JP2004258909A - Image forming device connectable to two or more image forming device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming device capable of performing image formation processing by itself, and forming one group by connecting to two or more image forming devices, and to decide the image forming device capable of performing the image formation processing under image formation conditions desired by a user from the group. <P>SOLUTION: Logical image forming device data showing two or more image forming devices connected as a plurality of group members and the image forming device itself are generated, and image formation conditions which can be provided as a group are generated and managed as a logical condition base based on the respective logical image forming device data, and one image forming device capable of performing the image formation following the image formation conditions is decided based on the image formation conditions designated by a received image formation request and the logical condition base, and the image formation request is made to the decided image forming device. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a group of image forming apparatuses that can perform image forming processing by themselves, form a group by connecting to a plurality of image forming apparatuses, and perform image forming processing under image forming conditions desired by a user. And an image forming apparatus that determines the image forming apparatus.
[0002]
[Prior art]
When causing a printer to perform printing from a client PC (Personal Computer) connected to a plurality of printers, a user using the client PC first selects a printer that can perform printing under desired printing conditions. According to the selection, a desired printing condition is set on a screen provided from a driver dedicated to the printer, and the printing process is performed.
[0003]
[Problems to be solved by the invention]
However, in the above-described conventional print system, since the user selects the printer, the user needs to know the function of the printer. In this case, the screen provided after the user has selected the printer indicates for the first time whether or not the user can set the desired print condition. Therefore, if the user cannot set the desired print condition, the user cannot proceed to the next printer. Had to choose.
[0004]
Therefore, an object of the present invention is to provide an image forming apparatus that can perform image forming processing by itself, form a group by connecting to a plurality of image forming apparatuses, and perform image forming processing under image forming conditions desired by a user. An object of the present invention is to provide an image forming apparatus that determines a forming apparatus from a group.
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention provides a plurality of image forming apparatuses connected as a plurality of group members and a logical apparatus which generates logical image forming apparatus data indicating each of the plurality of image forming apparatuses. Generating means, logical condition base managing means for generating and managing, as a logical condition base, image forming conditions that can be provided as a group based on each of the logical image forming apparatus data, and an image designated by the received image forming request An apparatus determining unit that determines one image forming apparatus capable of forming an image in accordance with the image forming condition based on the forming condition and the logical condition base; and an image forming apparatus determined by the apparatus determining unit. And an image forming requesting unit for making an image forming request.
[0006]
In such an image forming apparatus, image forming conditions that can be performed by each of the plurality of image forming apparatuses are managed on a logical condition basis, and thus can be provided to the outside as image forming conditions of one image forming apparatus. Therefore, when an image forming request is issued to such an image forming apparatus, it is only necessary to directly specify desired image forming conditions. A user who uses this image forming apparatus does not need to know the functional characteristics of each image forming apparatus connected to the image forming apparatus.
[0007]
Further, according to the present invention, as described in claim 2, an operation mode setting means for setting an operation mode indicating a role as a group or a non-group; And a presence acknowledgment means for performing a response corresponding to the mode. In other words, the present invention can be configured such that, when the operation mode indicates a non-group, the presence confirmation response unit responds with print conditions that can be processed by itself. . Alternatively, according to the present invention, as set forth in claim 4, when the operation mode indicates a group member, the presence confirmation response means determines whether or not the presence confirmation is from a group leader, and Based on the logical image forming apparatus data representing itself, it can be configured to respond. Alternatively, the present invention may be configured such that the presence confirmation response unit responds based on the logical condition when the operation mode indicates a group leader.
[0008]
In such an image forming apparatus, it is possible to make a response to the existence confirmation according to the operation mode (for example, non-group, group member, group leader, etc.).
[0009]
Further, according to the present invention, as set forth in claim 6, the apparatus determining means determines whether or not the image forming condition specified by the image forming request must be completely matched. Means for selecting a processable image forming apparatus from the plurality of group members by deleting a low priority condition among the image forming conditions based on a result of the determination by the perfect match determining means. Can be configured.
[0010]
In such an image forming apparatus, since the adjustment is performed by deleting a low priority condition from the image forming conditions specified in the image forming request, it is possible to select a processable image forming apparatus from a plurality of group members. I do.
