JP2004215029A - Image forming apparatus and image forming system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make appropriately utilizable respective functions by coping with the case that there is the possibility of causing a problem for an instruction of changing an operation condition set to a requested job by utilizing the respective functions of a connection function and a reservation function. <P>SOLUTION: In the case where it is instructed to perform setting change with a connection job under a printing processing as an object, the execution is made avoidable. In the reception flow (as shown in the figure) of the connection mode of a master unit, when it is instructed to perform the setting change to a registered (under reservation and printing execution) job, the change is accepted when the job is not under printing, however, when the job is under printing, the change is confirmed on an input image and a processing is branched according to a confirmed result (S104-S108). When the execution is selected, the operation condition and a connection condition generated by the setting change are reported to a slave unit (S111-S114). When the execution is not selected, the setting change is not performed. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image forming apparatus (for example, a copier, a printer, a multifunction peripheral, or the like) having a job reservation function and enabling a link operation, and setting a job distributed to a parent machine and a slave machine by the link operation. The present invention relates to the image forming apparatus provided with a unit that enables a user to change operating conditions (setting contents).
[0002]
[Prior art]
2. Description of the Related Art Today, a system is widely used in which a plurality of printing (image forming) apparatuses such as copying machines and printers are connected to a network so that resources for print output can be shared. As one of systems for sharing such a printing apparatus, a plurality of digital copying machines are connected via a communication network such as a LAN, and a part of a copy request job is transferred from a master machine that has received a job to a slave machine, 2. Description of the Related Art There is known a copier system that performs a so-called "link operation" in which a job is divided and processed by a parent machine and a child machine.
The link operation aims to operate the system efficiently and process a large number of copies in a short time. For example, when copying 100 originals, 50 copies are required for each of two copying machines. The printing is shared and the processing is performed in parallel, so that the processing can be performed in half the time of one apparatus.
As a general operation procedure for performing the connection operation, first, a key operation for instructing the connection operation is performed on the master device side, and the master device first notifies the slave device of the connection operation by this operation. After setting the operation conditions such as various mode settings on the master unit, the copy operation is started by pressing the copy start key of the master unit.
In a system that performs a linking operation, it is required that a master unit and a slave unit that execute a distributed job obtain the same processing result. Therefore, as exemplified in Patent Literature 1 below, in the linked operation mode, the operating condition (setting command) set by the user on the master unit is transferred to the slave unit together with the copy image data, and is set on the slave unit by the master unit. Set the same operating conditions as.
[Patent Document 1]
JP 2000-347826 A
[0003]
By the way, in digital copiers, multi-functionalization has progressed along with digitization, and the capacity of a memory for storing images to be subjected to image forming processing has become large, and processing of a plurality of jobs is accepted using this capacity. A reservation function is realized. Along with the multifunctionalization that allows the apparatus to be effectively used by applications such as a facsimile and a printer, the number of cases where a job is requested using a reservation function is increasing.
The reservation function coexists with the connection function described above. Even when the device is operating by the reservation function, a reservation job for a large number of print volumes that wants to finish quickly may occur. In such a case, the mode that uses the concatenation function suitable for early processing is set at the same time. Is done.
As described above, an operation mode in which the link function and the reservation function are used at the same time may be set, but a problem that occurs in this case is that since the status of the reservation job on the child device side cannot be understood from the master device, the connection function is set. There is a concern that the optimal conditions (how and how to distribute the slaves) cannot be set at the time of use, and that the merits of the connection may not always be guaranteed.
[0004]
[Problems to be solved by the invention]
Therefore, the slave unit also performs the reservation registration of the connected job (the distributed job transferred from the master unit) in the order closest to the start time of the reserved linked job registered on the master unit. The proposal by the applicant of the present application (Japanese Patent Application No. 2002-222,197) proposes that the execution of the connection operation mode without impairing the merits of the connection in the job reservation mechanism can be performed by managing the reservation connection job. No.-81400, hereinafter the invention of this application is referred to as "prior invention".
In the prior invention, in order to share a setting mode (operating condition) for a distributed job between a master unit and a slave unit, a job setting mode (operation mode) is set when a copy request is instructed in the same manner as in Patent Document 1. Condition) is notified to the slave unit to be connected. Even when a change in the setting mode (operating condition) of the registered reserved job is instructed, the change is accepted and the setting condition changed to the slave unit, etc. It is shown to notify. Note that Patent Document 1 does not consider changing the setting mode (operating condition) for the linked job.
[0005]
However, in the invention of the prior application, when a change of the setting mode (operating condition) of the registered reserved job is instructed, the change is unconditionally accepted and the changed setting condition is notified to the slave unit, and the slave unit side is notified. However, the same setting is performed, and a problem that may occur due to unconditionally accepting the change, for example, a problem in which a different copy output is output halfway when a job print process is already in progress. Also, no consideration is given to a problem that a connection condition changes due to a setting change, and a job related to the connection system is not output as scheduled due to the influence.
SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems in the prior art and the prior invention, and has as its object to provide an image forming apparatus (for example, a copier, a printer, a multifunction peripheral, etc.) having a connection function and a reservation function. ), When the setting of the operating condition (setting contents) is instructed for the job requested by setting the operating condition using the respective functions of the link function and the reservation function, the setting change is printed (image Forming the image with the means for enabling the proper use of the linking and reservation functions by avoiding the disadvantages mentioned above which can occur when the linked job is being processed; An object of the present invention is to provide a forming apparatus and an image forming system.
[0006]
[Means for Solving the Problems]
According to the first aspect of the present invention, an image forming process is requested by setting operation conditions using a job reservation function and a link function of distributing a part of a job received by the own apparatus to another apparatus. An image forming apparatus having a job management unit for registering and managing a job, and processing a job under the management of the job management unit, wherein an operation condition set for the job registered in the job management unit is A setting change unit for instructing a change, wherein the job management unit rejects the setting change instruction when the setting change unit instructs a change of the operating condition for the linked job being subjected to the image forming process. An image forming apparatus is characterized in that:
[0007]
According to a second aspect of the present invention, a request for image forming processing is made by setting operation conditions by using each of a job reservation function and a link function of distributing a part of a job received by the own apparatus to another apparatus. An image forming apparatus having a job management unit for registering and managing a job, and processing a job under the management of the job management unit, wherein an operation condition set for the job registered in the job management unit is A setting change unit for instructing a change, and when the setting change unit instructs a change of the operating condition for the linked job being image-formed, confirms whether to execute the instructed change of the setting. And performing management based on the confirmation result.
