JP3745134B2 - Image input / output system and image input / output method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention Input means for inputting image data, first storage means capable of storing image data, second storage means capable of storing more image data than the first storage means, and print processing of image data And a detecting means for detecting an abnormality in the second storage means. Image input / output system and Painting The present invention relates to an image input / output method.
[0002]
[Prior art]
With the recent digitalization of copiers, multiple functions such as facsimile transmission / reception using copier scanners and printers, and PDL (Page Description Language) data from computer devices etc. are developed and printed out. Multi-function machines that have both are in practical use. Such a multi-function peripheral is configured to be operable not only with a single function such as a copier function, a facsimile function, and a PDL print function, but also between a plurality of functions such as facsimile transmission of a PDL developed image. Furthermore, by connecting the multifunction device to various devices such as a computer device via a LAN, the function of the multifunction device can also be used by the computer device or the like.
[0003]
In such a multi-function machine, the control program for the printer part is shared in the copier function, the PDL print function, the facsimile print function, etc., and the reader part in the copier function, the facsimile reading function, the scanner function, etc. By sharing the control program, it is possible to reduce the capacity of the control program for realizing various functions, and to realize a desired function economically and simply.
[0004]
Further, such a multi-function device has a large-capacity hard disk for storing image data, and inputs images read from the scanner, developed PDL images, facsimile received documents, etc. to the hard disk, and the images stored on the hard disk are stored. / Efficient image processing is possible by repeatedly outputting a document to a printer or the like.
[0005]
[Problems to be solved by the invention]
However, a conventional multi-function machine equipped with a large-capacity hard disk for storing image data is configured to always perform image input and image output via the hard disk. In this case, the hard disk cannot be used for some reason. Has a problem that the image processing operation cannot be executed.
[0006]
[Means for Solving the Problems]
The present invention has been made paying attention to the above-mentioned problems, and the object of the present invention is , Image input / output system and Painting Image input / output method The It is to provide.
[0007]
That is, the present invention provides input means for inputting image data and , First storage means capable of storing image data, and the first storage Than storage means The second that can store a lot of image data Storage means; Printing that executes image data printing Means and said Second Detection means for detecting an abnormality of the storage means And having Image input / output system Because , All the plurality of pages of image data input by the input unit are stored in the second storage unit. Executing an image input job In Parallel Then, the printing unit performs the printing process of the image data of the plurality of pages in the second storage unit by the number of printing copies according to the processing condition set by the user through the operation unit. Image output job Make it executable, Control means available And the control means , When no abnormality occurs in the second storage means , In parallel with the execution of the image input job for storing all of the plurality of pages of image data input by the input means in the second storage means. , Execution of an image output job for causing the printing means to perform printing processing of a plurality of pages of image data in the second storage means according to the printing conditions set by the user via the operation means. , on the other hand , When an abnormality occurs in the second storage means , An image input job for storing all of the plurality of pages of image data input by the input unit in the second storage unit and a printing process for the plurality of pages of image data of the second storage unit are performed by the user via the operation unit. Image output jobs to be performed by the printing means for the number of copies according to the processing conditions set in Prohibit running in parallel Shi , Printing processing of image data using the first storage means , Printing conditions that can be executed even when the second storage means is abnormal. , Executable by the printing means , Image input / output system Is to provide.
[0008]
The present invention also provides an input means for inputting image data; , First storage means capable of storing image data, and the first storage Than storage means The second that can store a lot of image data Storage means; Printing that executes image data printing Means and said Second Detection means for detecting an abnormality of the storage means In an image input / output system having An image input / output method, All the plurality of pages of image data input by the input unit are stored in the second storage unit. Executing an image input job In Parallel Then, the printing unit performs the printing process of the image data of the plurality of pages in the second storage unit by the number of printing copies according to the processing condition set by the user through the operation unit. Image output job In the case where no abnormality has occurred in the second storage means , In parallel with the execution of the image input job for storing all of the plurality of pages of image data input by the input means in the second storage means. , Execution of an image output job for causing the printing means to perform printing processing of a plurality of pages of image data in the second storage means according to the printing conditions set by the user via the operation means. , on the other hand , When an abnormality occurs in the second storage means , An image input job for storing all of the plurality of pages of image data input by the input unit in the second storage unit and a printing process for the plurality of pages of image data of the second storage unit are performed by the user via the operation unit. Image output jobs to be performed by the printing means for the number of copies according to the processing conditions set in Prohibit running in parallel Shi , Printing processing of image data using the first storage means , Printing conditions that can be executed even when the second storage means is abnormal. , Executable by the printing means An image input / output method is provided.
[0010]
These and other objects and advantages of the present invention will be apparent from the following description.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing the configuration of an embodiment of an image input / output control apparatus to which the present invention is applied.
[0012]
In the figure, a reader unit 1 photoelectrically reads a document image by a CCD image sensor or the like, and outputs image data corresponding to the document image to the image input / output control unit 3. The printer unit 2 is, for example, a laser beam printer, and records an image corresponding to the image data from the image input / output control unit 3 on a recording sheet. The image input / output control unit 3 is connected to the reader unit 1 and the printer unit 2, and includes a facsimile unit 4, a storage unit 5, a computer interface unit 7, a RIP (Raster Image Processor) unit 8, an operation unit 9, a core unit 10, and the like. Consists of.
[0013]
The facsimile unit 4 decompresses the compressed image data received via the telephone line, transfers the decompressed image data to the core unit 10, and compresses and compresses the image data transferred from the core unit 10. The compressed image data is transmitted via a telephone line. Image data to be transmitted and received can be temporarily stored in the hard disk 6 connected to the storage unit 5.
[0014]
A hard disk 6 is connected to the storage unit 5, and the storage unit 5 compresses the image data transferred from the core unit 10 and stores it in the hard disk 6 together with an ID number for retrieving the image data. Further, the storage unit 5 searches the compressed image data stored in the hard disk 6 based on the code data transferred through the core unit 10, reads the searched compressed image data, decompresses the decompressed image, and Data is transferred to the core unit 10. The hard disk 6 has a storage capacity of 2 gigabytes, for example, and can store about 1000 pages of A4 size images, depending on the contents of the images.
[0015]
Further, the storage unit 5 detects the presence / absence of the connection of the hard disk 6 and the presence / absence of the failure of the hard disk 6 by performing a command / response via the hard disk interface and writing, reading, and collating predetermined data.
[0016]
The computer interface unit 7 is an interface between the personal computer or workstation (PC / WS) 11 and the core unit 10, and can be connected to the PC / WS 11 through a one-to-one local interface or through a network. It has a good structure.
[0017]
The RIP unit 8 develops code data (PDL) representing an image transferred from the PC / WS 11 into image data that can be recorded by the printer unit 2.
[0018]
The operation unit 9 includes a touch panel display and hard keys, and performs operation instructions and operation settings to the image input / output control apparatus through a user interface.
[0019]
Although details of the core unit 10 will be described later, the core unit 10 is configured to transfer data between the reader unit 1, the printer unit 2, the facsimile unit 4, the storage unit 5, the computer interface unit 7, the RIP unit 8, and the operation unit 9. It controls the flow.
[0020]
FIG. 2 is a cross-sectional view of the reader unit 1 and the printer unit 2. The document feeder 101 of the reader unit 1 feeds a plurality of documents set at a predetermined placement location by the user one by one from the first page onto the platen glass 102 one by one, and after the document reading operation is completed, The document on the glass 102 is discharged to a predetermined discharge location. When the original is conveyed onto the platen glass 102, the lamp 103 is turned on, and the movement of the scanner unit 104 is started to expose and scan the original. The reflected light from the original at this time is guided to a CCD image sensor (hereinafter referred to as CCD) 109 by mirrors 105, 106, 107 and a lens 108. Thus, the scanned image of the original is photoelectrically converted by the CCD 109 and read. Image data output from the CCD 109 is transferred to the core unit 10 of the image input / output control unit 3 after being subjected to predetermined processing such as A / D conversion, shading correction, and desired editing processing.