[0011]
Further, according to the present invention, an image which can be processed under the image forming conditions is determined by the apparatus determination means to be determined to be a perfect match by the perfect match determination means. In a case where the forming apparatus does not exist in the plurality of group members, the image forming apparatus may be configured to include an image forming failure notifying unit for notifying the request source that made the image forming request that the image forming has failed. Further, according to the present invention, as described in claim 8, the image forming failure notifying means does not have a low priority condition which can be deleted and the image forming apparatus cannot be selected by the apparatus selecting means. The image forming apparatus may be configured to notify the requester of the image forming request that the image forming has failed.
[0012]
In such an image forming apparatus, when the image forming condition completely specified by the image forming request completely matches the image forming condition, and there is no image forming device that can be processed by the image forming condition among the group members, the image forming is performed. The requester can be notified of the inability to do so. Therefore, the request source can notify the image forming apparatus that the processing cannot be performed by making an image formation request under the set image forming conditions, and there is no need for the request source to make a determination.
[0013]
Further, according to the present invention, there is provided a search means for searching for the image forming apparatus by confirming the existence of the image forming apparatus as a group member connected via a network, Based on the search result by the search means, the logic device generation means and the logic condition base management means can be configured to be effective.
[0014]
In such an image forming apparatus, the image forming apparatus itself can search for another image forming apparatus connected to the image forming apparatus. Further, the logical condition base can be automatically updated for the image forming apparatus whose existence has been confirmed by this search.
[0015]
Further, according to the present invention, there is provided a logical device deleting unit for deleting the logical image forming apparatus data generated by the logical unit generating unit, and the presence check is previously performed by the searching unit. If there is an image forming apparatus whose existence has not been confirmed at this time among the formed image forming apparatuses, the logical device deleting unit deletes the logical image forming device data corresponding to the image forming device and executes the logical condition. The base management means can be configured to update the logical condition base.
[0016]
In such an image forming apparatus, it is possible to automatically delete the logical image forming apparatus data relating to the image forming apparatus whose existence has not been confirmed, and to update the logical condition base.
[0017]
According to another aspect of the present invention, a request source of the image forming request is transmitted in accordance with an inter-device interface protocol that enables common communication with a plurality of other image forming devices via the Internet. And an inter-device interface protocol processing means for controlling communication with the plurality of image forming devices as the group members.
[0018]
In such an image forming apparatus, communication with a plurality of image forming apparatuses can be controlled in accordance with an inter-device interface protocol (for example, BMLinkS).
[0019]
Further, according to the present invention, as set forth in claim 12, the plurality of group members are at least one of an image forming apparatus connected to the group member via a network, and an image forming apparatus directly connected by a cable. The image forming apparatus described above can be configured as such.
[0020]
In such an image forming apparatus, at least one or more of the image forming apparatus itself, an image forming apparatus connected via a network, and an image forming apparatus directly connected by a cable (for example, compliant with USB, IEEE1284). Devices can be group members.
[0021]
Further, according to the present invention, an image forming engine means for forming an image on a predetermined medium, an engine control means for controlling the image forming engine means, and the image forming request corresponds to the image forming engine itself. By performing the above-described processing on the logical image forming apparatus data, it is possible to provide an image forming processing unit that causes the engine control unit to execute an image forming process.
[0022]
In such an image forming apparatus, an image forming process is performed via logical image forming apparatus data corresponding to the image forming apparatus itself.
[0023]
As a means for solving the above-mentioned problems, the present invention can also be the above-mentioned program for causing a computer to execute the program.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0025]
FIG. 1 is a diagram illustrating a configuration example of a group printer network according to an embodiment of the present invention. In FIG. 1, the group printer network includes a client PC 100 that issues a print request, printers 0 to i connected to the client PC 100, and a group printer 200. In FIG. 1, a logical condition base 122 and logical printers 0 to N are data generated by processing in the client PC 100.
[0026]
The client PC 100 automatically detects the connection between the printers 0 to i and the group printer 200, and indicates logical printers 0, 1, 2,... Indicating printer-specific information corresponding to each of the printers 0 to i and the group printer 200. N is generated, and the printing conditions under which the client PC 100 can perform printing are generated as the logical condition base 122. The printing conditions include monochrome printing, color printing, double-sided printing, reduction or enlargement printing, printable paper size, and staples or holes and finishing such as their positions.