[0008]
According to a third aspect of the present invention, in the image forming apparatus according to the first or second aspect, the job management unit accepts a setting change of an operating condition instructed for the linked job by the setting changing unit. The changed settings are immediately notified to the distributed other device, and the latest settings are shared between the own device and the other device.
[0009]
According to a fourth aspect of the present invention, the image forming apparatus according to any one of the first to third aspects is used as a parent apparatus, and a connected job received by using a connecting function for receiving a job distributed from the parent apparatus is registered / registered. An image forming system, comprising: a job management unit for managing a job; and configuring the system with an image forming apparatus that processes a job under the management of the job management unit as a child device.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
The present invention will be described based on the following embodiments shown in the accompanying drawings. The following embodiment is an example in which an image forming apparatus capable of operating in the connection operation mode is a digital copying (composite) machine, and the digital copying machines are connected to each other to form a connection system.
FIG. 1 is a schematic diagram showing an entire configuration of a digital copying machine according to an embodiment of the present invention.
With reference to FIG. 1, the apparatus configuration, functions, and operations of the apparatus will be described below along the flow of a document copy operation of reading a document, processing read image data, and writing an image using the processed data. I do.
A document bundle placed on a document table 2 provided in an automatic document feeder (hereinafter referred to as "ADF") 1 with the image side of the document facing up is operated by a user by pressing a start key 34 of an operation unit 30 (see FIG. 2). The operation is started by being pressed, and the original is fed from the lowermost document to a predetermined position on the contact glass 6 by the feed roller 3 and the feed belt 4. At this time, the number of read originals is obtained as management information by a counting function that counts up the number of originals each time the feeding of one original is completed. The image data is read by the reading unit 50 on the fed document on the contact glass 6, and the document that has been read is discharged by the feed belt 4 and the discharge roller 5. Further, when the document set detector 7 detects that the next document is present on the document table 2, the document is fed onto the contact glass 6 in the same manner as the previous document. The feed roller 3, the feed belt 4, and the discharge roller 5 are driven by a transport motor (not shown).
[0011]
The writing unit 57 controls the laser emission of the laser output unit 58 based on the image forming data generated based on the image data read by the reading unit 50, and forms a latent image on the photoconductor 15 by laser writing. The photoreceptor 15 carrying the latent image adheres toner to the latent image by passing through the developing unit 27 to form a toner image. The toner image on the photoconductor 15 is transferred onto the transfer paper while the transfer paper is being conveyed by the conveyance belt 16 at the same speed as the rotation of the photoconductor 15 holding the toner image. The transfer sheets stacked on the first tray 8, the second tray 9, and the third tray 10 are fed by the first sheet feeding device 11, the second sheet feeding device 12, and the third sheet feeding device 13, respectively, and are vertically conveyed. The sheet is transported by the unit 14 to a position where it contacts the photoconductor 15. The transfer paper carrying the transferred toner image is then fixed in a fixing unit 17 and discharged by a discharge unit 18 to a finisher 100 of a post-processing device.
[0012]
The finisher 100 of the post-processing device can guide the transfer paper conveyed by the paper discharge unit 18 of the main body toward the discharge tray 104 and the staple table 108. By switching the switching plate 101 downward, the sheet can be discharged to the sheet discharge tray 104 via the transport rollers 102 and 103. Further, by switching the switching plate 101 upward, the sheet can be transported to the staple table 108 via the transport rollers 105 and 107. The transfer paper stacked on the staple table 108 is aligned with the jogger 109 for paper alignment every time one sheet is discharged, and is stapled by the stapler 106 when a part of the copy is completed. The transfer paper group bound by the stapler 106 is stored in the stapling completion paper discharge tray 110 by its own weight.
On the other hand, the paper discharge tray 104 is a paper discharge tray that can move left and right in the transfer paper transport direction. The paper discharge tray 104 moves left and right with respect to the transfer paper transport direction for each original or for each copied copy unit, and simply sorts out the discharged copy paper.
[0013]
When forming an image on both sides of the transfer paper, the transfer paper fed and imaged from each of the paper feed trays 8 to 10 is not guided to the discharge tray 104 side, but is routed to the double-sided paper conveyance path 113. After switching, the sheet is temporarily stored in the double-sided sheet feeding unit 111 via the reversing unit 112.
Thereafter, the transfer paper stocked in the duplex paper supply unit 111 is re-fed from the duplex paper supply unit 111 in order to transfer the toner image formed on the photoconductor 15 again. Is led to. As described above, the double-sided paper feeding unit 111 is used when forming images on both sides of the transfer paper.
Further, at the time of reverse discharge, the sheet is guided to the discharge tray 104 through the reverse discharge transport path 1141 via the reverse unit 112.
The photoreceptor 15, the transport belt 16, the fixing unit 17, the paper discharging unit 18, and the developing unit 27 are driven by a main motor (not shown), and each of the paper feeding devices 11 to 13 applies a driving force of the main motor to a paper feeding clutch. (Not shown). The vertical transport unit 14 is driven by transmitting the driving force of the main motor by an intermediate clutch (not shown).
[0014]
FIG. 2 shows an operation unit 30 provided for a user to input a command in the apparatus of FIG. The operation unit 30 includes a liquid crystal touch panel 31, a numeric keypad 32, a clear / stop key 33, a start key 34, a preheat key 35, a reset key 36, an interrupt key 37, an initial setting key 38, a new reservation key 39, a job list key 40, There are a copy key 43 and a copy server key 44, and the liquid crystal touch panel 31 displays a screen 41 showing various function keys (see FIG. 3), the number of copies, a message indicating an apparatus state such as an operation state of the image forming apparatus, and the like. .
When the interrupt key 37 is pressed, the mode shifts to the interrupt mode. The interrupt mode is a mode in which a copy operation is temporarily interrupted during a copy operation and during a copy operation to perform a copy. By setting this mode, the copy mode before the interruption and, if the copying is in progress, information on the progress of the copying are stored in the nonvolatile RAM, the mode is shifted to the interruption mode, and the mode is initialized. After the copy operation is executed, when the interrupt mode is released, the mode and information stored in the nonvolatile RAM are returned, the state before the interrupt mode is set is restored, and the operation before the interrupt can be continued by restarting.
