JP6958171B2 - Image forming systems, information processing equipment, and programs - Google Patents

Description

The present disclosure relates to the output of a print job that requires user authentication, and more particularly to an image forming system in which job data is transferred to an image forming apparatus via an information processing apparatus.

Conventionally, when an image forming apparatus outputs a print job, various techniques for enhancing the security related to the output by using a password or the like have been proposed.

For example, Japanese Patent Application Laid-Open No. 2008-181219 (Patent Document 1) discloses a host output processing system. In the system, "the host computer 20 that has received the print instruction generates host print data. In this case, a predetermined character string and a host account ID specified by the print instruction are printed on the banner page on the banner page. Next, the host print management means 31 of the print server 30 converts the data format. Next, the print setting means 33 associates the data with a predetermined keyword at a predetermined coordinate on the banner page. The obtained host account ID is extracted, and the acquired host account ID is added as a job user ID to the PJL command area provided in the header portion of the print data ”(see the abstract of Patent Document 1).

Japanese Unexamined Patent Publication No. 2015-125478 (Patent Document 2) discloses an image forming system. The image forming system includes a client, a server, and an image forming apparatus. The client includes a user identification information specification unit that specifies user identification information that identifies a user to the server. The server includes a user identification information storage unit that stores a plurality of the user identification information that identifies each of the plurality of users associated with the image forming apparatus, and the user designated by the client among the plurality of the user identification information. It includes a user identification information transmission unit that transmits identification information and a print job to the image forming apparatus. The image forming apparatus stores the user information list storage unit that stores in advance a user information list in which the user identification information is associated with the authentication information that authenticates the user identification information, and the print job and the user identification information. When the user identification information receiving unit received from the server and the authentication information corresponding to the received user identification information are input, the user information list is referred to whether or not the input authentication information is normal. When it is determined that the authentication information is normal, it is provided with an authentication unit that permits printing of the print job. (See claim 1 of Patent Document 2).

Japanese Unexamined Patent Publication No. 2008-269298 (Patent Document 3) discloses a print control system. In the system, "the print server 1 is connected to a plurality of printers 2a, 2b, 2c having a hold printing function via a network. The print server 1 is a user position information acquisition unit that acquires the user's position information. The 116, the destination printer extraction unit 112 that extracts two or more printers close to the acquired user position, and the print data received from the PC 3 are transmitted to each printer extracted by the destination printer extraction unit 112, and the print data is transmitted to each printer. When the print data transmission unit 114 held by the printer and the print notification of the print data are received from any of the printers of each printer, the print data deletion instruction unit instructing other printers other than the printer to delete the print data. 115. ”(See abstract of Patent Document 3).

Japanese Unexamined Patent Publication No. 2008-181219 Japanese Unexamined Patent Publication No. 2015-125478 Japanese Unexamined Patent Publication No. 2008-269298

Here, in a system in which a print job executed in the image forming apparatus is stored in an information processing device such as a server capable of communicating with the image forming apparatus, the print job is performed after the user instructs the start of the print job from the terminal. Once spooled in the information processing device. After that, when the user authentication is completed, the information processing device transfers the print job to the image forming device. The image forming apparatus spools the print job and then outputs the print job. That is, in the above system, the print job is spooled twice. Therefore, the system requires a long time from the start instruction of the print job to the output, as compared with the image forming apparatus that directly receives the print job from the user's terminal.

The present disclosure has been conceived in view of such circumstances, and an object thereof is to start a print job in a system in which a print job executed by the image forming apparatus is transferred to the image forming apparatus via an information processing apparatus. It is to shorten the time from instruction to execution.

According to certain aspects of the present disclosure, an image forming system including an information processing apparatus and an image forming apparatus capable of communicating with the information processing apparatus is provided. The information processing device transfers the job data received by the first storage unit, the communication interface for communicating with the device outside the image forming system, and the communication interface to the image forming device without spooling to the first storage unit. Includes a control unit configured to transfer. The image forming apparatus includes a second storage unit configured to spool job data. The control unit further stores the job identification information that identifies the job data and the user identification information that identifies the user to which the job data corresponds based on the job data in the first storage unit in association with each other, and authenticates the user. It is configured to instruct the image forming apparatus to form an image of job data corresponding to the job identification information associated with the user identification information of the user.

The control unit accepts the selection of the image formation target from the job data corresponding to the job identification information associated with the user identification information of the authenticated user, and forms an image of the job data selected as the image formation target. May be configured to instruct the image forming apparatus.

The control unit may be configured to identify the header portion of the job data and acquire the job identification information and the user identification information from the header portion by analyzing the script of the job data.