[0027]
In the configuration example shown in FIG. 1, for example, the printer 0 is a monochrome printer directly connected to the client PC 100 via a cable, and is represented by the logical printer 0. The printer 1 is a color printer directly connected to a client PC by a cable, and is represented by the logical printer 1. The group printer 200 is composed of a group leader 20 which is itself a printer and printers 20-1 to 20-4 which are group members, and the client PC 100 is represented by the logical printer 2. That is, the logical printer 2 allows the user to see the group printer 200 as one printer. Further, the printer 20-i is a printer that directly issues a print request from the client PC 100 via a network, and is represented by a logical printer N.
[0028]
Since the group printer 200 can be seen as one printer, the number of printers shown to the user can be reduced by, for example, using a plurality of printers installed near each other as the group printer 200.
[0029]
Further, the logical condition base 122 can provide a user with print conditions that can be processed by any of the logical printers 0 to N without actually selecting a printer. Furthermore, since a unified user interface can be provided by using the logical condition base 122, it is not necessary to install a user interface for each driver for each printer.
[0030]
As described above, a user using the client PC 100 can make a print request without determining the function and performance of each printer.
[0031]
The client PC 100 according to one embodiment of the present invention has, for example, a hardware configuration as shown in FIG. FIG. 2 is a block diagram showing a hardware configuration of the client PC according to one embodiment of the present invention.
[0032]
2, a client PC 100 is a computer that issues a print request to one of the printers 0 to i and the group printer 200. The client PC 100 includes a CPU (Central Processing Unit) 51, a memory unit 52, a display unit 53, The input unit 54, the storage device 55, the driver 56, the communication unit 61, the USB I / F 62, and the parallel port I / F 63 are connected to the system bus B1.
[0033]
The CPU 51 controls the client PC 200 according to a program stored in the memory unit 52. The memory unit 52 is composed of a RAM (Read-Only Memory), a ROM (Random Access Memory), and the like, and is obtained by a program executed by the CPU 51, data necessary for the processing by the CPU 51, and processing by the CPU 51. The stored data is stored. Further, a partial area of the memory unit 52 is allocated as a work area used for processing in the CPU 51.
[0034]
The display unit 53 displays various information required under the control of the CPU 51. The input unit 54 includes a mouse, a keyboard, and the like, and is used by a user to input various information necessary for the client PC 100 to perform processing. The storage device 55 includes, for example, a hard disk unit, and stores programs for executing various processes, document data, and the like.
[0035]
A program for performing a print request performed by the client PC 100 is provided to the client PC 100 via a storage medium 57 such as a CD-ROM, for example. That is, when the storage medium 57 storing the program is set in the driver 56, the driver 56 reads the program from the storage medium 57, and the read program is installed in the storage device 55 via the system bus B1. . When the program is started, the CPU 51 starts the processing according to the program installed in the storage device 55. The medium for storing the program is not limited to a CD-ROM, but may be any medium that can be read by a computer. The program for implementing the printing process according to the present invention may be downloaded via the network by the communication unit 61 and installed in the storage device 55.
[0036]
The communication unit 61 controls communication between the plurality of printers n and the group printer 200 when the client PC 100 is connected to the plurality of printers n and the group printer 200 via, for example, a LAN (Local Area Network). Device. The USB I / F 62 is an interface for directly connecting to the printer 0 via a USB cable, for example. The parallel port I / F 63 is an interface for directly connecting to the printer 1 by a cable conforming to Centronics.
[0037]
FIG. 3 is a block diagram showing a functional configuration example of the client PC according to one embodiment of the present invention. 3, the client PC 100 mainly includes an application 108 for generating document data and issuing a print request, an installer 109 for installing the program according to the present invention from the storage medium 57, a logical printer, and a generated logical printer. And a print system 110 for making a print request to the printer.
[0038]
The application 108 is an application for creating, editing, and deleting data in a predetermined data format. The application 108 is, for example, a spreadsheet application, a drawing application, or the like, and may be any application that requests print processing.
[0039]
The installer 109 installs the program according to the present invention from the storage medium 57, and configures the print system 110 as shown in FIG.
[0040]
The print system 110 exists on a network with a print system UI (user interface) 111 for displaying various screens for a user to execute print processing on the display unit 53 in response to a request from the application 108. A search unit 112 that searches for printable printers 0, 1, 200, and i, and a logical condition that creates a logical condition base 122 that indicates print conditions that can be processed by the printers 0, 1, 200, and i connected to the client PC 100 A base creation unit 113, a printer selection unit 114 that selects an appropriate printer based on a print condition specified by the print request and a logical condition base 122 in response to a print request from the application 108, and a printer-specific print Driver unit 115 for controlling and port to which the printer is connected Having a port monitor unit 116 for monitoring, and a network control unit 130 for controlling communication with the printer 200 and i connected via a network.