By pressing the initial setting key 38, the initial state of the machine can be arbitrarily customized. It is possible to set the paper size stored in the machine, and to arbitrarily set a default state set when the mode clear key of the copy function is pressed. In addition, it is also possible to select an application or the like that is preferentially selected when there is no operation for a certain period of time, to set a transition time to low power according to the International Energy Star plan, and to set a transition time to auto-off / sleep mode. It is possible to set.
When the preheating key 35 is pressed, the machine shifts from the standby state to the power reduction state, and lowers the fixing temperature and turns off the display of the operation unit 30. The preheating state means a low power state according to the International Energy Star Program. To release the preheating state, the off state / sleep state, and shift to the standby state, the preheating key 35 is pressed again.
When the copy key 43 is pressed, copying of the document image, that is, printing processing starting from reading of the document becomes possible.
The copy server key 44 is used to execute a copy server function for printing image data stored in the image storage device. The details of the copy server operation will be described later.
The new reservation key 39 is used when making a reservation copy.
By pressing the job list key 40, a list of active and reserved copy jobs is displayed.
Details of the new reservation and the job list will be described later.
[0015]
FIG. 3 shows an example of a display on the liquid crystal touch panel 31 of the operation unit 30 (FIG. 2). FIG. 3 shows a screen 41 displayed when the copy key 43 is pressed.
When the operator touches the key displayed on the screen 41 of the liquid crystal touch panel 31, the key indicating the selected function is inverted to black. If the details of the function need to be specified (for example, if the magnification is a variable magnification, etc.), touching the key displays a detailed function setting screen. As described above, since the liquid crystal touch panel 31 uses the dot display device, it is possible to graphically perform an optimal display at that time.
This machine has a connection function that transfers a part of the job from the master machine that has received the copy request job to the slave machine, and shares and processes the job between the master machine and the slave machine. A linked copy key 42 for instructing use of a function is provided.
[0016]
The display screen illustrated in FIG. 8 is an example of a screen displayed on the liquid crystal touch panel 31 when the job list key 40 illustrated in FIG. 2 is pressed. As shown in the figure, the display area is processed as image management information for specifying image data that has already been registered as a job and is waiting for print output processing stored in an image storage unit (image memory or HDD). (Operation) status, job number, number of originals (number of pages), number of sets (sets), and estimated time required for completion of printing are displayed. Note that a user name (user identification code), a document name, and a storage time may be displayed. Since the user name is given in the printer driver of the personal computer connected to the digital copier, it is displayed only when the image is stored by the printer function. A document name is given each time an image is stored. The number of pages is the number of stored document images. The storage time is the time when the image data was stored, and the printing order is the printing order given when printing the stored plurality of image data. Note that the displayed image management information is held in a nonvolatile memory (NV-RAM), and the image management information is kept held even when the power is turned off.
[0017]
FIG. 4 shows a schematic configuration of a control system in the copying machine of the present embodiment, centering on the main controller.
The main controller 20 controls the entire copying machine. The main controller 20 includes an operation unit 30 for performing display to an operator, input of function setting from the operator, control of a scanner, control of writing a document image in an image memory, control of image formation from an image memory, and the like. A distributed control device such as a unit (IPU) 49 and an automatic document feeder (ADF) 1 is connected.
The main controller 20 is connected to a connection I / F 48 for connecting to a plurality of copiers and transmitting and receiving configuration and function information and operation control information of each apparatus. The main controller 20 obtains information of the copier connected via the connection I / F 48 and controls the connection operation by setting an operation, or obtains a request from another connected copier and obtains a request from the copier. Control the operation of the machine.
In the linked operation, the status of both machines (supply end, jam, etc.) is constantly monitored, the distribution ratio of both machines is reviewed, and the machine is registered as a reserved job so that the jobs of both machines are completed at the same time as much as possible. ), An operation necessary for processing such as changing the order of reservation is performed. Regarding the distribution, it is possible to adopt a method of distributing the originals or the number of print copies, and when setting the sort mode, the distribution is performed in units of the number of copies.
Each decentralized control device and the main controller 20 exchange machine status and operation commands as needed. Further, a main motor 25 and various clutches 21 to 24 necessary for paper conveyance and the like are also connected.
[0018]
Returning to FIG. 1, the operation of the digital copying machine according to the present embodiment from reading a document to writing an image will be described in more detail. This operation is mainly performed by the reading unit 50 and the writing unit 57.
The reading unit 50 includes a contact glass 6 on which a document is placed and a scanning optical system. The scanning optical system includes an exposure lamp 51, a first mirror 52, a lens 53, a CCD image sensor 54, and the like. . The exposure lamp 51 and the first mirror 52 are fixed on a first carriage (not shown), and the second mirror 55 and the third mirror 56 are fixed on a second carriage (not shown). When reading the original image, a moving mechanism is used in which the first carriage and the second carriage travel at a relative speed of 2: 1 so that the optical path length does not change. A scanner drive motor (not shown) drives and scans the scanning optical system via the moving mechanism. The document image is read by the CCD image sensor 54, converted into an electric signal, and processed.
[0019]
The writing unit 57 includes a laser output unit 58, an imaging lens 59, and a mirror 60. Inside the laser output unit 58, a polygon mirror (polygon mirror) that rotates at a high speed at a constant speed by a laser diode and a motor as a laser light source. ) Etc. are equipped.
The laser light emitted from the laser output unit 58 is deflected by a polygon mirror that rotates at a constant speed, passes through an imaging lens 59, is turned back by a mirror 60, and condenses and forms an image on the surface of the photoreceptor 15.
The deflected laser light is exposed and scanned in a direction (main scanning direction) perpendicular to the direction in which the photoconductor 15 rotates, and the image signal of the image signal output from a selector 64 of an image processing control unit (FIG. 5) of the main body described later. Record in line units. An image (electrostatic latent image) is formed on the photoconductor surface by repeating main scanning at a predetermined cycle corresponding to the rotation speed of the photoconductor and the recording density.