The control unit further generates job identification information that identifies the job data received by the communication interface, adds the generated job identification information to the job data, and then transfers the job data to the image forming apparatus. It may be configured.

The communication interface may be further configured to be able to communicate with the image forming apparatus and other image forming apparatus. The control unit selects the transfer destination of the job data from the image forming apparatus and other image forming apparatus based on the job data received by the communication interface, transfers the job data to the selected transfer destination, and transfers the image. It may be configured to direct the formation of.

The control unit may be configured to select the transfer destination according to at least one of the user identification information and the reception time of the job data.

The job data may include a file to be image-formed. The control unit may be configured to select a transfer destination according to the characteristics of the file in the job data.

File properties may include the name of the file.
According to another aspect of the present disclosure, a storage unit, a communication interface configured to communicate with a device including an image forming apparatus, and an image forming apparatus without spooling job data received by the communication interface to the storage unit. The job identification information that identifies the job data based on the job data and the user identification information that identifies the user to which the job data corresponds are stored in the storage unit in association with each other, and the user of the authenticated user. An information processing apparatus is provided that includes a control unit configured to instruct the formation of an image of job data corresponding to the job identification information associated with the identification information.

According to yet another aspect of the present disclosure, there is provided a program executed by a processor of an information processing device including a storage unit and a communication interface configured to communicate with a device including an image forming device. The program transfers the job data received by the communication interface to the image forming device without spooling it to the storage unit, and the job identification information that identifies the job data based on the job data and the job data Instructs to store the user identification information that identifies the corresponding user in the storage unit in association with each other and to form an image of the job data corresponding to the job identification information associated with the user identification information of the authenticated user. To do and to do.

According to the present disclosure, after the job data is received by the information processing apparatus, it is spooled in the image forming apparatus without being spooled in the information processing apparatus. When the user authenticates, the information processing device instructs the image forming device to form an image of the job data spooled in the image forming device. As a result, it is possible to avoid lengthening the time required for image formation due to the spooling of job data in the information processing apparatus.

It is a figure which shows the schematic structure of the network system. It is a hardware block diagram of the information processing apparatus 100. It is a figure for demonstrating the flow of control in an image formation system. It is a figure which shows an example of the data structure of a job data. It is a figure which shows an example of the data structure of the association information stored in the printer side storage 120. It is a figure which shows an example of the data structure of the secure job management information stored in a user database 240. It is a flowchart of an example of the process executed in the server part 20 and the printer part 10. It is a flowchart of the subroutine of the association information generation processing. It is a flowchart of the subroutine of the user identification information registration process. It is a flowchart of the subroutine of the job identification information registration process. It is a flowchart of the subroutine of the job management process. It is a flowchart of the subroutine of job selection acceptance processing. It is a figure which shows an example of the screen which selects a job. It is a flowchart of a subroutine of log identification processing. It is a figure which shows the other configuration example of a network system. It is a figure which shows the hardware configuration of the information processing apparatus 100 and two MFPs 100A, 100B of FIG. It is a figure which shows an example of the data structure of the transfer destination information. It is a figure which shows the other configuration example of a network system. It is a figure which shows the hardware configuration of the information processing apparatus 100 of FIG. 18 and three MFPs 100A, 100B, 100C.

Hereinafter, embodiments of the image forming system will be described with reference to the drawings. In the following description, the same parts and components are designated by the same reference numerals. Their names and functions are the same. Therefore, these explanations will not be repeated.

[1. Configuration example of image formation system]
FIG. 1 is a diagram showing a schematic configuration of a network system. As shown in FIG. 1, in the network system 1000, the information processing device 100, which is an example of the image forming system, communicates with the terminal 500 via the network N. The network N may be a LAN (local area network) or a global network. The terminal 500 is realized by, for example, a personal computer in which a printer driver is installed. The terminal 500 may be realized by a device such as a smartphone or a tablet terminal as long as it is a device that can output a print instruction together with a print job.

The information processing device 100 is realized as, for example, a device in which a server and an MFP (Multi-Functional Peripheral: image forming apparatus) are integrally configured by connecting their respective housings. The information processing device 100 includes a printer unit 10, a server unit 20, and an operation panel 30 used as a user interface of the printer unit 10 and the server unit 20.

[2. Hardware configuration]
FIG. 2 is a hardware block diagram of the information processing device 100. Hereinafter, the configurations of the printer unit 10 and the server unit 20 will be described.