[0041]
The print system UI 111 displays various screens for the user to execute print processing on the display unit 53 in response to a print request from the application 108, and provides a UI for acquiring necessary information from the user. . For example, a screen for setting printing conditions is displayed on the display unit 53, and the printing conditions set by the user are acquired.
[0042]
When the client PC 100 is activated or in response to a print request from the application 108, the search unit 112 performs broadcast confirmation to search for a processable printer existing on the network according to BMLinkS by the network control unit 130. A Discovery function is performed. When the search unit 112 detects, for example, the group printer 200 and the printer i, the search unit 112 acquires print conditions that can be executed by the printer 200 and the printer i, and generates the logical printers 2 to N in the logical printer data area 121. When the search unit 112 detects the printer 0 directly connected by the USB cable and the printer 1 directly connected by the parallel cable, similarly, the search unit 112 obtains executable printing conditions from the printers 0 and 1, respectively, and And 1 in the logical printer data area 121.
[0043]
The logical condition base creating unit 113 creates a logical condition base 122 based on the logical printers 0 to N based on the notification from the search unit 112. Upon receiving a print instruction from the application 108, the printer selection unit 114 selects a logical printer according to the print conditions set by the user based on the logical condition base 112, and issues a print instruction to the selected logical printer.
[0044]
The network control unit 130 is composed of six layers. More specifically, the highest layer (first layer) is an Internet Protocol (IP) 131, the second layer is a Transmission Control Protocol (TCP) 132 and a user datagram protocol (UDP) 133. HTTP (Hypertext Transfer Protocol) 134 in the third hierarchy, XML (extensible Markup Language) 135 in the fourth hierarchy, SOAP (Simple Object Access Protocol) 136B and LB6P in the fifth hierarchy. (Universal Plug and Play) 138. By configuring the network layer in this manner, communication can be realized without depending on the hardware configuration and functional configuration of OA equipment such as a printer, a copier, and a facsimile.
[0045]
Next, the configuration of the group printer 200 will be described. FIG. 4 is a diagram illustrating a configuration example of a group printer according to an embodiment of the present invention. 4, a group printer 200 includes a printer 20 as a group leader that directly communicates with the client PC 100, and printers 20-1 to 20-4 connected to the printer 20. Although the printers connected to the printer 20 are referred to as linters 20-1 to 20-4 for convenience of description, more printers may be connected to the printer 20. 4, the logical condition base 262, the logical printers 0 to 4 and the operation mode flag 264 are data generated by the processing in the printer 20.
[0046]
The printer 20 generates its own logical printer 0 at the time of startup, and automatically detects the connection of the printers 20-1 to 20-4, which are group members, to each printer 20-1 to 20-4. The corresponding logical printers 1 to 4 are generated, and print conditions that the printer 20 can provide to the client PC 100 are generated as a logical condition base 262. The printing conditions include monochrome printing, color printing, double-sided printing, reduction or enlargement printing, printable paper size, and staples or holes and finishing such as their positions.
[0047]
In the configuration example shown in FIG. 4, for example, printers 20-1 and 20-4 are printers that are group members connected via a network, and are represented by logical printers 1 and 4. The printers 20-2 and 20-3 are printers directly connected to the printer 20 by cables, and are represented by the logical printers 2 and 3.
[0048]
The operation mode flag 264 indicates one of a group leader, a group member, and a non-group, and is set by an administrator when configuring the group printer 200. Each of the printers 20 and 20-1 to 20-4 performs a process according to the operation mode set by the administrator.
[0049]
By generating the logical condition base 262 in the printer 20, the printer 20 can show the plurality of printers 20, 20-1 to 20-4 as one printer to the client PC 100.
[0050]
The printer 20 according to an embodiment of the present invention has, for example, a hardware configuration as shown in FIG. FIG. 5 is a block diagram illustrating a hardware configuration of a printer according to an embodiment of the present invention.
[0051]
In FIG. 5, a printer 20 is a computer that executes print processing, and includes a CPU 11, a ROM 12, a RAM 13, a non-volatile random access memory (RAM) 14, a real-time clock 15, and an Ethernet (registered trademark). I / F (Ethernet (registered trademark) Interface) 21, USB (Universal Serial Bus) 22, IEEE (Institute of Electronic and Electronics Engines), Video I / F 24, and Video I / F 24, F / F, F / F / F 232C I / F 26 and connected to the system bus B2.