[0021]
The laser driver 221 of the printer unit 2 drives the laser emission unit 201, and causes the laser emission unit 201 to emit laser light corresponding to the image data output from the core unit 10 of the image input / output control unit 3. The laser beam is irradiated onto the photosensitive drum 202, and a latent image corresponding to the laser beam is formed on the photosensitive drum 202. A developer is attached to the latent image portion of the photosensitive drum 202 by the developing unit 203.
[0022]
In addition, at the timing synchronized with the start of laser light irradiation, the recording paper is fed from either the cassette 204 or the cassette 205 and conveyed to the transfer unit 206, and the developer attached to the photosensitive drum 202 is transferred to the recording paper. To do. The recording paper on which the developer is placed is conveyed to the fixing unit 207, and the developer is fixed to the recording paper by the heat and pressure of the fixing unit 207. The recording sheet that has passed through the fixing unit 207 is discharged by a discharge roller 208, and the finisher 220 bundles a plurality of discharged recording sheets and sorts them, or performs stapling processing on the sorted recording sheets. If double-sided recording is set, the recording paper on which single-side recording is performed up to the discharge roller 208 is conveyed, and then the rotation direction of the discharge roller 208 is reversed and guided to the refeed conveyance path 210 by the flapper 209. . The recording paper guided to the refeed conveyance path 210 is fed to the transfer unit 206 at the timing described above, and image recording is performed on the other side.
[0023]
FIG. 3 is a block diagram of the core unit 10.
[0024]
Image data from the reader unit 1 is transferred to the data processing unit 121 via the interface 122. The data processing unit 121 performs image processing such as image rotation processing and scaling processing, and compression and decompression of image data. A page memory 125 capable of storing four pages of image data equivalent to A4 / Letter size inside. Have The image data transferred from the reader unit 1 to the data processing unit 121 is temporarily stored in the page memory 125, compressed, and transferred to the storage unit 5 through the interface 120.
[0025]
Further, code data (PDL) representing an image input via the computer interface unit 7 is transferred to the data processing unit 121 via the interface 120 and then transferred to the RIP unit 8 and developed into image data. The image data is transferred to the data processing unit 121, temporarily stored in the page memory 125, compressed, and transferred to the storage unit 5.
[0026]
The image data from the facsimile unit 4 is transferred to the data processing unit 121, temporarily stored in the page memory 125, compressed, and transferred to the storage unit 5.
[0027]
The image data from the storage unit 5 is transferred to the data processing unit 121, decompressed and temporarily stored in the page memory 125, and then transferred to the printer unit 2, facsimile unit 4, and computer interface unit 7. Is done.
[0028]
It should be noted that various image data are input to the data processing unit 121 described above, temporarily stored in the page memory 125, and then transferred to the storage unit 5 before the printer unit 2, the facsimile unit 4, and the computer interface unit. 7 can also be executed by switching the internal selector.
[0029]
The CPU 123 controls the various operations according to the control program stored in the memory 124 and the control command transferred from the operation unit 9. The memory 124 is also used as a work area for the CPU 123.
[0030]
As described above, functions such as reading of a document image, printing of an image, transmission / reception of an image, storage of an image, and input / output of data from a computer are mainly performed by the core unit 10 via the data processing unit 121 and the storage unit 5. Can be combined.
[0031]
Next, job control executed by the CPU 123 of the core unit 10 in the image input / output control apparatus according to the present embodiment will be described with reference to FIG. 4 as an example when the hard disk 6 is operating normally. To do. FIG. 4 logically shows the unit of job control.
[0032]
The unit of job control is a series of input and output processes for a group of image data including a plurality of pages. Jobs controlled in this way are roughly divided into image input jobs and image output jobs.
[0033]
The image input job includes an image input job 411 that sequentially records image data read by the reader unit 1 to the storage unit 5, an image input job 412 that sequentially records image data developed by the RIP unit 8 to the storage unit 5, and a facsimile unit 4. -1 is further classified into an image input job 413 for sequentially recording the image data received in the storage unit 5 and an image input job 414 for sequentially recording the image data input from the computer interface unit 7-1 to the storage unit 5. .
[0034]
The image output job includes an image output job 401 for sequentially outputting the image data read from the storage unit 5 to the printer unit 2, and an image output job 403 for sequentially outputting the image data read from the storage unit 5 to the facsimile unit 4-2. Then, the image data read out from the storage unit 5 is classified into an image output job 404 that sequentially outputs to the computer interface unit 7-2.
[0035]
FIG. 5 shows an example of a unit (hereinafter referred to as a session) in which a plurality of jobs are combined.
[0036]
Reference numeral 501 denotes a PDL print session, which controls the image input job 412 and the image output job 401 in combination as a session. Reference numeral 502 denotes a copy session, which controls the image input job 411 and the image output job 401 in combination as a session. Reference numeral 503 denotes a facsimile transmission session which controls the image input job 411 and the image output job 403 in combination as a session. Reference numeral 504 denotes a facsimile reception session which controls the image input job 413 and the image output job 401 in combination as a session. A scan session 505 controls the image input job 411 and the image output job 404 in combination as a session.
[0037]
Note that a session is a control unit including one or more jobs. In addition to those shown in FIG. 5, for example, the image input job 412 is treated as one session, the image output job 401 is treated as one session, A combination of the three jobs of the input job 412, the image output job 401, and the image output job 403 may be handled as one session.
[0038]
FIG. 6 shows that in this embodiment, image data is sequentially stored as a session control task and a job control task executed by the CPU 123 of the core unit 10 of the image input / output control device when the hard disk 6 is operating normally. 6 is a flowchart illustrating a session control procedure including an image input job to be recorded in the unit 5 and an image output job to sequentially print out the image data recorded in the storage unit 5 to the printer unit 2. In the figure, (S601) to (S630) indicate steps, and the session control task (a), the image input job control task (b), and the image output job control task (c) each perform multitask operation. It is.
[0039]
As a first example of session control and job control of the image input / output control apparatus according to the present embodiment with reference to FIG. 6, the PDL print session 501 of FIG. 5 and the image input job 412 and the image output job 401 constituting the PDL print session 501. The control procedure will be described.
[0040]
First, in step (S601) of the session control master (a), the user performs print settings on the PC / WS11. The print setting contents include the number of pages, the number of copies, the document size, the paper size, the enlargement / reduction ratio, single-sided / double-sided, layout, page output order, sort mode, presence or absence of stapling. Here, as an example, it is assumed that the following print settings are made.
[0041]
Number of pages: 20 pages ... (P1)
Number of copies: 10 copies (P2)
Single-sided printing: Yes ... (P3)
Original size: A4 (P4)
Paper size: A4 (P5)
Enlargement / reduction ratio: 100% (P6)
Layout: No ... (P7)
Page output order: ascending order (P8)
Sort mode: Yes ... (P9)
Staple stop: Yes ... (P10)
[0042]
After the above print settings, the user gives a print instruction on the PC / WS 11. At the same time, the driver software installed on the PC / WS 11 converts the document data to be printed into so-called PDL data and is connected to the PC / WS 11 together with the set print setting parameters (P1) to (P10). The image data is transferred to the computer interface unit 7 of the image input / output control apparatus via the computer interface.