(Printer unit 10)
The printer unit 10 includes a CPU (Central Processing Unit) 150 for controlling the entire printer unit 10 and a storage unit 160. The storage unit 160 is realized by, for example, a non-volatile memory. The information stored in the storage unit 160 may include a program executed by the CPU 150 and data used for executing the program.

The printer unit 10 further includes an image processing unit 151, an image forming unit 152, an image reading unit 153, and an internal interface 180. The image processing unit 151 executes processing such as enlargement / reduction of the output image by processing the input image data. The image processing unit 151 is realized by, for example, a processor and a memory for image processing. The image forming unit 152 includes hardware resources for forming an image on the recording paper, such as a toner cartridge, a paper tray for accommodating the recording paper, and a photoconductor, and hardware for transporting the recording paper. Realized by resources. The image reading unit 153 is realized by a hardware resource such as a scanner configured to generate image data of a document. Since the functions of the image processing unit 151, the image forming unit 152, and the image reading unit 153 are well known in the image forming apparatus, detailed description thereof will not be repeated here.

The internal interface 180 functions as an interface for communication with the server unit 20, and is realized by, for example, a LAN (Local Area Network) card.

(Server section 20)
The server unit 20 includes a CPU 250 for controlling the entire server unit 20, a network communication unit 260, a storage unit 270, and an internal interface 280.

The network communication unit 260 is realized by a hardware resource configured to execute data transmission / reception to / from an external device such as a terminal 500 via a global network. An example of such a hardware resource is a network card. The CPU 250 communicates with an external device via the network communication unit 260.

The storage unit 270 is realized by, for example, a non-volatile memory. The information stored in the storage unit 270 may include a program executed by the CPU 250 and data used for executing the program.

The CPU 250 is further configured to control the operation panel 30. The operation panel 30 is a control circuit 350, a display unit 360 realized by an organic EL (Electro Luminescence) display or the like, an operation unit 370 realized by a touch sensor or the like, and a card realized by a non-contact card reader or the like. Includes reader 380.

The control circuit 350 controls the display operation of the display unit 360 according to the control signal from the CPU 250. The operation unit 370 outputs the input information to the control circuit 350. The control circuit 350 outputs a signal corresponding to the information input from the operation unit 370 to the CPU 250. The control circuit 350 transfers the data read by the card reader 380 to the server unit 20 in response to the control signal from the CPU 250.

[3. Control flow in the image formation system]
FIG. 3 is a diagram for explaining a flow of control in the image forming system (information processing device 100). In FIG. 3, the arrow AR1 schematically represents the flow of print job data (hereinafter, also referred to as “job data”). The arrow AR2 represents the flow of instructions for job execution.

FIG. 3 shows a functional block of the information processing device 100. When the server unit 20 receives the job data from the terminal 500, the job reception control unit 210 transfers the job data to the job script processing unit 211. The job script processing unit 211 generates association information (association information (FIG. 5) described later) for the print job by analyzing the header of the job data and stores it in the server-side storage 220.

More specifically, the job script processing unit 211 includes a job script reading unit 212, a job script analysis unit 213, and a job script writing unit 214. The job script reading unit 212 reads the script of the job data. The job script analysis unit 213 analyzes the script read by the job script reading unit 212. In a certain embodiment, the job script analysis unit 213 identifies the header part of the job data by the script analysis of the job data, acquires the job ID and the user ID from the header part, and uses these as the association information on the server side. Store in storage 220. Job data is described using, for example, a language such as PJL (Printer Job Language) or PGL (Printronix Graphics Language). The job script analysis unit 213 analyzes the job data using the protocol information for script analysis of PJL and / or PGL.

When the job data does not include the job ID, the job script writing unit 214 generates a job ID and writes it to the job data. The job script writing unit 214 acquires the user ID from the user database 240 when the job data does not include the user ID. The job script analysis unit 213 may include the job ID generated by the job script writing unit 214 in the association information. The job script analysis unit 213 may include the user ID acquired by the job script writing unit 214 in the association information.

In one embodiment, the user database 240 stores secure job management information (see FIG. 6). Secure job management information associates a file name with a user ID. The job script writing unit 214 acquires the file name of the file included in the body 902 as the print target in the job data, and sets the user ID associated with the file name in the secure job management information as the user ID corresponding to the job data. get.

The job script processing unit 211 transfers the job data to the job transfer control unit 215. The job transfer control unit 215 transfers job data to the printer unit 10. The association information associates information that identifies a print job (for example, a job ID) with information that identifies a user (for example, a user ID).

That is, when the server unit 20 receives the job data, it generates and stores the association information based on the job data, and transfers the job data to the printer unit 10 without spooling it. The spool of job data is, for example, accumulating job data.