The laser beam output from the writing unit 57 irradiates the photoconductor 15 of the image forming system in the main scanning direction and simultaneously irradiates a beam sensor (not shown) provided at a light receiving position near one end of the photoconductor 15. As a result, a main scanning synchronization signal is generated. Based on the main scanning synchronization signal, control of image recording start timing in the main scanning direction and generation of a control signal for inputting and outputting an image signal described later are performed.
[0020]
Next, the control unit of the present embodiment, which controls image processing from image reading to generation of image data used for image formation and the like, will be described in detail.
FIG. 5 is a block diagram showing an image processing control unit relating to the copying machine of the present embodiment.
In the reading unit 50, the reflected light from the document irradiated by the exposure lamp 51 is photoelectrically converted by the CCD image sensor 54. After the original image signal output from the image sensor is converted into a digital signal by the A / D converter 61, each correction is performed by the shading correction unit 62, the MTF correction, and the γ correction unit 63. The image signal that has passed through the scaling unit 72 is scaled according to the scaling factor, and flows to the selector 64. In the selector 64, the destination of the image signal is switched to the writing γ correction unit 71 or the image memory controller 65. The image signal that has passed through the writing γ correction unit 71 has its writing γ corrected in accordance with the image forming conditions, and is sent to the writing unit 57.
The image memory controller 65 and the selector 64 are configured so that image signals can be input and output in both directions. Further, a CPU 68 for setting the image memory controller 65 and the like and controlling the reading unit 50 and the writing unit 57, a ROM 69 for storing the programs and data, a RAM 70, and an NV-RAM 74 for storing management information such as job-related information. It has. Further, the CPU 68 can write and read data in the image memory 66 via the memory controller 65.
The connection I / F 48 is connected to a data bus of the memory controller 65 for transmitting and receiving image information, and is configured to be able to input and output data. The image information is transferred via the image memory 66 according to the data transfer speed between the copying machines. That is, at the time of image output, the image data is stored in the image memory 66 from the memory controller 65, then the data is sequentially read from the image memory 66 in accordance with the data transfer speed between the copying machines, and the data is transferred to the connection I / F 48. At the time of image input, after the image data transferred from the connection I / F 48 is stored in the image memory 66, the image data is processed from the image memory 66 via the memory controller 65 inside the apparatus. With the above-described configuration, it is possible to realize the connecting operation without being restricted by the functions of the copying machine.
Further, in addition to the image data input from the reading unit 50, the control unit outputs image data supplied from an external host device via a network, for example, the image data is processed and generated by an image processing apparatus such as a PC. It accepts image data and performs image processing using the printer function of the machine. For this purpose, a network I / F (not shown) is provided under the control of the CPU 68 so that an external host device can exchange a job processing request command and information related to the command.
[0021]
The original image sent to the image memory controller 65 is sent to the image memory 66 after the image data is compressed by an image compression device provided in the image memory controller. The reason for image compression here is that it is possible to write data of 256 gradations of the maximum image size into the image memory 66 as it is, but the capacity of the image memory is very large for one document image. By performing image compression, the limited image memory 66 can be used effectively. Also, since a large number of document image data can be stored at one time, the stored document image data can be output in page order as a sorting function. When an image is output using the sort function, the data is output while sequentially expanding the data in the image memory 66 by the expansion device in the memory controller 65. Such a function is generally called “electronic sorting”.
Also, by utilizing the function of the image memory, it is possible to sequentially read a plurality of document images into an area obtained by dividing an area for one transfer sheet in the image memory. For example, four original images are sequentially written into four equal areas of one transfer paper in the image memory, so that the four originals are combined into one transfer paper image to obtain an integrated copy output. It becomes possible. Such a function is generally called “aggregated copy”.
The image in the image memory 66 can be accessed from the CPU 68. For this reason, the contents of the image memory can be processed, and for example, image thinning processing, image clipping processing, and the like can be performed. For processing, image data processing can be performed by writing data to the register of the memory controller 65. The processed image is held in the image memory 66 again.
The image memory 66 is configured to divide the image data into a plurality of areas according to the size of the image data to be processed and to simultaneously execute input and output of the image data. The interface with the memory controller 65 is connected to the interface with the memory controller 65 by two sets of address / data lines for reading and writing so that input and output of image data can be executed in parallel to each divided area. Thus, an operation of outputting (reading) an image from the area 2 while inputting (writing) the image to the area 1 becomes possible.
Further, the configuration is such that the content of the image memory 66 can be read by the CPU 68 and transferred as image data 73 to the operation unit 30 via the I / O port 67. Generally, since the screen display resolution of the operation unit 30 is low, the original image in the image memory 66 is thinned out and sent to the operation unit 30.
As the image memory 66, a hard disk may be used to store a large amount of image data. By using a hard disk, there is also a feature that an external power supply is unnecessary and an image can be held permanently, and this apparatus is a necessary element for realizing a copy server function. In order to read and hold a plurality of fixed originals (format originals) with a scanner, it is common to use this hard disk.
[0022]
Here, an image signal for one page in the selector 64 will be described.
FIG. 6 is a timing chart showing a relationship between timing signals related to image data of one page.
The frame gate signal (/ FGATE) indicates an effective period in the sub-scanning direction in one page of image data. The main scanning synchronization signal (/ LSYNC) is a main scanning synchronization signal for each line, and the image data becomes valid at a predetermined clock after this signal rises.
A signal indicating that the image signal in the main scanning direction is valid is a line gate signal (/ LGATE). These signals / FGATE, / LSYNC, / LGATE are synchronized with the pixel synchronization signal (pixel clock: VCLK), and are equivalent to one pixel, for example, 8 bits (256 gradations) per one cycle of VCLK. Is sent. As an example, a value such as 4800 pixels in main scanning and 6800 pixels in sub-scanning can be adopted as the writing density on transfer paper at 400 dpi and the maximum number of pixels.
