3 to the NFCI / F600 of the image processing device 2. After that, even if the other mobile terminal 3 is held over the NFCI / F600 of the image processing device 2, the change of the processing condition is not accepted.

After that, steps 204 to 209 are the same as steps 103 to 108. At this time, FIGS. 11-1 (c) and 11-2 (d) to (f), which are screens displayed on the user interface 400, are shown in FIGS. 8-1 (b) and 8-2 (c) to 8-2 (c). It is the same as (e).

According to the example described in detail above, after the processing conditions are transmitted from the mobile terminal 3 to the image processing device 2 by NFC, the processing conditions from the other mobile terminals 3 are not accepted. As a result, even when the user leaves the image processing device 2, for example, it is possible to prevent the processing conditions from being changed by another person. Therefore, the user can suppress the image processing from being performed under unexpected processing conditions, and the convenience of the user is further improved. Further, when the user does not input the execution instruction within the predetermined time, the state of not accepting the information regarding the processing conditions from the other mobile terminal 3 is released. As a result, when the user loses the intention to perform image processing, the other person is allowed to send the processing condition.
Conventionally, a request for image processing or the like is usually accepted without being restricted as much as possible, and there is almost no restriction on acceptance of processing conditions. On the other hand, in the present embodiment, restrictions are set on the acceptance of processing conditions, thereby improving user convenience.

In the above-described example, the communication unit of the image processing device 2 is the NFC connection unit 702, which performs NFC communication, but is not limited to this. For example, the image processing device 2 and the mobile terminal 3 may communicate with each other by infrared communication or Bluetooth (registered trademark) (Bluetooth) to transmit and receive processing conditions.
Further, in FIGS. 6 to 11-2, the case where the original is copied by using the image processing device 2 and the mobile terminal 3 has been described, but it is needless to say that it can also be applied to the case of printing, scanning, and facsimile transmission. ..
Further, in the above-described example, the image forming apparatus 200 has been described by taking an electrophotographic type as an example, but an inkjet type may also be used.
Further, in the above-described example, the image processing apparatus 2 side receives information on the processing conditions for performing image processing by the NFC connection unit 702 by wireless communication, but the present invention is not limited to this. For example, information on processing conditions may be transmitted by wired communication from the operation terminal 4 or management server 5 of FIG. 1 using a network 6 or the like, and may be received by a wired I / F or the like of the image processing device 2. In this case, the wired I / F functions as a communication unit.

Although the present embodiment has been described above, the technical scope of the present invention is not limited to the scope described in the above embodiment. It is clear from the description of the claims that the above-described embodiment with various modifications or improvements is also included in the technical scope of the present invention.

1 ... image processing system, 2 ... image processing device, 3 ... mobile terminal, 3a ... liquid crystal panel, 3b ... wireless I / F, 3c ... NFCI / F, 100 ... image reading device, 200 ... image forming device, 300 ... control Device, 400 ... User interface (UI), 500 ... Wireless I / F, 600 ... NFCI / F, 701, 801 ... Wi-Fi connection unit, 702, 802 ... NFC connection unit, 703 ... Image processing device side control unit, 704 ... Image processing unit, 705, 804 ... Display unit, 706 ... Input unit, 803 ... Mobile terminal side control unit

Claims (9)

A communication unit that is stored in a terminal device and receives information on processing conditions for performing image processing specified by the terminal device.
A control unit that receives information on the processing conditions from one terminal device that performs wireless communication in the communication unit and does not accept information from other terminal devices other than the one terminal device.
An image processing unit that performs the image processing and
An input unit in which the user can further input an execution instruction for executing the image processing, and the user inputs a reception instruction so that the communication unit can receive information regarding the processing condition.
With
The control unit
When the user inputs the reception instruction, the information about the processing condition is received from the one terminal device, and when the communication unit receives the information about the processing condition from the one terminal device, the above-mentioned Information on the processing conditions from other terminal devices is not accepted.
When the communication unit receives the information about the processing condition from the one terminal device, the information about the processing condition from the other terminal device is not accepted.
An image processing device characterized in that when the user does not input an execution instruction within a predetermined time, the state of not accepting information on the processing conditions from the other terminal device is released. A display unit for displaying the processing conditions is further provided.
The control unit
When the communication unit receives information on the processing condition from the one terminal device, the display unit switches to a screen for displaying the processing condition based on the received information on the processing condition, and also switches to the input unit. Allows the user to input the changed processing condition when the user wants to change the processing condition displayed on the display unit.
The image processing apparatus according to claim 1. The image processing apparatus according to claim 1, wherein the communication unit receives information on the processing conditions by wireless communication. An image processing device that processes images and
A terminal device that creates processing conditions for performing image processing with the image processing device and transmits the processing conditions to the image processing device.
With
The image processing device is
A communication unit that receives information about the processing conditions,
A control unit that receives information on the processing conditions from one terminal device that performs wireless communication in the communication unit and does not accept information from other terminal devices other than the one terminal device.
An image processing unit that performs the image processing and
An input unit in which the user can further input an execution instruction for executing the image processing, and the user inputs a reception instruction so that the communication unit can receive information regarding the processing condition.
With
The control unit
When the user inputs the reception instruction, the information about the processing condition is received from the one terminal device, and when the communication unit receives the information about the processing condition from the one terminal device, the above-mentioned Information on the processing conditions from other terminal devices is not accepted.
When the communication unit receives the information about the processing condition from the one terminal device, the information about the processing condition from the other terminal device is not accepted.
An image processing system characterized in that when a user does not input an execution instruction within a predetermined time, the state of not accepting information on the processing conditions from the other terminal device is released. A display unit for displaying the processing conditions is further provided.
The control unit
When the communication unit receives information on the processing condition from the one terminal device, the display unit switches to a screen for displaying the processing condition based on the received information on the processing condition, and also switches to the input unit. Allows the user to input the changed processing condition when the user wants to change the processing condition displayed on the display unit.
The image processing system according to claim 4, wherein the image processing system is characterized by the above. The image processing system according to claim 4 , wherein the communication unit receives information on the processing conditions by short-range wireless communication. A wireless communication interface unit that is set by the first terminal device and receives information on processing conditions for performing image processing.
A control unit that causes the wireless communication interface unit to receive information on the processing conditions from the first terminal device, and a control unit.
A processor having a memory for holding an instruction to control an image processing unit that performs image processing, and a processor.
With
The control unit
After the first terminal device is connected to the image processing device, when the second terminal device tries to connect to the image processing device, the change of the processing condition is not accepted.
An image processing device characterized in that after the first terminal device is connected to the image processing device, information regarding the processing conditions is not accepted from the second terminal device. A user interface that displays the processing conditions and allows the user to input a reception instruction that enables the wireless communication interface unit to receive information on the processing conditions is further provided.
The control unit
When the user inputs the reception instruction through the user interface, the information regarding the processing conditions is received from the first terminal device.
When the wireless communication interface unit receives information on the processing conditions from the first terminal device, the user interface displays and displays the processing conditions based on the received information on the processing conditions. When the user wants to change the processing condition, the user can enter the changed processing condition.
The image processing apparatus according to claim 7. 7. The seventh aspect of the present invention is that when the user does not input the instruction within a predetermined time, the control unit releases the state of not accepting the information regarding the processing condition from the second terminal device. The image processing apparatus described.

Images