In the printer unit 10, the job spool control unit 110 receives the job data transferred from the server unit 20 and stores (spools) it in the server-side storage 220.

In the server unit 20, the user authentication processing unit 233 authenticates the user according to the information read by, for example, the card reader 380. The user database 240 stores information used for user authentication (for example, a combination of a user ID and a password). The user authentication processing unit 233 may authenticate the user by using the information stored in the user database 240.

When the user authentication processing unit 233 succeeds in authenticating the user, the user authentication processing unit 233 instructs the secure job information display unit 231 to display the job information associated with the user in the server-side storage 220. In response, the secure job information display unit 231 displays a list of jobs associated with the authenticated user. The secure job information display unit 231 accepts the selection of a job from the list, and notifies the print processing command control unit 232 of the selected job.

The print processing command control unit 232 instructs the printer unit 10 to execute the job notified by the secure job information display unit 231. The instruction is realized, for example, by sending a command. The command sent identifies the job.

The secure job information display unit 231 may be omitted in the server unit 20. That is, the print processing command control unit 232 may instruct the printer unit 10 to execute all the jobs associated with the authenticated user.

When the command information control unit 132 receives the command of the instruction from the print processing command control unit 232, the command information control unit 132 analyzes the command and inputs the analysis result to the job data control unit 131. The analysis result identifies the job that has been instructed to execute.

The job data control unit 131 reads the job data of the job specified by the analysis result from the command information control unit 132 from the printer side storage 120, and instructs the print processing unit 133 to execute the job. In response to this, the print processing unit 133 outputs an image of the job.

The job reception control unit 210 is realized by, for example, a CPU 250 that executes a given program and a network communication unit 260. The job script processing unit 211 and the user authentication processing unit 233 are realized by, for example, a CPU 250 that executes a given program. The job transfer control unit 215 and the print processing command control unit 232 are realized by, for example, a CPU 250 that executes a given program and an internal interface 280. The print processing command control unit 232 is realized by, for example, a CPU 250 that executes a given program, a control circuit 350, a display unit 360, and an operation unit 370. The server-side storage 220 and the user database 240 are realized, for example, by the storage unit 270.

The job spool control unit 110 and the job data control unit 131 are realized by, for example, a CPU 150 that executes a given program and an internal interface 180. The job data control unit 131 is realized by the CPU 150 that executes a given program. The printer-side storage 120 is realized, for example, by the storage unit 160. The print processing unit 133 is realized by, for example, the image forming unit 152.

[4. Example of data structure (job data)]
FIG. 4 is a diagram showing an example of a data structure of job data. With reference to FIG. 4, the job data 900 includes a header 901 and a body 902. The body 902 contains, for example, data of a file to be printed by the job. The body 902 may include the name of the file.

The header 901 is, for example, a job ID (“J1234” in the example of FIG. 4), a security print setting (“ON” in the example of FIG. 4), and a user ID (“U0001” in the example of FIG. 4). And include. The job ID identifies the job. The security print setting has an ON or OFF value. If the value is ON, job execution (image output) requires user authentication. If the value is OFF, job execution does not require user authentication. The user ID identifies the user to which the job corresponds. In certain embodiments, the job data is generated by executing a printer driver installed on the terminal 500. The printer driver sets the ID of the user who instructed the execution of the job as the user ID in the job data, that is, the user ID of the login user in the terminal 500 when the job data is generated. If the value of the security print setting is ON, authentication of the user specified by the user ID is required to execute the job.

[5. Example of data structure (association information)]
FIG. 5 is a diagram showing an example of a data structure of association information stored in the printer-side storage 120. As shown in FIG. 5, the association information associates the job ID with the user ID.

[6. Example of data structure (secure job management information)]
FIG. 6 is a diagram showing an example of a data structure of secure job management information stored in the user database 240. As shown in FIG. 6, the secure job management information associates a file name with a user ID. In the example of FIG. 6, the file name "Document X" is associated with the user ID "U0001".

[7. Process flow]
7 to 14 are flowcharts of an example of processing executed by the server unit 20 and the printer unit 10 when the secure job is executed by the information processing device 100. In the server unit 20, for example, the processing is realized by the CPU 250 executing a given program. In the printer unit 10, the process is realized by, for example, the CPU 150 executing a given program.

With reference to FIG. 7, in step S10, the CPU 250 of the server unit 20 receives the job data from the terminal 500. In step S20, the CPU 250 analyzes the header of the job data.