[0023]
FIG. 7 illustrates a copier network system in which a plurality of digital copiers according to the present embodiment are connected and configured (a digital copier constituting a copier network is referred to as a "network copier"). is there. In this example, as shown in FIG. 7, eight digital copiers 81 to 88 are connected to each other via a network interface 80. As the network communication means, for example, Ethernet (registered trademark) is used as a physical means, and each digital communication is performed by using TCP / IP (Transmission Control Protocol / Internet Protocol) communication of an OSI (Open System Interface) reference model for data communication. Communication between copiers can be performed bidirectionally. In the illustrated system, each copying machine has a linking function (a function of transferring a part of the job from the master machine that has received the copy request job to the slave machine and sharing and processing the job between the master machine and the slave machine), The master unit can function as a master unit or a slave unit during the linking operation. When a user performs an input operation for requesting job processing to a copying machine arbitrarily selected, the master unit is designated by pressing a link key (described later). Construct a connection system. Although FIG. 7 shows an example in which eight digital copiers are networked, the number of connected digital copiers is not limited to this, and any number of digital copiers may be connected.
[0024]
A method of printing out the stored image, that is, a copy server function will be described. The copy server function is a function of storing a job received by the apparatus in a large-capacity storage device (for example, an HDD), reading the job out of the job when necessary, and using it for print output and the like. When using this function, when the copy server function is selected with the key 44 of the operation panel 30 in FIG. 2, a document list screen (not shown) of the copy server is displayed on the liquid crystal touch panel 31.
A document list by the document name is displayed on the document list screen of the copy server, and one document to be output is touched from the document list. By checking the display of the touched document and pressing the start key 34, printing can be started in a print mode registered in advance. On the other hand, when confirming the set print conditions (operation mode), and when setting or changing or adding print conditions, the print condition screen can be opened from the list screen. After selecting a desired print mode on the print condition screen, output can be started with the start key 34. The print mode set here may be set as the print mode of the document, and the registered and saved data may be updated in association with the document when the start key 34 is pressed or a print condition save button (not shown). ) May be provided separately.
[0025]
Next, an operation example of the digital copying machine according to the present embodiment will be described.
When the copy key 43 in FIG. 2 is pressed, the copy operation condition setting screen (FIG. 3) is displayed on the liquid crystal touch panel 31 as described above. Operating conditions can be set by operating keys on this screen.
The link copy key 42 in FIG. 3 is effective when a link function is established in a system to which a copying machine (image forming apparatus) is connected as shown in FIG. When the link copy key 42 is pressed, the pressed one copying machine becomes a master (master) machine, and the connected copying machine (image forming apparatus) becomes a child (slave) machine. If the function being performed is copy, the slave unit can perform copy output based on the document image read by the master unit by a start instruction of the operation unit of the master unit.
Further, when the start key 34 (FIG. 2) is pressed while the key for setting the printing conditions is selected as shown in FIG. 3, the screen is switched and the screen is displayed as shown in FIG. The display screen shown in FIG. 10 is called a copy-in-progress screen, and is a screen representing the copy-operation conditions set for the job currently in operation.
The screen shown in FIG. 10 is in a state where the reservation of the copy to be output next (hereinafter referred to as “reserved copy”) has not been registered (see FIG. 12 for the screen where the reserved copy is registered). Operation modes set for selection, automatic density, equal magnification, tray 1 (during paper feeding operation), and the like are displayed.
FIG. 11 shows a screen called a reserved copy operation screen displayed on the liquid crystal touch panel 31 when using the reserved function. Here, the reserved copy is registered. It is displayed by pressing a new reservation key 39 (FIG. 2). After setting copy operation conditions on this screen (basically the same as the setting of the normal copy operation conditions shown in FIG. 3), the reservation is made by pressing the start key 34. Are registered, and the reading operation of the document is started. Pressing the release key 401 shown in FIG. 11 cancels the reserved copy, and returns to the screen shown in FIG. 10 that displays the setting state of the copy currently in operation. In the display screens of FIGS. 3, 10 and 11, the job number is displayed in a message area at the upper center of the screen. The job number is a number for identifying the job, and is incremented by one each time a reservation is made.
In the reserved copy mode, the operation unit 30 is opened during the execution of the copy operation, and the operation input of the next job is enabled. Accordingly, if the original reading operation of the job during the copying operation has been completed, the scanner (including the ADF 1) is released, and the original reading operation of the next job is enabled.
[0026]
In the job request for the image stored in the copy server, as described above, the operation conditions can be set on the copy server printing operation condition setting screen opened from the document list screen (not shown) of the copy server. After setting copy operation conditions on this screen, pressing the start key 34 switches to a display screen similar to that of FIG. The operation of the copy server also has a copy server printing operation screen (see FIG. 10) similar to the normal copy, and indicates the copy operation conditions set for the copy server print job that is currently operating. Therefore, also here, the reservation of the copy server printing to be performed next (hereinafter, referred to as “reserved copy server printing”) is not registered, and the automatic paper selection, tray 1 (during paper feeding operation) and the like are not performed. Similar operating conditions are displayed.
In addition, the operation of the copy server includes a reserved copy server print operation screen (see FIG. 11) similar to the normal copy, and the reserved copy server print is registered on this screen. The registration procedure is displayed by pressing the new reservation key 39 (FIG. 2) while the copy server screen is displayed. After setting copy operation conditions on the screen similar to FIG. Then, the reservation is registered, and the operation shifts to the print standby state. Also, in the case of canceling the reserved copy server printing, similarly to FIG. 11, it is canceled by pressing the release key 401 shown in FIG. 11, and the setting state of the currently operating copy server printing similar to FIG. 10 is displayed. Screen. In the copy server print screen, the job number is displayed in the message area in the upper center of the screen on the display screen as in the copy screen. The job number is a number for identifying the job, and is incremented by one each time a reservation is made. The job can be uniquely specified by the job number for the addition through the copy and the copy server.
In the reserved copy server mode, the operation unit 30 is opened during execution of the printing operation of copy or copy server printing, and the operation input of the next job is enabled. In the case of a copy server, since there is no reading of a document, a scheduled start is performed, and as soon as a job is accepted, the operation setting and start of the next job can be performed.
[0027]
An operation for changing an operation condition (setting content) set for a job will be described.
FIG. 8 shows an example of a job list display screen on the parent device. The statuses of the currently printed copy or copy server print and reserved copy, reserved copy server print, linked job, and scheduled linked job are displayed in a list. FIG. 9 shows an example of a job list display screen in the slave unit. The job list screen is displayed when the job list key 40 of the operation unit 30 is pressed.