[0043]
PDL data representing an image input via the computer interface unit 7 is transferred to the data processing unit 121, and then transferred to the RIP unit 8. The RIP unit 8 sequentially develops the transferred PDL data into image data ( Rasterize). When the RIP unit 8 starts receiving PDL data, a processing request is issued from the RIP unit 8 to the core unit 10. In the core unit 10, the CPU 123 accepts the issued processing request. Here, the print setting parameters (P1) to (P10) set by the user are also transferred to the CPU 123.
[0044]
In step (S602), the core unit 10 divides one unit of image processing function according to the processing request issued from the RIP unit 8 into at least one image input job or image output job, and internally inputs these image inputs. Generate and manage a session composed of jobs or image output jobs. FIG. 7 shows a session management table 700. In session generation, a session management table 700 shown in FIG. 7 is created on the memory 124, and various types of information are held until the session ends.
[0045]
A session ID field 701 generates and holds a unique session ID in the image input / output control apparatus. The session type field 702 specifies the type of the generated session (PDL print session, copy session, facsimile transmission session, facsimile reception session, scan session, etc.). In this embodiment, the session type field 702 indicates that this is a PDL print session. Record it. The session priority field 703 holds a priority order regarding the processing order of the session. The session status field 704 holds the execution state (executable state, execution state, suspension state, end state, error state, etc.) of the session according to the execution state. The link job number field 705 holds the number of image input jobs and image output jobs constituting the session. In this embodiment, the link job number field 705 includes an image input job 412 constituting the PDL print session 501 as shown in FIG. Since the image output job 401 includes two jobs, “2” is set as the number of components. A first job pointer field 706 is a pointer to the job management table 710 of the image input job 412. A second job pointer field 707 is a pointer to the job management table 730 of the image output job 401. This job pointer field is prepared for the number of jobs constituting the session. Job management tables are also created for the number of jobs constituting the session.
[0046]
In step (S603), a job management table 710 of the image input job 412 shown in FIG. 7 is created on the memory 124, and various information is held until the job is completed.
[0047]
A job ID field 711 generates and holds a unique job ID in the image input / output control apparatus. The job type field 712 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data developed by the RIP unit 8 is sequentially recorded in the storage unit 5. The image input job 412 to be recorded is recorded. The job priority field 713 holds priority regarding the processing order of the job. The job status field 714 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 715 holds the page number of the job. A page pointer field 716 is a pointer to a page management table 720 describing detailed information of each page managed by the job. The page management table 720 is recorded on the hard disk 6.
[0048]
The job parameter field 717 holds various setting parameters of the job. In this embodiment, the setting contents of the print setting parameters (P1) to (P10) set in step (S601) are held.
[0049]
Also, the session control task (a) activates the image input job control task (b) after creating the job management table 710 for the image input job.
[0050]
In step (S604), a job management table 730 of the image output job 401 shown in FIG. 7 is created on the memory 124, and various information is held until the job is completed.
[0051]
The job ID field 731 is for generating and holding a unique job ID in the image input / output control apparatus. The job type field 732 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data recorded in the storage unit 5 is sequentially printed to the printer unit 2. It is recorded that the image output job 401 is out. The job priority field 733 holds a priority order regarding the processing order of the job. The job status field 734 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 735 holds the page number of the job. A page pointer field 736 is a pointer to a page management table 740 describing detailed information of each page managed by the job. The entity of the page management table 740 is the same as the page management table 720 recorded on the hard disk 6 with respect to the image input job 412.
[0052]
The job parameter field 737 holds various setting parameters of the job. In this embodiment, the number of pages, the number of copies, the paper size, the enlargement / reduction ratio, one side / both sides, and the page output order set in step (S601). In addition, parameters (P1) to (P10) relating to sort output, stapling presence / absence, and the like are held.
[0053]
The session control task (a) activates the image output job control task (c) after creating the job management table 730 for the image output job.
[0054]
In step (S605), processing of the generated image input job 412 is started. That is, the session control task (a) instructs the image input job control task (b) to start a job.
[0055]
In step (S606), processing of the generated image output job 401 is started. That is, the session control task (a) instructs the image output job control task (c) to start a job.
[0056]
In step (S607), a job end notification is received from the image input job control task (b), and an image input job end process is performed. That is, the job status 714 in the job management table 710 for the image input job is set to the end state.
[0057]
In step (S608), a job end notification is received from the image output job control task (c), and an image output job end process is performed. That is, the job status 734 in the job management table 730 for the image output job is set to the end state.
[0058]
In step (S609), session termination processing is performed. That is, the image data for each page in the job management tables 710 and 730 for the image input job and the image output job and the page management tables 720 and 740 are discarded to release resources, and the session management table 700 is also discarded to save resources. Open and end the series of processing.
[0059]
Next, the image input job control task (b) in the PDL print session 501 will be described.
[0060]
In step (S611), the image input job control task (b) receives a job start instruction from the session control task (a), and no other image input job is being executed. If the job can be accepted, the instructed job is started.
[0061]
In step (S612), one page of image data expanded by the RIP unit 8 is received. That is, image transfer from the RIP unit 8 to the data processing unit 121 through the interface 120 is performed.
[0062]
In step (S <b> 613), the image data transferred to the data processing unit 121 is temporarily stored in the page memory 125.
[0063]
In step (S614), a page output request is transmitted to the image output job control task (c). When the image output job management task (c) described later finishes reading the image data of the page from the page memory 125, the process proceeds to step (S615).
[0064]
In step (S <b> 615), the image data temporarily stored in the page memory 125 is recorded on the hard disk 6 of the storage unit 5. At this time, various image attribute information (resolution, number of pixels, etc.) is recorded in the page 1 field 721 in the page management table 720.
[0065]
In step (S616), it is determined whether or not all pages to be processed developed in the RIP unit 8 have been recorded on the hard disk 6 as image data. As a result of the determination here, if there is a page that has not been processed, the process returns to step (S612). If all the pages have been processed, the process proceeds to step (S617).
[0066]
In step (S617), an end notification of the image input job is transmitted to the session control task (a), and the image input job control task (b) is ended. As a result, the job status 714 of the job management table 710 for the image input job is in an end state.
[0067]
Next, the image output job control task (c) in the PDL print session will be described.
[0068]
In step (S621), when the image output job control task (c) receives an instruction to start this job from the session control task (a), the printer unit 2 is not used by another job, and a new print operation is performed. If so, start the indicated job.
[0069]
In step (S622), an output request for image data temporarily stored in the page memory 125 is received from the image input job control task (b).
[0070]
In step (S623), reading of image data from the page memory 125 is started.
[0071]
In step (S624), after acquiring the right to use the printer unit 2, the image data of the read page is transferred to the printer unit 2 through the interface 122, and the printer unit 2 performs image formation as described above and prints. Out.
[0072]
In step (S625), it is determined whether the page output request from the image input job control task (b) is the last page. As a result of the individual determination, if there is a page that has not been processed, the process returns to step (S622). If all pages have been processed, the process proceeds to step (S626). With the processing so far, the first one of the ten copies set in (P1) is completed. At this stage, if necessary, stapling processing may be performed on the print output.
[0073]
In step (S626), the image data for each page recorded in the hard disk 6 of the storage unit 5 in step (S615) of the image input job control task (b) is sequentially read out to the data processing unit 121 via the interface 120. Transfer images. The data processing unit 121 holds the transferred image data for one page on the page memory 125.
[0074]
In step (S 627), after acquiring the right to use the printer unit 2, the image data transferred to the data processing unit 121 and held in the page memory 125 is transferred to the printer unit 2 via the interface 122. To form an image and print it out.