In step S30, the CPU 250 determines whether or not the value of the security print setting of the job data received in step S10 is ON. If the CPU 250 determines that the value is ON (YES in step S30), the control proceeds to step S40, and if not (NO in step S30), the control proceeds to step S70.

In step S40, the CPU 250 executes the association information generation process. FIG. 8 is a flowchart of a subroutine of the association information generation process. The content of the process will be described with reference to FIG.

In step S402, the CPU 250 extracts the user ID and the job ID from the job data received in step S10. In step S404, the CPU 250 executes the user identification information registration process. FIG. 9 is a flowchart of a subroutine of the user identification information registration process. The content of the process will be described with reference to FIG.

In step S4040, the CPU 250 determines whether or not the user ID could be acquired in step S402. In a certain embodiment, the CPU 250 can acquire the user ID from the job data when the job data includes the user ID, and cannot acquire the user ID from the job data when the job data does not include the user ID. If the CPU 250 determines that the user ID has been acquired (YES in step S4040), the control proceeds to step S4042, and if not (NO in step S4040), the control proceeds to step S4044.

In step S4042, the CPU 250 registers the user ID acquired in step S402 as the user ID of the job data received in step S10 in the association information 121 (FIG. 5), and returns control to FIG.

In step S4044, the CPU 250 extracts the file name of the file included in the job data received in step S10 as a print target, and whether or not the file name is registered in the secure job management information 122 (FIG. 6). To judge. If the CPU 250 determines that the file name is registered in the secure job management information 122 (YES in step S4044), it proceeds to control to step S4046, otherwise (NO in step S4044), it goes to step S4048. Advance control.

In step S4046, the CPU 250 adds the user ID associated with the file name in the secure job management information 122 to the job data received in step S10, and further registers the user ID in the association information 121. Then, the control is returned to FIG.

In step S4048, the CPU 250 notifies the error and ends the process. The error indicates that the user ID of the job data cannot be specified even though the value of the security print setting is ON in the job data (YES in step S30 of FIG. 7).

Returning to FIG. 8, after step S404, in step S406, the CPU 250 executes the job identification information registration process. FIG. 10 is a flowchart of a subroutine of job identification information registration processing. The content of the process will be described with reference to FIG.

In step S4060, the CPU 250 determines whether or not the job ID could be acquired in step S402 (FIG. 8). In a certain embodiment, the CPU 250 can acquire the job ID from the job data when the job data includes the job ID, and cannot acquire the job ID from the job data when the job data does not include the job ID. If the CPU 250 determines that the job ID has been acquired (YES in step S4060), the control proceeds to step S4062, and if not (NO in step S4060), the control proceeds to step S4064.

In step S4062, the CPU 250 generates a job ID. The CPU 250 generates a job ID, for example, as a character string representing a combination of date and time. In step S4064, the CPU 250 registers the job ID acquired in step S402 or the job ID generated in step S4062 in the association information 121 as the job ID of the job data received in step S10. As a result, the job ID is associated with the user ID registered in step S4042 or step S4046. After that, the control returns to FIG. 8 and further to FIG.

In step S70, the CPU 250 transfers the job data received in step S10 to the printer unit 10. In response to this, in step SA10, the CPU 150 of the printer unit 10 spools the job data transferred from the server unit 20 to the storage unit 160.

In step S80, the CPU 250 executes a job management process for instructing the output of the spooled job data in the printer unit 10. FIG. 11 is a flowchart of a subroutine of job management processing. In addition, FIG. 11 further shows a flowchart of processing executed in response to the job management processing in the printer unit 10.

In step S800, the CPU 250 determines whether or not the user has been authenticated by the server unit 20. For authentication, in some embodiments, the user inputs a combination of user ID and password to the operating unit 370. In another embodiment, the user holds an IC (Integrated Circuit) card storing data for user authentication such as a combination of a user ID and a password in the card reader 380. The card reader 380 reads the data stored in the IC card and transfers it to the CPU 250 of the server unit 20. If the combination of the input user ID and password matches the combination stored in the user database 240, the CPU 250 authenticates the user corresponding to the stored combination, and if not, does not authenticate the user.

The CPU 250 retains control in step S800 until it determines that the user has been authenticated (NO in step S800), and proceeds to step S802 when it determines that the user has been authenticated (YES in step S800).

In step S802, the CPU 250 executes the job selection acceptance process. FIG. 12 is a flowchart of a subroutine of job selection acceptance processing. The content of the process will be described with reference to FIG.

In step S8020, the CPU 250 searches for the job of the logged-in user (authenticated user) in the association information. For example, the CPU 250 searches for a job ID associated with the user ID of the user authenticated in step S800 (FIG. 11).