[0052]
The CPU 11 controls the printer 20 according to a program stored in the ROM 12. For example, an area is allocated to the RAM 13 for resources connected to the interfaces 21 to 26. Information necessary for processing by the CPU 11 is stored in the non-volatile RAM 14 until the power of the printer 100 is turned off. The real-time clock 15 is used by the CPU 11 to measure the current time and synchronize processing.
[0053]
An Ethernet (registered trademark) interface cable such as 10BASE-T or 100BASE-TX is connected to the Ethernet (registered trademark) I / F 21. A USB interface cable is connected to the USB 22. The IEEE1284 23 is connected to an IEEE1284 interface cable.
[0054]
A hard disk 34 is connected to the hard disk I / F 24, and the document data of the document to be printed transmitted via the network or the image data after the print processing is stored in the hard disk 34 via the hard disk I / F 24. . A printer engine 35 is connected to the video I / F 25, image data is transmitted to the printer engine 25 via the video I / F 25, and an image is formed on a printable medium such as paper based on the image data. . An operation panel 36 is connected to the RS-232C I / F 26 to display information to a user and obtain input information or setting information from the user.
[0055]
The printers 20-1 to 20-4 also have the same hardware configuration as described above.
[0056]
FIG. 6 is a block diagram illustrating a functional configuration example of the group printer according to an embodiment of the present invention. In FIG. 6, the printer 20 mainly includes an operating system 210 and a group printer application 240 that controls processing as a group printer as a processing unit.
[0057]
The operating system 210 includes an Ethernet (registered trademark) I / F 21, a USB I / F 22, an IEEE128423, an RS232 CI / F 26, a video I / F, an operation panel control unit 211, a printer engine control unit 212, and a port. It has a monitor unit 216 and a network control unit 230.
[0058]
The operation panel control unit 211 displays information on the operation panel 36 via the RS232CI / F 26 and acquires information input by a user operation. The printer engine control unit 212 controls the printer engine 35 via the video I / F 25 to perform print processing. The port monitor unit 216 manages the state of the port to which each of the printers 20-1 to 20-4 is connected by using the port monitors 1 to 4. Since the printer 20 transmits the document data processed by the driver of the client PC 100, it is not necessary to provide a driver for each printer.
[0059]
The network control unit 230 includes six layers. Specifically, the network controller 230 includes IP 231 at the highest layer (first layer), TCP 232 and UDP 233 at the second layer, HTTP 234 at the third layer, XML 235 at the fourth layer, and XML 235 at the fourth layer. The fifth layer is composed of SOAP 236, and the sixth layer is composed of BMLinkS237 and UPnP238. By configuring the network layer in this manner, communication can be realized without depending on the hardware configuration and functional configuration of OA equipment such as a printer, a copier, and a facsimile.
[0060]
The group printer application 240 includes a discovery response unit 241, a PDL (Page Description Language) interpreter 242, a group print execution unit 243, an operation mode setting unit 244, a logical printer addition unit 245, and a conditional discovery response unit 246. , A print processing unit 247, a logical condition base creating / updating unit 248, a condition base inquiry responding unit 249, a logical printer deleting unit 250, and a search unit 251.
[0061]
The discovery response unit 241 performs a response process to a broadcast for confirming the presence from the client PC 100. The PDL interpreter 242 converts document data described in PDL into data that can be processed by the print processing unit 247. In response to a print request from the client PC 100, the group print execution unit 243 determines from the group members a printer that can process based on the print conditions specified in the print request, and causes the determined printer to perform print processing. . The operation mode setting unit 244 sets the type of group leader, group member, or non-group in the operation mode flag 264. When the presence of the printer is confirmed by the search unit 251, the logical printer adding unit 245 adds a logical printer indicating information unique to the confirmed printer to the logical printer data area 261. The logical printer adding unit 245 is a processing unit that is executed only when the operation mode is the group leader.
[0062]
The conditional discovery response unit 246 performs a response process in response to a broadcast from the client PC 100 for confirming the presence of the staple function, the double-sided printing function, or the like. The print processing unit 247 is a processing unit that causes the printer engine 35 of the printer 20 to perform print processing, and issues a print request to the logical printer 0. The logical condition base creating / updating unit 248 creates the logical condition base 262 based on the logical printers 0 to 4 based on the notification from the search unit 251. In response to the condition-based inquiry, the condition-based inquiry responding unit 249 acquires, from the logical printer, printing conditions that can be processed by the logical printer specified by the condition-based inquiry. The logical printer deletion unit 250 deletes a logical printer from the logical printer data area 261. The logical printer deletion unit 250 is a processing unit that is executed only when the operation mode is the group leader.