The display and keys on the job list screen will be described with reference to FIGS. First, for each job, “operation status”, “job number”, “number of documents”, “number of sets”, and “required time” are displayed. The operation statuses are arranged with job numbers assigned in the order of reservation, starting with the job being printed. The required time is calculated based on the number of originals, the number of sets, and the size of the transfer paper, and is calculated and displayed. In the case of a linked job, the parent (master) machine and the child (slave) machine each display the required time according to the “number of sets” assigned to the machine at the present time. When the number of images is determined, the job is registered on the job list screen. Accordingly, the registration of the required time is performed when the job is started in the copy server printing and the job is started in the copy and the reading of all the originals is completed. Information for identifying job types such as a copy job, a copy server print job, a job using a printer function required from an external PC, and a linked job is added in a manner to relate to the job number as shown in the figure. In addition, it is preferable to provide a column for writing a message necessary for the linked job (for example, a message indicating the presence of the linked copying machine, such as a message “Please check the slave unit”) for the linked job.
FIG. 8 shows that one reserved job is registered in addition to the job being printed. FIG. 9 shows that two reserved jobs are registered in addition to the job being printed. Each job being displayed is a key, and when pressed, becomes in a selected state and is highlighted. When the button is pressed again in the inverted state, the inversion is canceled and the state returns to the non-selected state. It becomes possible to change the operating conditions set by the next key operation for the selected job. Before the reservation order is changed, pressing the key 302 increases the reservation order by one. However, it does not go before the job being printed. When the key 303 is pressed backward, the reservation order is moved down by one. When the order of the reservation is prohibited, when the job key is selected, the display changes to a display in which the front key and the rear key cannot be pressed, and the key input is not accepted. When either the change of the order of the reservation is replaced before or after the change, only the prohibited key is changed to a display that cannot be pressed, and the key input is not accepted.
Here, in the case of changing the operation conditions (setting contents), pressing the contents change key 304 shifts to a mode selection screen of the selected job, and the copy operation conditions (mode) can be changed. In other words, in FIGS. 8 and 9, when the content change key 304 is pressed, the screen changes to the reservation standby screen of FIG. In FIG. 12, the user can return to the job list display screen by pressing the return key 501.
Further, when the delete key 305 is pressed, the selected reserved job is deleted. When the return key 301 is pressed, the screen returns to the job screen before shifting to the list display. If there is no job before migration due to the end or deletion of the job, the screen returns to the screen of the job being printed.
[0028]
FIG. 16 shows an example of a system constructed to realize the reserved copy function. In this example, it is assumed that a plurality of copy applications 1 to n are activated and each operates independently. The operation unit, peripheral device, image forming device, image reading device, and memory, which are shared resources, are arbitrated by the system controller. The plurality of copy applications 1 to n can write respective operation screen information on a virtual screen provided by the operation unit. The operation unit 30 develops the screen information of the virtual screen of the operation unit owner application specified by the system controller on the real screen.
[0029]
Next, in the copying machine constituting the above-described concatenated system, a processing request for a copy job using the reservation function is made, and thereafter, the operation conditions (setting contents) set for the job including the concatenated job are changed. 5 shows an embodiment relating to job processing.
In the prior art, when an instruction to change an operation condition (setting content) set for a reserved job is given, the instruction is unconditionally accepted (irrespective of the type of job or the operation state). In the case where the job instructed to change the operating condition is a linked job during printing (image forming) processing, the print output result of the changed job is different between the master unit and the slave unit. (Refer to the above-mentioned section [Problems to be Solved by the Invention]).
In the following “Embodiment 1” and “Embodiment 2”, it is possible to cope with a case where such a problem may occur, so that the connection function and the reservation function can be properly used. It is intended. The intention is to change the operating conditions (setting contents) set for the reserved job by rejecting the instruction when the change is instructed for the linked job being printed. In the following embodiments, this is implemented as a part of the connection operation mode receiving process in the master unit. Therefore, as will be described in more detail later, as a process accompanying the change of the set operating condition (setting content), a process of obtaining information necessary for the operation in consideration of the connecting condition such as the predicted start time of the reserved connected job is simultaneously performed. Then, immediately upon accepting the change, a process of notifying the slave unit of the change information is performed in order to share the changed setting contents and connection conditions with the slave unit.
[0030]
"Embodiment 1"
In the present embodiment, in the receiving process of the connection operation mode, when a change of the operation condition (setting content) is instructed for “the connection job in which the print process is being executed”, this instruction is rejected. By prohibiting the execution of the change of the operating condition, it is possible to avoid a problem that the print output result is different between the master unit and the slave unit. It should be noted that a change in the operating conditions for a newly set job or a connected job for which no print processing has not been executed, which does not correspond to the above-described condition of “a connected job for which print processing is being executed”, is accepted. Further, in the example shown below, an example in which a copy request is made to an image stored in advance on a fixed storage device such as a hard disk such as printing of a document box, that is, an example in which the present invention is applied to a copy request to a copy server in the present embodiment. Show.
[0031]
FIG. 14 is a flowchart illustrating a connection operation mode reception process according to the present embodiment.
This processing flow will be described with reference to FIG. When a new reserved job is generated in the linked operation mode, and thereafter, the registered reserved job is operated on the input screen opened by operating the content change key 304 from the job list display screen (FIGS. 8 and 9). This processing is executed when a change of the condition is instructed. In the procedure shown in FIG. 14, first, it is checked whether or not the link operation mode has been set (S101). If not set, the link copy key 42 is pressed, that is, a new reserved link job has occurred. At this time (S102-YES), or even when the connection operation mode has been set (S101-YES), the content change key 304 is operated by a key, and the setting of the operation condition of the registered reserved job is changed. In this case (S104-YES), the setting change of the operating condition is accepted with the condition that the printing process of the designated change target job has not been executed (S105-NO), and the process proceeds to the processes after step S111. .
[0032]
On the other hand, even if the content change key 304 is operated to change the setting of the operation condition for the registered reserved job (S104-YES), if the print processing of the specified job to be changed is being executed. (S105-YES), since the setting change of the operating condition is prohibited in accordance with the object of the present invention, this instruction is rejected, and the process exits without performing the setting change process of steps S111 to S114.