[0075]
In step (S628), it is determined whether all the image data for each page recorded on the hard disk 6 has been printed out. As a result of the determination here, if there is a page that has not been processed, the process returns to step (S626). If all the pages have been processed, a stapling instruction has been issued, so the printer The sheet 2 is stapled in part 2, and the process proceeds to step (S629).
[0076]
In step (S629), it is determined whether or not all the print copies set in step (S601) have been printed out. If the number of unprocessed copies remains as a result of the determination here, the processing returns to step (S626), image data is read from the hard disk 6, stored in the page memory 125, and printed out by the printer unit 2. Execute. If all the copies have been processed, the process proceeds to step (S630).
[0077]
In step (S630), an end notification of the image output job is transmitted to the session control task (a), and the image output job control task (c) is ended. As a result, the job status 734 of the job management table 730 for the image output job is in an end state.
[0078]
In the above example, image information is transferred from the PC / WS 11 as PDL data in accordance with the print settings set on the PC / WS 11, and the PDL data is developed into image data and printed out by the image input / output control device. The PDL print session 501 in FIG. 5 has been described, but the present invention can be similarly applied to the copy session 502 in FIG. 5 in which image information read by the reader unit 1 is printed out.
[0079]
Hereinafter, as a second example of session control and job control of the image input / output control apparatus in the present embodiment when the hard disk 6 is operating normally, a copy session 502 of FIG. The image input job 411 for sequentially recording the image data read by the reader unit 1 constituting the storage unit 5 and the image output job 401 for sequentially printing the image data recorded in the storage unit 5 to the printer unit 2 The control procedure will be described.
[0080]
First, in step (S601), the user performs various settings for the copy operation on the operation unit 9 of the image input / output control unit 3.
[0081]
FIG. 8 shows the appearance of the operation unit 9. Here, 801 is a power key, 802 is a preheat key, 803 is a copy function selection key, 804 is a facsimile function selection key, 805 is a personal box function selection key, 806 is a start key, 807 is a stop key, 808 is a reset key, 809 Is an operation guide key, 810 is a user mode setting key, 811 is an interrupt copy key, 812 is a numeric keypad, 813 is a clear key, 814 is a facsimile one-touch key, 815 is a one-touch key switching cover, and 816 is a touch panel. Various settings for the copy operation include the number of copies, paper size, enlargement / reduction ratio, single-sided / double-sided, sort output, presence / absence of stapling, and the like, which are input by the user according to the setting items displayed on the numeric keypad 812 and touch panel 816. To do. Here, as an example, it is assumed that the following copy settings are made.
[0082]
Number of copies: 10 copies (C1)
Single-sided copy: Yes ... (C2)
Paper size: A4 (C3)
Enlargement / reduction ratio: 100% (C4)
Layout: No ... (C5)
Sort mode: Yes ... (C6)
Staple stop: Yes ... (C7)
[0083]
After the above copy setting, the user places the document on the reader unit 1 and presses the start key 806 to give a copy instruction. The operation unit 9 transfers the set copy setting parameters (C1) to (C7) to the CPU 123 of the core unit 10 and issues a processing request.
[0084]
In step (S602), the core unit 10 divides one unit of image processing function according to the processing request issued from the operation unit 9 into at least one image input job or image output job, and internally these image input jobs. Alternatively, a session constituted by an image output job is generated, managed by the session management table 700 of FIG. 7 described above, and various information is held until the session is completed.
[0085]
The session ID field 701 generates and holds a unique session ID in the image input / output control apparatus. The session type field 702 specifies the type of the generated session (PDL print session, copy session, facsimile transmission session, facsimile reception session, scan session, etc.). In this embodiment, it is recorded as a copy session. Keep it. The session priority field 703 holds a priority order related to the processing order of the session. The session status field 704 holds the execution state (executable state, execution state, suspension state, end state, error state, etc.) of the session according to the execution state. The link job number field 705 holds the number of image input jobs and image output jobs constituting the session. In this embodiment, the image input job 411 and the image output job 401 are used as the copy session 502 shown in FIG. Therefore, “2” is set as the number of components. A first job pointer field 706 is a pointer to the job management table 710 of the image input job 411. A second job pointer field 707 is a pointer to the job management table 730 of the image output job 401.
[0086]
In step (S603), a job management table 710 of the image input job 411 is created on the memory 124, and various information is held until the job is completed.
[0087]
A job ID field 711 generates and holds a unique job ID in the image input / output control apparatus. The job type field 712 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data read by the reader unit 1 is sequentially recorded in the storage unit 5. The image input job 411 to be recorded is recorded. The job priority field 713 holds priority regarding the processing order of the job. The job status field 714 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 715 holds the page number of the job. A page pointer field 716 is a pointer to a page management table 720 describing detailed information of each page managed by the job. The page management table 720 is recorded on the hard disk 6.
[0088]
The job parameter field 717 holds various setting parameters of the job. In this embodiment, the setting contents of the copy setting parameters (C1) to (C7) set in step (S601) are held.
[0089]
The session control task (a) activates the image input job control task (b) after creating the job management table 710 for the image input job.
[0090]
In step (S604), a job management table 730 of the image output job 401 is created on the memory 124, and various information is held until the job is completed.
[0091]
The job ID field 731 is for generating and holding a unique job ID in the image input / output control apparatus. The job type field 732 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data recorded in the storage unit 5 is sequentially printed to the printer unit 2. It is recorded that the image output job 401 is out. The job priority field 733 holds a priority order regarding the processing order of the job. The job status field 734 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 735 holds the page number of the job. A page pointer field 736 is a pointer to a page management table 740 describing detailed information of each page managed by the job. The actual state of the page management table 740 is the same as the page management table 720 recorded on the hard disk 6 with respect to the image input job 411.
[0092]
The job parameter field 737 holds various setting parameters of the job. In this embodiment, the number of copies, the paper size, the enlargement / reduction ratio, one side / both sides, sort output, stapling, set in step (S601). The parameters (C1) to (C7) relating to the presence / absence or the like are held.
[0093]
The session control task (a) activates the image output job control task (c) after creating the job management table 730 for the image output job.
[0094]
In step (S605), processing of the generated image input job 411 is started. That is, the session control task (a) instructs the image input job control task (b) to start a job.
[0095]
In step (S606), processing of the generated image output job 401 is started. That is, the session control task (a) instructs the image output job control task (c) to start a job.
[0096]
In step (S607), a job end notification is received from the image input job control task (b), and an image input job end process is performed. That is, the job status 714 in the job management table 710 for the image input job is set to the end state.
[0097]
In step (S608), a job end notification is received from the image output job control task (c), and an image output job end process is performed. That is, the job status 734 in the job management table 730 for the image output job is set to the end state.
[0098]
In step (S609), session termination processing is performed. That is, the image management job 710 and 730 of the image input job and the image output job and the image data for each page of the page management table 720 and 740 are discarded to release resources, and the session management table 700 is also discarded to save resources. Open and end the series of processing.
[0099]
The image input job control task (b) in the copy session 502 will be described.
[0100]
In step (S611), the image input job control task (b) receives a job start instruction from the session control task (a), the reader unit 1 is not used by another image input job, and a new image is obtained. If the input job can be accepted, the instructed job is started.
[0101]
In step (S612), one page of image data read by the reader unit 1 is received. That is, image transfer from the reader unit 1 to the data processing unit 121 via the interface 120 is performed.
[0102]
In step (S <b> 613), the image data transferred to the data processing unit 121 is temporarily stored in the page memory 125.
[0103]
In step (S614), a page output request is transmitted to the image output job control task (c). When the image output job control task (c) finishes reading the image data of the page from the page memory 125, the process proceeds to step (S615).