In step S8022, the CPU 250 determines whether or not the login user's job is present in the association information as a result of the search in step S8020. If (NO in step S8022), the control proceeds to step S8026.

When step S8026 is executed, the job corresponding to the logged-in user is not registered. Therefore, in step S8026, the CPU 250 executes a process (a process other than the output of the secure job) according to the user operation.

In step S8024, the CPU 250 displays a screen for selecting a job instructing printing from the jobs associated with the logged-in user in the association information 121 (FIG. 5). FIG. 13 is a diagram showing an example of a screen for selecting a job. In one embodiment, the user ID of the logged-in user is associated with the job IDs of the three jobs. Screen 1300 of FIG. 13 according to this embodiment includes links 1301, 1302, 1303 for selecting each of the three jobs. The user selects one or more jobs by operating one or more links among the links 1301, 1302, 1303 on the screen 1300. After step S8024, the CPU 250 returns control to FIG.

Returning to FIG. 11, in step S804, the CPU 250 selects a job that issues a print instruction from one or more jobs associated with the logged-in user, such as by accepting an operation on the screen 1300 of FIG.

In step S806, the CPU 250 executes the job identification process. FIG. 14 is a flowchart of a subroutine for log identification processing. The content of the process will be described with reference to FIG.

In step S8060, the CPU 250 searches the job data of the job selected in step S804 from the jobs spooled in the printer unit 10. In step S8062, the CPU 250 determines whether or not the job data of the selected job is spooled in the printer unit 10. When the CPU 250 determines that the job is spooled in the printer unit 10 (YES in step S8062), the CPU 250 returns the control to FIG. On the other hand, when the CPU 250 determines that the job is not spooled in the printer unit 10 (NO in step S8062), the CPU 250 proceeds to control to step S8064.

In step S8064, the CPU 250 notifies the error and ends the process of FIG. As a result, if the job data of the selected selected job is not spooled in the printer unit 10 due to the job data being deleted by mistake, an error is notified and the process ends. The user can make the information processing device 100 output the job data by transmitting the job data to the information processing device 100 again or the like.

Returning to FIG. 11, in step S808, the CPU 250 instructs the printer unit 10 to execute the job selected in step S804. In response to this, in step SA20, the CPU 150 of the printer unit 10 reads out the job data of the selected job, and causes the image forming unit 152 to output the image corresponding to the job data.

In the present embodiment described above, when the information processing device 100 receives the job data, the server unit 20 generates the association information of the job data and then does not spool the job data to the server unit 20. Transfer to the printer unit 10. The printer unit 10 spools the job data. When the server unit 20 authenticates the user, the server unit 20 instructs the printer unit 10 to execute the job associated with the user. The printer unit 10 reads the job data of the instructed job and forms an image of the job data.

[8. Other configuration examples of network system]
FIG. 15 is a diagram showing another configuration example of the network system. In the network system 1001 of FIG. 15, the information processing device 100 is connected to the MFPs 100A and 100B. In the information processing device 100, the CPU 250 of the server unit 20 selects a job data transfer destination from the printer unit 10, the MFP 100A, and the MFP 100B.

FIG. 16 is a diagram showing a hardware configuration of the information processing device 100 of FIG. 15 and the two MFPs 100A and 100B. In FIG. 16, the operation panel 30 is simplified for the sake of simplification of the description, but the operation panel 30 of FIG. 16 may have the same configuration as the operation panel 30 of FIG.

The MFPs 100A and 100B have CPUs 150A and 150B, image processing units 151A and 151B, image forming units 152A and 152B, image reading units 153A and 153B, storage units 160A and 160B, and network communication units 170A and 170B, respectively. including. In one embodiment, the image processing units 151A and 151B are the image processing unit 151, the image forming units 152A and 152B are the image forming unit 152, and the image reading units 153A and 153B are the image reading unit 153 and the storage units 160A and 160B. The storage unit 160 and the network communication units 170A and 170B have the corresponding functions of the network communication unit 260, respectively.

The MFP 100A spools the transferred job data to the storage unit 160A, and when the job execution instruction is received, the image forming unit 152A forms an image corresponding to the job data. The MFP 100B spools the transferred job data to the storage unit 160B, and when the job execution instruction is received, the image forming unit 152B forms an image corresponding to the job data.

In one embodiment, the CPU 250 selects a transfer destination based on the characteristics of the job data. An example of the characteristic is the user ID in the job data. FIG. 17 is a diagram showing an example of a data structure of transfer destination information. As shown in FIG. 17, the transfer destination information associates the user ID with the transfer destination. In one embodiment, the CPU 250 transfers job data to a transfer destination associated with a user ID included in each job data.