In this case, since it is necessary to inform the operator that the setting change according to the instruction is not performed, a message to that effect is displayed on the operation screen. FIG. 15 shows an example of this message display. As shown in FIG. 15, an alert message indicating that the print content of the linked job cannot be changed is displayed on the front of the job list display screen (FIGS. 8 and 9). To do.
In the procedure shown in FIG. 14, after a message indicating that the setting is not changed is displayed on the screen (S106), the process exits.
Further, when the link operation mode is already set (S101-YES), if the link copy key 42 is touched (S103-YES), the link operation mode is canceled and the normal operation mode is set. 302 is set to a non-reversed state (S109), the change of the state can be confirmed by the operator, and the process flow exits.
[0033]
When the setting change of the operating condition is accepted and it is confirmed that the processing for that is necessary (S102-YES, S105-NO), in the next processing step, the image size and image of the document selected as the reserved job After reading the changed operating conditions such as the number of documents and the printing conditions of the document (S111), as the predicted processing start time of the reserved linked job, the printing job of the own device (parent device) and the printing whose reservation order is earlier The total time required for the waiting job is calculated (S112). If the number of copies, paper size, and the like are changed in the printing conditions, the required time of the job changes, so the calculated required time is recalculated.
Next, the slave unit is notified of the registration of the reserved linked job, and the reserved job ID at this time and the predicted processing start time of the reserved linked job obtained in the previous step are notified (S113). Thereafter, the setting of the link operation mode is recognized, the link copy key 302 is reversed, and the setting change can be confirmed by the operator (S114), and the process flow is exited.
By executing this processing flow, the master unit generates a reserved job in the linked operation mode, and subsequently generates a reserved link in the master unit due to an operation condition change request for a job for which print processing has not been executed. The predicted processing start time of the job is notified to the connected slave units, and management of the reserved linked jobs distributed to the slave units (management such that the linked jobs are simultaneously advanced by the master unit and the slave units) can be performed.
As described above, in the flow relating to the reception process of the connection operation mode, the setting change of the operation condition of the connection job is executed when the connection job is executed, and the operation condition (setting content information) after the change from the master unit to the slave unit is performed. Since the notification is made, immediately after changing the setting of the operating condition on the master unit, the print output result with the slave unit may not match, but the operating conditions (setting information) on the slave unit should be By quickly changing the information to the same information as that of the parent machine, the same operating conditions can be quickly set in the connection system, and the resulting mismatch of the print output results can be minimized.
[0034]
"Embodiment 2"
In the present embodiment, in the receiving process of the connection operation mode, when an instruction to change the operation condition (setting content) is given for “the connection job in which the printing process is being executed”, the instruction is unconditionally followed. By preparing a procedure in which the operator confirms whether or not to execute the change of the operating condition, there is a possibility that a problem may occur that the print output result is different between the master unit and the slave unit. In this case, it is possible to avoid this problem. The change of the operating condition for a newly set job or a linked job for which the printing process has not been executed, which does not correspond to the above-described condition of the “connected job in which the printing process is executed”, is performed by changing the operating condition. It is accepted without going through the procedure of confirming by the operator whether or not. Further, the following example shows an example in which the present invention is applied to a copy request to a copy server as in the first embodiment.
[0035]
FIG. 16 is a flowchart illustrating a connection operation mode reception process according to the present embodiment.
This processing flow will be described with reference to FIG. When a new reserved job is generated in the linked operation mode, and thereafter, the registered reserved job is operated on the input screen opened by operating the content change key 304 from the job list display screen (FIGS. 8 and 9). This processing is executed when a change of the condition is instructed. In the procedure shown in FIG. 16, first, it is checked whether or not the link operation mode has been set (S101). If the link operation mode has not been set, the link copy key 42 is pressed, that is, a new reserved link job has occurred. At this time (S102-YES), or even when the connection operation mode has been set (S101-YES), the setting change is accepted when the following condition is satisfied.
That is, this is a case where the content change key 304 is operated by a key and an instruction to change the setting of the operating condition of the registered reserved job is issued (S104-YES). Is not executed (S105-NO), and the other is that even if the printing process of the designated job to be changed is being executed (S105-YES), the operation condition change for the job being executed is performed. This is a case where the operator has confirmed execution (S108-YES). With such a condition, the setting change of the operating condition is accepted, and the process proceeds to step S111 and subsequent steps.
[0036]
In the first embodiment, the setting change is not accepted when the print processing of the designated job to be changed is being executed. In the present embodiment, as described above, the designated job to be changed is Even if the print process is being executed, the setting change is conditionally accepted. To explain the procedure in more detail, as shown in the processing flow of FIG. 16, when the printing process of the designated job to be changed is being executed (S105-YES), the operator determines whether or not to execute the operation condition change. To be able to select and give that instruction. As a procedure for this, a message display and a selection key are provided to the operator (S107). FIG. 17 shows an example of the message display and the selection key. As shown in FIG. 17, the setting contents of the operating condition for the linked job are changed on the front of the job list display screen (FIGS. 8 and 9). In order to confirm whether or not it is OK, a confirmation message is displayed, and "OK" and "Cancel" keys for inputting the confirmation result are displayed.
Next, the result of the confirmation by the operator is checked (S108). That is, it is checked whether or not the “OK” key on the display screen of the confirmation message has been pressed, and if the confirmation result is OK (S108-YES), the processing after step S111 is performed to execute the operation condition change. Transition.
On the other hand, if the confirmation result is cancelled (S108-NO), it is determined that the setting change of the operating condition is stopped, so that the processing flow exits without performing the setting change processing of steps S111 to S114.
Further, when the link operation mode is already set (S101-YES), if the link copy key 42 is touched (S103-YES), the link operation mode is canceled and the normal operation mode is set. 302 is set to a non-reversed state (S109), the change in the state can be confirmed by the operator, and the process exits.
[0037]
When the setting change of the operating condition is accepted and it is confirmed that the processing for that is necessary (S102-YES, S105-NO, S108-YES), in the next processing step, the document selected as the reserved job is processed. After reading out the changed operating conditions such as the image size, the number of images, and the printing conditions of the document (S111), the job currently being printed by its own device (parent device) and the reservation order are set as the predicted processing start time of the reserved linked job. The total time required for the preceding print waiting job is calculated (S112). If the number of copies, paper size, and the like are changed in the printing conditions, the required time of the job changes, so the calculated required time is recalculated.