[0104]
In step (S <b> 615), the image data temporarily stored in the page memory 125 is recorded on the hard disk 6 of the storage unit 5. At this time, various image attribute information (resolution, number of pixels, etc.) is recorded in the page 1 field 721 in the page management table 720.
[0105]
In step (S616), it is determined whether all pages to be processed read by the reader unit 1 have been recorded on the hard disk 6 as image data. As a result of the determination here, if there is a page that has not been processed, the process returns to step (S612). If all the pages have been processed, the process proceeds to step (S617).
[0106]
In step (S617), an end notification of the image input job is transmitted to the session control task (a), and the image input job control task (b) is ended. As a result, the job status 714 of the job management table 710 for the image input job is in an end state.
[0107]
The processing after the step (S621) of the image output job control task (c) in the copy session 502 is exactly the same as in the case of the PDL print session 501 described above, and will be omitted.
[0108]
In the above example, the forms related to the PDL print session 501 and the copy session 502 have been described. However, as shown in FIG. 5 as an extended example of a session, an arbitrary image input job and an arbitrary image output job can be combined. Even if this session is configured, the control procedure shown in this embodiment can be similarly applied to these sessions.
[0109]
Next, the control operation by the CPU 123 of the core unit 10 when the hard disk 6 has failed will be described.
[0110]
FIG. 11 is a flowchart showing an operation procedure for investigating whether the hard disk 6 is connected by the CPU 123 of the core unit 10 and whether the hard disk 6 is faulty.
[0111]
First, in step (S1101), a WRITE command for writing predetermined data (for example, 55H) to a specific sector is issued to the hard disk 6.
[0112]
In step (S1102), a predetermined time is waited. After the predetermined time has elapsed, in step (S1103), it is determined whether or not there is a response to the WRITE command from the hard disk 6. If there is a response, the process proceeds to step (S1104), and if not, the process proceeds to step (S1110).
[0113]
In step (S1104), a READ command for reading data in the same sector as the sector in which predetermined data is written in step (S1101) is issued.
[0114]
In step (S1105), a predetermined time is waited. After the predetermined time has elapsed, in step (S1106), it is determined whether or not there is a response to the READ command from the hard disk 6. If there is a response, the process proceeds to step (S1107), and if not, the process proceeds to step (S1110).
[0115]
In step (S1107), the data written in step (S1101) is collated with the data read in step (S1104). In step (S1108), if the result of collation is the same, the process proceeds to step (S1109), and if not, the process proceeds to step (S1110).
[0116]
In step (S1109), the CPU 123 of the core unit 10 is notified that the hard disk 6 is operating normally. In step (S1110), the CPU 123 of the core unit 10 is notified that the hard disk 6 is abnormal.
[0117]
Next, a description will be given of a control operation performed when the hard disk 6 has failed, which is executed by the CPU 123 of the core unit 10 of the image input / output control apparatus according to the present embodiment.
[0118]
When the hard disk 6 is out of order, the storage unit shown in FIGS. 4 and 5 is replaced with the page memory 125 of the data processing unit 121 for processing.
[0119]
FIG. 9 shows an image input job and page memory for sequentially recording image data in the page memory 125 as a session control task and job control task executed by the CPU 123 of the core unit 10 of the image input / output control apparatus according to this embodiment. 12 is a flowchart illustrating a session control procedure including an image output job for sequentially printing out image data recorded in 125 to the printer unit 2. Note that (S901) to (S930) in the figure indicate steps, and the session control task (a), the image input job task (b), and the image output job task (c) each perform a multitask operation. is there.
[0120]
Using FIG. 9, as an example of session control and job control when the hard disk 6 of the image input / output control apparatus according to the present embodiment is out of order, the PDL print session 501 and the RIP unit 8 constituting the session control are developed. An image input job 412 that sequentially records the image data in the page memory 125 of the data processing unit 121 and an image output job 401 that sequentially prints out the image data recorded in the page memory 125 of the data processing unit 121 to the printer unit 2. A control procedure will be described.
[0121]
As described above, the CPU 123 of the core unit 10 detects a failure of the hard disk 6 of the storage unit 5, and the result is held in the memory 124.
[0122]
First, the user performs print settings on the PC / WS 11. The print setting contents include the number of copies, the document size, the paper size, the enlargement / reduction ratio, single-sided / double-sided, layout, page output order, sort mode, presence or absence of stapling. Here, as an example, it is assumed that the following print settings are made.
[0123]
Number of pages: 20 pages ... (P11)
Number of copies: 10 copies (P12)
Single-sided printing: Yes ... (P13)
Original size: A4 (P14)
Paper size: A4 (P15)
Enlargement / reduction ratio: 100% (P16)
Layout: Bookbinding (P17)
Page output order: ascending order (P18)
Sort mode: Yes ... (P19)
Staple stop: Yes ... (P20)
[0124]
After the above print setting, the user gives the time for printing on the PC / WS 11. At the same time, the driver software installed on the PC / WS 11 converts the document data to be printed into so-called PDL data, and is connected to the PC / WS 11 together with the set print setting parameters (P11) to (P20). The image data is transferred to the computer interface unit 7 of the image input / output control apparatus via the computer interface.
[0125]
PDL data representing an image input via the computer interface unit 7 is transferred to the data processing unit 121, and then transferred to the RIP unit 8. The RIP unit 8 sequentially develops the transferred PDL data into image data ( Rasterize). When the RIP unit 8 starts receiving PDL data, a processing request is issued from the RIP unit 8 to the core unit 10. In step (S <b> 901), the CPU 123 accepts the issued processing request in the core unit 10. Here, the print setting parameters (P11) to (P20) set by the user are also transferred to the CPU 123.
[0126]
Next, in step (S940), it is determined whether or not a session can be generated internally from the processing request issued from the RIP unit 8. That is, when another session exists at this time, the RIP unit 8 is notified that the session cannot be generated, and a processing request is issued again from the RIP unit 8 after a predetermined time has elapsed. To do. If the PDL print session 501 can be generated, the process proceeds to step (S902).
[0127]
In step (S902), the core unit 10 divides one unit of image processing function according to the processing request issued from the RIP unit 8 into at least one image input job or image output job, and internally inputs these image inputs. Generate and manage a session composed of jobs or image output jobs. That is, as described above, the session management table 700 shown in FIG. 7 is created on the memory 124, and various information is held until the session ends.
[0128]
A session ID field 701 generates and holds a unique session ID in the image input / output control apparatus. The session type field 702 specifies the type of the generated session (PDL print session, copy session, facsimile transmission session, facsimile reception session, scan session, etc.). In this embodiment, the session type field 702 indicates that this is a PDL print session. Record it. The session priority field 703 holds a priority order regarding the processing order of the session. The session status field 704 holds the execution state (executable state, execution state, suspension state, end state, error state, etc.) of the session according to the execution state. The link job number field 705 holds the number of image input jobs and image output jobs constituting the session. In this embodiment, the link job number field 705 includes an image input job 412 constituting the PDL print session 501 as shown in FIG. Since the image output job 401 includes two jobs, “2” is set as the number of components. A first job pointer field 706 is a pointer to the job management table 710 of the image input job 412. A second job pointer field 707 is a pointer to the job management table 730 of the image output job 401. This job pointer field is prepared for the number of jobs constituting the session. Job management tables are also created for the number of jobs constituting the session.
[0129]
In step (S903), a job management table 710 of the image input job 412 shown in FIG. 7 is created on the memory 124, and various information is held until the job is completed.