[0063]
For example, when the printer 20 is activated, the search unit 251 executes a discovery function of performing a broadcast confirmation to search for a processable printer existing on the network by the network control unit 130 according to the BMLinkS when the printer 20 is started. . When the search unit 251 detects the printers 20-2 and 20-3 that are directly connected by a USB cable or an IEEE1284 cable, the search unit 251 similarly obtains print conditions executable by the printers 20-2 and 20-3, respectively. , Logical printers 2 and 3 in the logical printer data area 261.
[0064]
The printers 20-1 to 20-4 have a hardware configuration as shown in FIG. 5 and a functional configuration as shown in FIG. 6, similarly to the printer 20.
[0065]
The processing in the discovery response unit 241 will be described. FIG. 7 is a flowchart illustrating a process performed by the discovery response unit. 7, when the discovery responding unit 241 receives a broadcast for confirming presence via a network (step S11), the discovery responding unit 241 determines whether the operation mode is a non-group based on the operation mode flag 264 (step S12). If the operation mode is a non-group, a response is made with print conditions that can be processed by itself (step S13).
[0066]
On the other hand, if the operation mode is not the non-group, it is determined whether the user is a group member (step S14). If it is a group member, it is further determined whether or not a broadcast other than the group leader has been received (step S15). If a broadcast is received from a source other than the group leader, this process ends. For example, when a broadcast is received from the client PC 100, no response is made to a broadcast other than the group leader.
[0067]
On the other hand, when a broadcast is received from the group leader, a response is made with its own logical printer data (step S16), and this processing ends. For example, in the case of the functional configuration of the printer 20 shown in FIG.
[0068]
On the other hand, if it is determined in step S14 that the operation mode is not a group member, it is further determined whether the operation mode is group leader (step S17). If it is the group leader, it responds with the logical condition base 262 (step S18), and ends this processing. On the other hand, if the user is not the group leader, the process ends.
[0069]
In this way, the printers 20 and 20-1 to 20-4 can respond to the broadcast according to the operation mode.
[0070]
Next, logical printer addition processing by the logical printer addition unit 245 and the logical condition base creation / update unit 248 will be described. FIG. 8 is a flowchart illustrating the logical printer addition processing. 8, the logical printer adding unit 245 specifies the address of the connected printer (step S21), and creates a logical printer in the logical printer data area 261 (step S22). The logical condition base creating / updating unit 248 creates the logical condition base 262 based on the logical printer added to the logical printer data area 261 by the logical printer adding unit 245 (Step S23).
[0071]
Further, the logical printer deletion processing by the logical printer deletion unit 250 and the logical condition base creation / update unit 248 will be described. FIG. 9 is a flowchart illustrating the logical printer deletion process. In FIG. 9, the logical printer deletion unit 250 specifies the address of the printer to be removed (step S31), and deletes the logical printer from the logical printer data area 261 (step S32). The logical condition base creating / updating unit 248 updates the logical condition base 262 based on the logical printer after being deleted in the logical printer data area 261 by the logical printer adding unit 245 (Step S33).
[0072]
Next, a process performed by the group print execution unit 243 will be described. FIG. 10 is a flowchart illustrating a process performed by the group print execution unit. In FIG. 10, when a print request is issued from the client PC 100 to the printer 20 as a group leader, the group print execution unit 243 of the printer 20 determines that a printer matching the print conditions specified by the print request is a group member. It is determined whether or not there is (step S41). If there is no group member, the process proceeds to step S46.
[0073]
On the other hand, if there is a group member, it is further determined whether or not the number of matching group members is more than one (step S42). If the number of matching group members is one or less, the process proceeds to step S44. If the number of matching group members is more than one, one is selected from the matching group members (step S43).
[0074]
The selected group member is notified to the print request source (step S44). A print request is made to the selected group member (step S45), and this process ends.
[0075]
On the other hand, when it is determined in step S41 that there is no group member that satisfies the printing conditions, it is determined whether or not all the printing conditions specified in the printing request are the required printing requests (step S46). If all the printing conditions are essential, the process proceeds to step S50. On the other hand, if all the printing conditions are not essential, the printing condition of low priority is deleted, and the corresponding group member is searched (step S47).