The user ID and the transfer destination may be indirectly associated with each other. For example, one or more groups may be assigned to each user ID, and the storage unit 270 may store information relating each group to the transfer destination. The CPU 250 may specify a group assigned to the user ID included in the job data and transfer the job data to the transfer destination associated with the group.

Another example of the characteristics of job data is the file name of the file included as a print target in the job data. For example, the CPU 250 transfers job data whose file name includes a specific character string (“confidential information”, “personnel information”, etc.) to the printer unit 10, and transfers other job data to the MFP 100A or the MFP 100B. The CPU 250 may transfer the job data whose file name does not include a specific character string to the transfer destination (FIG. 17 or the like) associated with the user ID in the job data.

Yet another example of the characteristics of job data is the format of the file included in the job data for printing. In one embodiment, the CPU 250 transfers job data whose print target file is a text file to the printer unit 10, and transfers other job data to the MFP 100A or the MFP 100B. The CPU 250 may transfer job data including a file other than a text file as a print target to a transfer destination (FIG. 17 or the like) associated with the user ID in the job data.

Yet another example of job data characteristics is the job data reception time. In one embodiment, the CPU 250 transfers the job data received during the business hours of the office to the MFP 100A or the MFP 100B, and transfers the job data received outside the business hours to the printer unit 10. The CPU 250 may transfer the job data received during the business hours to the transfer destination (FIG. 17 or the like) associated with the user ID in the job data.

FIG. 18 is a diagram showing still another configuration example of the network system. In the network system 1002 of FIG. 18, the information processing device 100 does not include the printer unit 10, and the information processing device 100 is further connected to the MFP 100C. In the information processing device 100, the CPU 250 of the server unit 20 selects a job data transfer destination from the MFP 100A, the MFP 100B, and the MFP 100C.

FIG. 19 is a diagram showing the hardware configurations of the information processing device 100 of FIG. 18 and the three MFPs 100A, 100B, and 100C. The MFP 100C includes a CPU 150C, an image processing unit 151C, an image forming unit 152C, an image reading unit 153C, a storage unit 160C, and a network communication unit 170C. In one embodiment, the image processing unit 151C is the image processing unit 151, the image forming unit 152C is the image forming unit 152, the image reading unit 153C is the image reading unit 153, and the storage unit 160C is the storage unit 160. The unit 170C has a corresponding function with the network communication unit 260. The MFP 100C spools the transferred job data to the storage unit 160C, and when the job execution instruction is received, the image forming unit 152C forms an image corresponding to the job data.

[9. Disclosure Summary]
(1) According to a certain aspect of the present disclosure, an image forming system (information processing device 100) including an information processing device (server unit 20) and an image forming device (printer unit 10) capable of communicating with the information processing device Provided. The information processing device includes a first storage unit (storage unit 270), a communication interface (network communication unit 260) for communicating with a device outside the image forming system, and a control unit (CPU 250). The control unit is configured to transfer the job data received by the communication interface to the image forming apparatus without spooling it to the first storage unit. The image forming apparatus includes a second storage unit (storage unit 160) configured to spool job data. The control unit first stores the job identification information (job ID) that identifies the job data and the user identification information (user ID) that identifies the user to which the job data corresponds, in association with each other, based on the job data. It is configured to store in the unit, select the job identification information associated with the user identification information of the authenticated user, and instruct the formation of an image of the job data corresponding to the job identification information (step S808). ing.

User authentication may be performed by the control unit or by another device.

(2) The control unit accepts the selection of the image formation target from the job data corresponding to the job identification information associated with the user identification information of the authenticated user (step S6024 in FIG. 12), and the image formation target. It may be configured to instruct the image forming apparatus to form an image of the job data selected as (step S608 in FIG. 11).

(3) The control unit (job script analysis unit 213) identifies the header portion of the job data by performing script analysis of the job data, and acquires job identification information and user identification information from the header portion. It may be configured.

(4) The control unit further generates job identification information that identifies the job data received by the communication interface, adds the generated job identification information to the job data, and then transfers the job data to the image forming apparatus. (S4062 in FIG. 10 and S70 in FIG. 7).

(5) The communication interface may be further configured to be able to communicate with another image forming apparatus from the image forming apparatus (FIGS. 15 and 18). The control unit selects the transfer destination of the job data from the image forming apparatus and other image forming apparatus based on the job data received by the communication interface, transfers the job data to the selected transfer destination, and transfers the image. It may be configured to direct the formation of.