[0130]
A job ID field 711 generates and holds a unique job ID in the image input / output control apparatus. The job type field 712 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data developed by the RIP unit 8 is sequentially stored in the data processing unit 121. The fact that the image input job 412 is to be recorded in the page memory 125 is recorded. The job priority field 713 holds priority regarding the processing order of the job. The job status field 714 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 715 holds the page number of the job. A page pointer field 716 is a pointer to a page management table 720 describing detailed information of each page managed by the job. The page management table 720 is recorded on the hard disk 6.
[0131]
The job parameter field 717 holds various setting parameters of the job. In this embodiment, the setting contents of the print setting parameters (P11) to (P20) set in step (S901) are held.
[0132]
Here, in the configuration in which the hard disk 6 is out of order and the page memory 125 is used instead, all the pages of the image data expanded by the RIP unit 8, that is, 20 pages specified in (P11). All image data cannot be temporarily stored. Therefore, there are limitations on operations such as outputting a plurality of copies by cyclic sorting, or performing print output after waiting for completion of recording of the last page, such as a bookbinding layout. Therefore, the setting contents of the print setting parameters (P11) to (P20) received in step (S901) are changed to (P111) to (P120), respectively, as shown below.
[0133]
Number of pages: 20 pages ... (P111)
Number of copies: 1 copy (P112)
Single-sided printing: Yes ... (P113)
Original size: A4 (P114)
Paper size: A4 (P115)
Enlargement / reduction ratio: 100% (P116)
Layout: No ... (P117)
Page output order: ascending order (P118)
Sort mode: Yes ... (P119)
Staple stop: Yes ... (P120)
[0134]
That is, the parameter (P112) changes the number of copies: 10 to 1 copy, the parameter (P117) changes the layout: bookbinding to no bookbinding, and the parameter (P119) changes to sort mode: not sort. To do. Then, the print setting parameters (P111) to (P120) thus changed are held in the job parameter field 717.
[0135]
Next, the session control task (a) activates the image input job control task (b) after creating the job management table 710 of the image input job.
[0136]
In step (S904), a job management table 730 for the image output job 401 is created on the memory 124, and various information is held until the job is completed.
[0137]
The job ID field 731 is for generating and holding a unique job ID in the image input / output control apparatus. The job type field 732 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data recorded in the page memory 125 of the data processing unit 121 is sequentially stored. The fact that the image output job 401 is to be printed out to the printer unit 2 is recorded. The job priority field 733 holds a priority order regarding the processing order of the job. The job status field 734 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 735 holds the page number of the job. A page pointer field 736 is a pointer to a page management table 740 describing detailed information of each page managed by the job. The entity of the page management table 740 is the same as the page management table 720 recorded on the hard disk 6 with respect to the image input job 412.
[0138]
The job parameter field 737 holds various setting parameters of the job. In this embodiment, the number of pages, the number of copies, and the paper size set in step (S901) and changed according to the abnormality of the hard disk thereafter. The parameters (P111) to (P120) relating to the enlargement / reduction ratio, single-sided / double-sided, page output order, sort output, presence / absence of stapling are held.
[0139]
The session control task (a) activates the image output job control task (c) after creating the job management table 730 for the image output job.
[0140]
In step (S905), processing of the generated image input job 412 is started. That is, the session control task (a) instructs the image input job control task (b) to start a job.
[0141]
In step (S906), processing of the generated image output job 401 is started. That is, the session control task (a) instructs the image output job control task (c) to start a job.
[0142]
In step (S907), a job end notification is received from the image input job control task (b), and an image input job end process is performed. That is, the job status 714 in the job management table 710 for the image input job is set to the end state.
[0143]
In step (S908), a job end notification is received from the image output job control task (c), and an image output job end process is performed. That is, the job status 734 in the job management table 730 for the image output job is set to the end state.
[0144]
In step (S909), session termination processing is performed. That is, the image data for each page in the job management tables 710 and 730 for the image input job and the image output job and the page management tables 720 and 740 are discarded to release resources, and the session management table 700 is also discarded to save resources. Open and end the series of processing.
[0145]
Next, the image input job control task (b) in the PDL print session 501 will be described.
[0146]
In step (S911), the image input job control task (b) receives a job start instruction from the session control task (a), and no other image input job has been executed. If the job can be accepted, the instructed job is started.
[0147]
In step (S912), one page of image data developed by the RIP unit 8 is received. That is, image transfer from the RIP unit 8 to the data processing unit 121 through the interface 120 is performed.
[0148]
In step (S <b> 913), the image data transferred to the data processing unit 121 is temporarily stored in the page memory 125.
[0149]
In step (S914), a page output request is transmitted to the image output job control task (c). When the image output job management task (c) to be described later finishes reading the image data of the page from the page memory 125, the process proceeds to step (S916).
[0150]
In step (S916), it is determined whether or not all the pages to be processed developed in the RIP unit 8 are recorded in the page memory 125 of the data processing unit 121 as image data. As a result of the determination here, if there is a page that has not been processed, the process returns to step (S912). If all the pages have been processed, the process proceeds to step (S917).
[0151]
In step (S917), an end notification of the image input job is transmitted to the session control task (a), and the image input job control task (b) is ended. As a result, the job status 714 of the job management table 710 for the image input job is in an end state.
[0152]
Next, the image output job control task (c) in the PDL print session will be described.
[0153]
In step (S921), when the image output job control task (c) receives an instruction to start this job from the session control task (a), the printer unit 2 is not used by another job, and a new print operation is performed. If so, start the indicated job.
[0154]
In step (S922), an output request for image data temporarily stored in the page memory 125 is received from the image input job control task (b).
[0155]
In step (S923), reading of image data from the page memory 125 is started.
[0156]
In step (S924), after acquiring the right to use the printer unit 2, the image data of the read page is transferred to the printer unit 2 via the interface 122, and the printer unit 2 forms the image as described above and prints. Out.
[0157]
In step (S925), it is determined whether the page output request from the image input job control task (b) is the last page. As a result of the individual determination, if there is a page that has not been processed, the process returns to step (S922). If all pages have been processed, stapling is performed, and step (S930) is performed. ) With the processing so far, the printout of the number of print copies 1 reset as the parameter (P112) is completed.
[0158]
In step (S930), an image output job completion notification is transmitted to the session control task (a), and the image output job control task (c) is terminated.
[0159]
In the above example, a portable device that transfers image information as PDL data from the PC / WS 11 in accordance with the print settings set on the PC / WS 11, develops the PDL data into image data, and prints out the image data in the image input / output control device As described above, the present invention can be similarly applied to a case where image information read by the reader unit 1 is printed out.
[0160]
Next, referring to FIG. 9, as a second example of session control and job control when the hard disk 6 of the image input / output control apparatus according to the present embodiment is out of order, a copy session 502 and its configuration are configured. The image input job 411 that sequentially records the image data read by the reader unit 1 in the page memory 125 of the data processing unit 121 and the image data recorded in the page memory 125 of the data processing unit 121 are sequentially printed out to the printer unit 2. A control procedure of the image output job 401 will be described.
[0161]
That is, when the hard disk 6 is out of order, the storage unit shown in FIGS. 4 and 5 is replaced with the page memory 125 of the data processing unit 121 in the same manner as in the case of the PDL print session described above. .
[0162]
First, in step (S901), the user performs copy setting as described above on the operation unit 9 shown in FIG. The copy setting contents are usually the number of copies, paper size, enlargement / reduction ratio, single-sided / double-sided, sort output, presence / absence of stapling, and the like, and are input according to setting items displayed on the numeric keypad 812 and touch panel 816.
[0163]
On the other hand, when the hard disk 6 is broken, a message such as “Hard disk is broken” is displayed on the touch panel 816 to control settings that can be set when the hard disk is broken.