Next, the slave unit is notified of the registration of the reserved linked job, and the reserved job ID at this time and the predicted processing start time of the reserved linked job obtained in the previous step are notified (S113).
Thereafter, the setting of the link operation mode is recognized, the link copy key 302 is reversed, and the setting change can be confirmed by the operator (S114), and the process flow is exited.
By executing this processing flow, the master unit generates a reserved job in the linked operation mode, and subsequently generates a reserved link in the master unit due to an operation condition change request for a job for which print processing has not been executed. The predicted processing start time of the job is notified to the connected slave units, and management of the reserved linked jobs distributed to the slave units (management such that the linked jobs are simultaneously advanced by the master unit and the slave units) can be performed.
As described above, in the flow relating to the reception process of the connection operation mode, the setting change of the operation condition of the connection job is executed when the connection job is executed, and the operation condition (setting content information) after the change from the master unit to the slave unit is performed. Since the notification is made, immediately after changing the setting of the operating condition on the master unit, the print output result with the slave unit may not match, but the operating conditions (setting information) on the slave unit should be By quickly changing the information to the same information as that of the parent machine, the same operating conditions can be quickly set in the connection system, and the resulting mismatch of the print output results can be minimized.
[0038]
【The invention's effect】
(1) Effects corresponding to the first and fourth aspects of the invention
When the setting change of the operating condition is instructed for the linked job during the image forming process, the setting change instruction is rejected, so that there is a possibility that the setting change is accepted in such a situation. It is possible to avoid such a problem that the print output result differs between the master unit and the slave unit.
(2) Effects corresponding to the inventions of claims 2 and 4
When a setting change of the operating condition is instructed for the connected job during the image forming process, a request is made to confirm whether or not to execute the instructed setting change, and management based on the confirmation result is performed. In such a situation, when the setting change is accepted, even if there is a possibility that the print output result is different between the master unit and the slave unit, if the user permits, the output is performed. , And it is possible to select whether or not to execute print output according to the user's intention, thereby improving convenience.
(3) Effects corresponding to the inventions of claims 3 and 4
In addition to the effects of the above (1) and (2), when the setting change of the operation condition instructed for the linked job is accepted, the changed setting is immediately notified to the other device distributed, and the latest setting is notified. By sharing the setting contents between the own apparatus and the other apparatus, it is possible to minimize the difference that occurs in the print output result between the master unit and the slave unit.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an entire configuration of a digital copying machine according to an embodiment of the present invention.
FIG. 2 shows an example of an operation unit with a liquid crystal touch panel of the digital copying machine (FIG. 1).
FIG. 3 shows an example of a setting operation screen displayed when a copy key of an operation unit (FIG. 2) is pressed.
FIG. 4 shows a schematic configuration of a control system centering on a main controller of the digital copying machine (FIG. 1).
FIG. 5 is a block diagram showing an image processing control unit in the digital copying machine (FIG. 1).
FIG. 6 is a chart showing a relationship between image data of one page and timing signals related thereto.
FIG. 7 shows an example of a copier network system configured by connecting digital copiers having a connection function.
FIG. 8 shows an example of a display screen on the master unit displayed when the job list key of the operation unit (FIG. 2) is pressed.
FIG. 9 shows an example of a display screen of the slave unit displayed when the job list key of the operation unit (FIG. 2) is pressed.
FIG. 10 is a screen showing a copy operation condition set for a job currently being printed.
FIG. 11 shows an example of a reservation copy setting operation screen displayed when a new reservation key is pressed on the operation unit (FIG. 2).
FIG. 12 shows an example of a reservation waiting screen displayed when the content change key of the job list operation screen (FIGS. 8 and 9) is pressed.
FIG. 13 shows an example of a system constructed to realize a reserved copy function.
FIG. 14 is a flowchart showing a connection operation mode receiving process (first embodiment).
FIG. 15 shows an example of an alert message displayed on the front of a job list display screen (FIGS. 8 and 9).
FIG. 16 is a flowchart illustrating a connection operation mode receiving process (second embodiment).
FIG. 17 shows an example of a setting change execution confirmation key displayed on the front of the job list display screen (FIGS. 8 and 9).
[Explanation of symbols]
1. Automatic document feeder (ADF) 2. Document platen
6 contact glass, 15 photoconductor,
17: fixing unit, 27: developing unit,
30: operation unit, 31: liquid crystal touch panel,
34 ... Start key, 39 ... New reservation key,
42: linked copy key, 43: copy key,
44: copy server key, 48: connection I / F,
50: reading unit, 57: writing unit,
58: Laser output unit, 67: I / O port,
68: CPU, 65: Image memory controller,
66 ... Image memory.

Claims (4)

A job for registering and managing a job for which image forming processing has been requested by setting operating conditions using the job reservation function and the link function of distributing a part of the job received by its own device to other devices. What is claimed is: 1. An image forming apparatus comprising: a management unit configured to process a job under the management of the job management unit; Wherein the job management unit rejects the setting change instruction when the setting change unit instructs the setting change of the operation condition for the linked job in the image forming process. Image forming apparatus. A job for registering and managing a job for which image forming processing has been requested by setting operating conditions using the job reservation function and the link function of distributing a part of the job received by its own device to other devices. What is claimed is: 1. An image forming apparatus comprising: a management unit configured to process a job under the management of the job management unit; When the setting change unit instructs to change the setting of the operating condition for the linked job in the image forming process, a request is made to confirm whether or not to execute the instructed setting change, based on the confirmation result. An image forming apparatus characterized in that management is performed. 3. The image forming apparatus according to claim 1, wherein the job management unit immediately distributes the setting to the other apparatus when the setting change of the operation condition instructed for the linked job is received by the setting change unit. 4. An image forming apparatus characterized by notifying changed setting contents and sharing the latest setting contents between the own apparatus and another apparatus. A job management means for using the image forming apparatus according to any one of claims 1 to 3 as a parent apparatus, and registering and managing the received connected job using a connection function for receiving a job distributed from the parent apparatus. And an image forming apparatus configured to process a job under the management of the job management unit as a child apparatus.

Images