(6) The control unit may be configured to select the transfer destination according to at least one of the user identification information and the reception time of the job data (FIG. 17 and the like).

(7) The job data may include a file to be image-formed. The control unit may be configured to select a transfer destination according to the characteristics (file name, file format) of the file in the job data.

It should be considered that each embodiment disclosed this time is exemplary in all respects and is not restrictive. The scope of the present invention is shown by the scope of claims rather than the above description, and it is intended to include all modifications within the meaning and scope equivalent to the scope of claims. In addition, the inventions described in the embodiments and the modifications are intended to be implemented, either alone or in combination, wherever possible.

10 Printer unit, 20 Server unit, 30 Operation panel, 100 Information processing equipment, 150, 250 CPU, 151, 151A, 151B, 151C Image processing unit, 152, 152A, 152B, 152C Image forming unit, 153, 153A, 153B, 153C image reader, 160, 160A, 160B, 160C, 270 storage, 170A, 170B, 170C, 260 network communication, 180, 280 internal interface 900 job data, 901 header, 902 body.

Claims (6)

An image forming system including an information processing device and an image forming device capable of communicating with the information processing device.
The information processing device
The first storage unit and
A communication interface for communicating with a device outside the image forming system,
A control unit configured to transfer job data received by the communication interface to the image forming apparatus without spooling it to the first storage unit.
Including
The image forming apparatus
A second storage unit configured to spool the job data is included.
The control unit further
Based on the job data, the job identification information that identifies the job data and the user identification information that identifies the user to which the job data corresponds are stored in the first storage unit in association with each other.
It is configured to instruct the image forming apparatus to form an image of job data corresponding to the job identification information associated with the user identification information of the authenticated user .
The communication interface is further configured to be able to communicate with the image forming apparatus and other image forming apparatus.
The control unit
Regarding the job data received by the communication interface, the user identification information, the reception time of the job data, the file name of the file included as the print target in the job data, and the file included as the print target in the job data. Select the transfer destination of the job data based on at least one of the formats,
An image forming system configured to transfer the job data to a selected transfer destination and instruct the formation of the image. The control unit
From the job data corresponding to the job identification information associated with the user identification information of the authenticated user, the selection of the image formation target is accepted.
The image forming system according to claim 1, wherein the image forming apparatus is configured to instruct the image forming apparatus to form an image of job data selected as an image forming target. The control unit
Claim 1 or claim 2 is configured to identify the header portion of the job data and acquire the job identification information and the user identification information from the header portion by analyzing the job data script. The image forming system described in. The control unit further generates job identification information that identifies the job data received by the communication interface, adds the generated job identification information to the job data, and then transfers the job data to the image forming apparatus. The image forming system according to claim 1 or 2 , wherein the image forming system is configured to be the same. Memory and
A communication interface configured to communicate with equipment, including image forming equipment,
The job data received by the communication interface is transferred to the image forming apparatus without being spooled to the storage unit, and the job identification information that identifies the job data based on the job data corresponds to the job data. The user identification information that identifies the user is stored in the storage unit in association with each other, and an instruction is given to form an image of job data corresponding to the job identification information associated with the user identification information of the authenticated user. , and a control unit configured to,
The communication interface is further configured to be able to communicate with the image forming apparatus and other image forming apparatus.
The control unit
Regarding the job data received by the communication interface, the user identification information, the reception time of the job data, the file name of the file included as the print target in the job data, and the file included as the print target in the job data. Select the transfer destination of the job data based on at least one of the formats,
An information processing device configured to transfer the job data to a selected transfer destination and instruct the formation of the image. A program executed by a processor of an information processing device including a storage unit and a communication interface configured to communicate with a device including an image forming device.
The program is applied to the processor.
Transferring the job data received by the communication interface to the image forming apparatus without spooling the job data to the storage unit, and
Based on the job data, the job identification information that identifies the job data and the user identification information that identifies the user to which the job data corresponds are stored in the storage unit in association with each other.
Instructing the formation of an image of job data corresponding to the job identification information associated with the user identification information of the authenticated user, and
To execute ,
The communication interface is further configured to be able to communicate with the image forming apparatus and other image forming apparatus.
The program is applied to the processor.
Regarding the job data received by the communication interface, the user identification information, the reception time of the job data, the file name of the file included as the print target in the job data, and the file included as the print target in the job data. To select the transfer destination of the job data based on at least one of the formats,
A program that transfers the job data to a selected transfer destination, instructs the formation of the image, and executes the operation.

Images