[0164]
FIG. 10 is a diagram illustrating an example of the display content of the touch panel 816. Reference numeral 1000 is a touch panel, 1001 is a hard disk failure message, 1002 is the number of copies set with the numeric keypad 812, 1003 is a sort mode setting key, and 1004 is a duplex mode setting key.
[0165]
The contents that can be set at the time of a hard disk failure are the number of copies: 1 copy, sort mode: not sorted, layout: not bound, etc. Here, as an example, it is assumed that the following copy settings are made.
[0166]
Number of copies: 1 copy (C11)
Copy one side ... (C12)
Paper size: A4 (C13)
Enlargement / reduction ratio: 100% (C14)
Layout: No ... (C15)
Sort mode: No ... (C16)
Staple stop: Yes ... (C17)
[0167]
If another session exists during the copy setting or after the copy setting, a display such as “Mode can be set” is displayed on the touch panel 816 and reception of the start key 806 is prohibited. If there is no other session, a message such as “Can be copied” is displayed on the touch panel 816, and acceptance of the start key 806 is permitted.
[0168]
Next, the user places a document on the reader unit 1 and presses the start key 806 to give a copy instruction. The operation unit 9 transfers the set copy setting parameters (C11) to (C17) to the CPU 123 of the core unit 10 and issues a processing request.
[0169]
Further, in step (S940), it may be configured to determine whether or not a session can be generated internally from the processing request issued from the operation unit 9. That is, at this point, if there is no other session, the process proceeds to step (S902), and if it exists, the process is terminated.
[0170]
In step (S902), the core unit 10 divides one unit of image processing function according to the processing request issued from the operation unit 9 into at least one image input job or image output job, and internally these image input jobs. Alternatively, a session constituted by an image output job is generated, managed by the session management table 700 of FIG. 7 described above, and various information is held until the session is completed.
[0171]
The session ID field 701 generates and holds a unique session ID in the image input / output control apparatus. The session type field 702 specifies the type of the generated session (PDL print session, copy session, facsimile transmission session, facsimile reception session, scan session, etc.). In this embodiment, it is recorded as a copy session. Keep it. The session priority field 703 holds a priority order related to the processing order of the session. The session status field 704 holds the execution state (executable state, execution state, suspension state, end state, error state, etc.) of the session according to the execution state. The link job number field 705 holds the number of image input jobs and image output jobs constituting the session. In this embodiment, the image input job 411 and the image output job 401 are used as the copy session 502 shown in FIG. Therefore, “2” is set as the number of components. A first job pointer field 706 is a pointer to the job management table 710 of the image input job 411. A second job pointer field 707 is a pointer to the job management table 730 of the image output job 401.
[0172]
In step (S903), a job management table 710 for the image input job 411 is created on the memory 124, and various information is held until the job is completed.
[0173]
A job ID field 711 generates and holds a unique job ID in the image input / output control apparatus. The job type field 712 specifies the type of job generated (the above-described image input job and image output job). In this embodiment, the image data read by the reader unit 1 is sequentially stored in the data processing unit 121. The fact that the image input job 411 is to be recorded in the page memory 125 is recorded. The job priority field 713 holds priority regarding the processing order of the job. The job status field 714 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 715 holds the page number of the job. A page pointer field 716 is a pointer to a page management table 720 describing detailed information of each page managed by the job. The page management table 720 is recorded on the hard disk 6.
[0174]
The job parameter field 717 holds various setting parameters of the job. In this embodiment, the setting contents of the copy setting parameters (C11) to (C17) set in step (S901) are held.
[0175]
The session control task (a) activates the image input job control task (b) after creating the job management table 710 for the image input job.
[0176]
In step (S904), a job management table 730 for the image output job 401 is created on the memory 124, and various information is held until the job is completed.
[0177]
The job ID field 731 is for generating and holding a unique job ID in the image input / output control apparatus. The job type field 732 specifies the type of the generated job (the above-described image input job and image output job). In this embodiment, the image data recorded in the page memory 125 of the data processing unit 121 is sequentially stored. The fact that the image output job 401 is to be printed out to the printer unit 2 is recorded. The job priority field 733 holds a priority order regarding the processing order of the job. The job status field 734 holds the execution state (executable state, execution state, interruption state, end state, error state, etc.) of the job according to the execution state. The page number field 735 holds the page number of the job. A page pointer field 736 is a pointer to a page management table 740 describing detailed information of each page managed by the job. The actual state of the page management table 740 is the same as the page management table 720 recorded on the hard disk 6 with respect to the image input job 411.
[0178]
The job parameter field 737 holds various setting parameters of the job. In this embodiment, the number of copies, the paper size, the enlargement / reduction ratio, one side / both sides, sort output, stapling, set in step (S901). The parameters (C11) to (C17) relating to the presence / absence or the like are held.
[0179]
The session control task (a) activates the image output job control task (c) after creating the job management table 730 for the image output job.
[0180]
In step (S905), processing of the generated image input job 411 is started. That is, the session control task (a) instructs the image input job control task (b) to start a job.
[0181]
In step (S906), processing of the generated image output job 401 is started. That is, the session control task (a) instructs the image output job control task (c) to start a job.
[0182]
In step (S907), a job end notification is received from the image input job control task (b), and an image input job end process is performed. That is, the job status 714 in the job management table 710 for the image input job is set to the end state.
[0183]
In step (S908), a job end notification is received from the image output job control task (c), and the end processing of the image output job is performed. That is, the job status 734 in the job management table 730 for the image output job is set to the end state.
[0184]
In step (S909), session termination processing is performed. That is, the image management job 710 and 730 of the image input job and the image output job and the image data for each page of the page management table 720 and 740 are discarded to release resources, and the session management table 700 is also discarded to save resources. Open and end the series of processing.
[0185]
The image input job control task (b) in the copy session 502 will be described.
[0186]
In step (S911), the image input job control task (b) receives a job start instruction from the session control task (a), the reader unit 1 is not used by another image input job, and a new image is obtained. If the input job can be accepted, the instructed job is started.
[0187]
In step (S912), one page of image data read by the reader unit 1 is received. That is, image transfer from the reader unit 1 to the data processing unit 121 via the interface 120 is performed.
[0188]
In step (S <b> 913), the image data transferred to the data processing unit 121 is temporarily stored in the page memory 125.
[0189]
In step (S914), a page output request is transmitted to the image output job control task (c). When the image output job control task (c) finishes reading the image data of the page from the page memory 125, the process proceeds to step (S916).
[0190]
In step (S916), it is determined whether all pages to be processed read by the reader unit 1 have been recorded as image data in the page memory 125 of the data processing unit 121. As a result of the determination here, if there is a page that has not been processed, the process returns to step (S912). If all the pages have been processed, the process proceeds to step (S917).
[0191]
In step (S917), an end notification of the image input job is transmitted to the session control task (a), and the image input job control task (b) is ended. As a result, the job status 714 of the job management table 710 for the image input job is in an end state.
[0192]
The processing after the step (S921) of the image output job control task (c) in the copy session 502 is exactly the same as in the case of the PDL print session 501 described above, and will be omitted.
[0193]
In the above example, the forms related to the PDL print session 501 and the copy session 502 have been described. However, as shown in FIG. 5 as an extended example of a session, an arbitrary image input job and an arbitrary image output job can be combined. Even if this session is configured, the control procedure shown in this embodiment can be similarly applied to these sessions.
[0194]
As mentioned above, although this invention was demonstrated using preferable Example structure, this invention is not limited to this, It cannot be overemphasized that various deformation | transformation and a change are possible.