[0076]
Then, it is determined whether or not the number of group members meeting the printing conditions is greater than 0 (step S48). If the number of matching group members is greater than 0, the process proceeds to step S42, steps S42 to S45 are performed in the same manner as described above, and the process ends.
[0077]
On the other hand, if the number of matching group members is 0 or less, it is determined whether there is a condition that can be deleted (step S49). If there is a condition that can be deleted, the process returns to step S47, and the same processing as described above is performed. On the other hand, if there is no condition that can be deleted, there is no group member that satisfies the condition, so that a print failure is notified to the print request source (step S50), and this process ends.
[0078]
Through such processing by the group print execution unit, the printer 20 as the group leader can select a group member that completely or partially matches the print conditions specified by the print request from the client PC 100. . Therefore, since the printer 20 selects an appropriate printer, the user of the client PC 100 only needs to specify the printing conditions desired by the user.
[0079]
In addition, since the logical condition base that can be provided by the printer 20 as the group leader is shown to the client PC 100, the user can perform the printing process without considering the functional characteristics of each printer.
[0080]
【The invention's effect】
As described above, according to the present invention, image forming processing can be performed by itself, and a plurality of image forming apparatuses can be connected to form one group, and an image can be formed under image forming conditions desired by a user. An image forming apparatus that can perform the forming process can be determined from the group. Accordingly, since one group can be shown to the user as if it were one image forming apparatus, the user does not need to know the functions of each image forming apparatus, and simply sets the desired image forming conditions. You only need to do it.
[0081]
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of a group printer network according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a hardware configuration of a client PC according to one embodiment of the present invention.
FIG. 3 is a block diagram illustrating a functional configuration example of a client PC according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating a configuration example of a group printer according to an embodiment of the present invention.
FIG. 5 is a block diagram illustrating a hardware configuration of a printer according to an embodiment of the present invention.
FIG. 6 is a block diagram illustrating a functional configuration example of a group printer according to an embodiment of the present invention.
FIG. 7 is a flowchart illustrating a process performed by a discovery response unit.
FIG. 8 is a flowchart illustrating a logical printer addition process.
FIG. 9 is a flowchart illustrating a logical printer deletion process.
FIG. 10 is a flowchart illustrating processing performed by a group print execution unit.
[Explanation of symbols]
20, 20-1 to 20-4 Printer
210 Operating system
211 Operation panel control unit
212 Printer Engine Control Unit
216 Port monitor
230 Network control unit
240 group printer application
241 Discovery Response Unit
242 PDL interpreter
243 Group print execution unit
244 Operation mode setting section
245 Logical printer addition unit
246 Conditional Discovery Response Unit
247 print processing unit
248 Logical condition base creation / update section
249 Condition-based Inquiry Handling Section
250 Logical printer deletion unit
251 Search Unit

Claims (17)

A plurality of image forming apparatuses connected as a plurality of group members and a logical apparatus generating unit for generating logical image forming apparatus data indicating each of the image forming apparatuses;
A logical condition base managing unit that generates and manages image forming conditions that can be provided as a group as a logical condition base based on each of the logical image forming apparatus data,
An apparatus determining unit that determines one image forming apparatus capable of forming an image according to the image forming condition based on the image forming condition specified by the received image forming request and the logical condition base;
An image forming apparatus, comprising: an image forming request unit that issues an image forming request to the image forming apparatus determined by the device determining unit. Operation mode setting means for setting an operation mode indicating a role as a group or a non-group,
2. The image forming apparatus according to claim 1, further comprising: a presence confirmation response unit that responds to the presence confirmation performed via the network, the response corresponding to the operation mode. 3. The image forming apparatus according to claim 2, wherein when the operation mode indicates a non-group, the presence confirmation response unit responds with print conditions that can be processed by itself. When the operation mode indicates a group member, the presence confirmation response unit determines whether or not the presence confirmation is from a group leader, and responds with the logical image forming apparatus data expressing itself based on the determination result. The image forming apparatus according to claim 2, wherein: 3. The image forming apparatus according to claim 2, wherein the presence confirmation response unit responds based on the logical condition when the operation mode indicates a group leader. The device determining means includes:
Perfect match determining means for determining whether or not the image formation condition specified in the image formation request must be completely matched;
Device selecting means for deleting a low-priority condition among the image forming conditions based on a result of the judgment by the perfect match judging means and selecting a processable image forming apparatus from the plurality of group members. The image forming apparatus according to claim 1, wherein: The device determining means includes:
If it is determined that the image data must be completely matched by the perfect match determination means, and if there is no image forming apparatus that can process the image under the image forming conditions among the plurality of group members, the image formation is failed. The image forming apparatus according to claim 1, further comprising an image formation failure notification unit that notifies a request source that has made the formation request. The image formation failure notifying means, when there is no condition of low priority which can be deleted and the image forming apparatus cannot be selected by the apparatus selecting means, notifies the request source that made the image formation request that the image formation has failed. The image forming apparatus according to claim 6, wherein the notification is performed. A search unit that searches for the image forming apparatus by confirming the existence of the image forming apparatus as a group member connected via a network;
9. The image forming apparatus according to claim 1, wherein the logic device generation unit and the logical condition base management unit are enabled based on a search result by the search unit. Logical device deletion means for deleting the logical image forming apparatus data generated by the logical device generation means,
If there is an image forming apparatus for which the presence check was previously performed by the search unit but for which the presence check was not performed at this time, the logical device deleting unit may include the logical image forming apparatus corresponding to the image forming apparatus. The image forming apparatus according to claim 9, wherein the data is deleted, and the logical condition base management unit updates the logical condition base. According to an inter-device interface protocol that enables common communication with a plurality of other image forming apparatuses via the Internet, communication with the plurality of image forming apparatuses as a request source of the image forming request and the group member is performed. 11. The image forming apparatus according to claim 1, further comprising an inter-device interface protocol processing unit for controlling. 4. The image forming apparatus according to claim 1, wherein the plurality of group members are at least one of an image forming apparatus connected to the group member via a network, and an image forming apparatus directly connected by a cable. 12. The image forming apparatus according to claim 11. Image forming engine means for forming an image on a predetermined medium;
Engine control means for controlling the image forming engine means,
13. The image forming apparatus according to claim 1, further comprising: an image forming processing unit that causes the engine control unit to execute an image forming process by making the image forming request to the logical image forming apparatus data corresponding to the request. The image forming apparatus according to claim 1. In an image forming method for causing a computer to perform an image forming process,
A logical device generation procedure for generating a plurality of image forming apparatuses connected as a plurality of group members and logical image forming apparatus data indicating each of the plurality of image forming apparatuses;
A logical condition based management procedure for generating and managing image forming conditions that can be provided as a group as a logical condition base based on each of the logical image forming apparatus data,
An apparatus determining procedure for determining one image forming apparatus capable of forming an image in accordance with the image forming condition based on the image forming condition specified by the received image forming request and the logical condition base;
An image forming request procedure for making an image forming request to the image forming apparatus determined by the apparatus determining procedure. On the computer,
A logical device generation procedure for generating a plurality of image forming apparatuses connected as a plurality of group members and logical image forming apparatus data indicating each of the plurality of image forming apparatuses;
A logical condition based management procedure for generating and managing image forming conditions that can be provided as a group as a logical condition base based on each of the logical image forming apparatus data,
An apparatus determining procedure for determining one image forming apparatus capable of forming an image in accordance with the image forming condition based on the image forming condition specified by the received image forming request and the logical condition base;
A program for executing an image forming request procedure for making an image forming request to the image forming apparatus determined by the apparatus determining procedure. In an image forming method in an image forming system including a user terminal that issues an image forming request via a network and an image forming apparatus that performs image forming processing,
When the image forming apparatus receives the image forming request from the user terminal, a logic indicating image forming conditions that the image forming apparatus itself and a plurality of image forming apparatuses connected to the image forming apparatus can provide as a group An apparatus determining procedure for determining one image forming apparatus from the group based on a condition base and an image forming condition specified by the image forming request;
A determining device notification procedure for notifying the user terminal of the determined image forming device by the image forming device,
A group image forming processing procedure in which the image forming apparatus causes the determined image forming apparatus to perform the image forming processing. A logic device generating procedure in which the image forming device generates logical image forming device data indicating each of the plurality of image forming devices in the group;
A logical condition base management procedure for generating and managing the logical condition base based on each of the logical image forming apparatus data,
The image forming method according to claim 1, wherein the group image forming processing procedure causes the determined image forming apparatus to perform the image forming processing via the logical image forming apparatus data corresponding to the determined image forming apparatus.

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