[0195]
【The invention's effect】
As described above, according to the present invention, input means for inputting image data and , First storage means capable of storing image data, and the first storage Than storage means The second that can store a lot of image data Storage means; Printing that executes image data printing Means and said Second Detection means for detecting an abnormality of the storage means And an image input / output system comprising: Abnormal memory means Even if , printing Without disabling processing operation, it is also inconvenient printing Efficiently without executing processing printing It becomes possible to process.
[Brief description of the drawings]
FIG. 1 is a block diagram of an image input / output control apparatus according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of a reader unit and a printer unit.
FIG. 3 is a block diagram of a core unit.
FIG. 4 is a block diagram of an image input job and an image output job.
FIG. 5 is a diagram illustrating a configuration example of a session.
FIG. 6 is a flowchart illustrating an example of image input / output control.
FIG. 7 is a diagram showing the structure of session management, job management, and page management table according to the embodiment.
FIG. 8 is a diagram illustrating an operation unit.
FIG. 9 is a flowchart illustrating an example of image input / output control.
FIG. 10 is a diagram illustrating a display example.
FIG. 11 is a flowchart showing an abnormality detection operation.
[Explanation of symbols]
1 Reader section
2 Printer section
3 Image input / output controller
4 Facsimile Department
5 Storage department
7 Computer interface
8 RIP Department
9 Operation part
10 Core part

Claims (16)

Input means for inputting image data, first storage means capable of storing image data, second storage means capable of storing more image data than the first storage means, and print processing of image data and a print unit that executes, in the image output system having a detecting means for detecting an abnormality of the second storage means,
In parallel with the execution of the image input job for storing all of the plurality of pages of image data input by the input unit in the second storage unit, the printing process of the plurality of pages of image data in the second storage unit is performed. allowing executing an image output job to perform the set processing printing of copies said printing means in accordance with the condition through the operation unit by the user, the control means, possess,
The control means includes
In parallel with the execution of the image input job for storing all of the plurality of pages of image data input by the input means in the second storage means when no abnormality has occurred in the second storage means. , that can execute image output job to perform the printing of copies said printing means in accordance with the print conditions of the print processing of image data is set through the operation unit by a user of a plurality of pages of said second storage means, whereas ,
When an abnormality occurs in the second storage unit, an image input job for storing all of the plurality of pages of image data input by the input unit in the second storage unit and the second storage unit The operation of executing the print processing of the image data of a plurality of pages in parallel with the image output job to be performed by the printing unit for the number of copies according to the processing condition set by the user via the operation unit is prohibited , and the first An image input / output system characterized in that image data printing processing using the storage means can be executed by the printing means under printing conditions that can be executed even when the second storage means is abnormal . The control means changes the printing condition set by the user via the operation means to a printing condition that can be executed even when the second storage means is abnormal when the abnormality of the second storage means occurs. The image processing system according to claim 1 , wherein the printing unit can execute a printing process of image data using the first storage unit according to the changed printing condition . When there is no abnormality in the second storage unit, setting of printing conditions related to processing that can be executed when the second storage unit is operating normally can be executed by the user via the operation unit , on the other hand, if the abnormality in the second storage means is generated, the setting of printing conditions the second storage unit is involved in non-executable process at the abnormal time, to run by the user via the operation means The image processing system according to claim 1 , wherein the image processing system is prohibited. The setting of the printing condition related to the processing that cannot be executed when the second storage means is abnormal includes at least the setting related to the bookbinding layout, and the printing is performed after the data of the last page of the plurality of pages of image data is stored in the memory. The image processing system according to claim 3, wherein the setting is performed . When there is no abnormality in the second storage means, settings relating to the number of copies, settings relating to single-sided printing or double-sided printing, settings relating to paper size, settings relating to magnification, and bookbinding layout A plurality of settings set by the user via the operation means, including at least one of a setting related to whether the page output order is set in ascending order, a setting related to the sort mode, and a setting related to stapling The printing process according to the printing conditions is executed by the printing unit,
As a printing condition that can be executed even when the second storage unit is abnormal when the second storage unit is abnormal, a printing condition that does not execute the bookbinding layout process and does not execute printing of a plurality of copies. 5. The image processing system according to claim 1, wherein the printing unit executes a printing process of image data using the first storage unit . 6. Wherein when the abnormality of the second storage unit has not occurred, and stores the image data input from the previous SL input means to the second storing means via said first storage means The image data stored in the second storage means is output to the printing means via the first storage means. On the other hand, when an abnormality occurs in the second storage means , the input means storing the input image data into the first storage unit, without passing through the second storing means, as to output the image data stored in said first memory means to the printing means, image 6. The image processing system according to claim 1 , wherein execution of the input job and the image output job is controlled independently. When there is no abnormality in the second storage means, a print process of image data from the host computer input via the input means is set by the user via the operation means of the host computer. The image processing system according to claim 1, wherein the image processing system is configured to be executable by the printing unit under different printing conditions . When the abnormality of the second storage means has not occurred, the image processing system performs printing processing of image data input from the input means and from the document reading means included in the image processing system. The image processing system according to claim 1, wherein the image processing system is configured to be executable by the printing unit under a printing condition set by a user via an operation unit . Input means for inputting image data, first storage means capable of storing image data, second storage means capable of storing more image data than the first storage means, and print processing of image data An image input / output method in an image input / output system , comprising: a printing unit that executes a detection unit; and a detection unit that detects an abnormality of the second storage unit.
In parallel with the execution of the image input job for storing all of the plurality of pages of image data input by the input unit in the second storage unit, the printing process of the plurality of pages of image data in the second storage unit is performed. An image output job to be performed by the printing unit for the number of copies according to the processing conditions set by the user via the operation unit can be executed,
In parallel with the execution of the image input job for storing all of the plurality of pages of image data input by the input means in the second storage means when no abnormality has occurred in the second storage means. , that can execute image output job to perform the printing of copies said printing means in accordance with the print conditions of the print processing of image data is set through the operation unit by a user of a plurality of pages of said second storage means, whereas ,
When an abnormality occurs in the second storage unit, an image input job for storing all of the plurality of pages of image data input by the input unit in the second storage unit and the second storage unit The operation of executing the print processing of the image data of a plurality of pages in parallel with the image output job to be performed by the printing unit for the number of copies according to the processing condition set by the user via the operation unit is prohibited , and the first An image input / output method characterized in that printing processing of image data using the storage means can be executed by the printing means under printing conditions that can be executed even when the second storage means is abnormal . When an abnormality occurs in the second storage unit, the print condition set by the user via the operation unit is changed to a print condition that can be executed even when the second storage unit is abnormal , and the changed printing is performed. The image input / output method according to claim 9 , wherein the printing unit can execute a printing process of image data using the first storage unit according to a condition . When there is no abnormality in the second storage unit, setting of printing conditions related to processing that can be executed when the second storage unit is operating normally can be executed by the user via the operation unit , On the other hand, when an abnormality occurs in the second storage unit , the user sets , via the operation unit , a print condition setting relating to processing that cannot be executed when the second storage unit is abnormal. 11. The image input / output method according to claim 9, wherein the image input / output method is prohibited. The setting of the printing condition related to the processing that cannot be executed when the second storage unit is abnormal includes at least the setting related to the bookbinding layout, and printing is performed after the data of the last page of the image data of a plurality of pages is stored in the memory. The image input / output method according to claim 11, wherein the setting is performed . When there is no abnormality in the second storage means, settings relating to the number of copies, settings relating to single-sided printing or double-sided printing, settings relating to paper size, settings relating to magnification, and bookbinding layout A plurality of settings set by the user via the operation means, including at least one of a setting related to whether the page output order is set in ascending order, a setting related to the sort mode, and a setting related to stapling Print processing according to the printing conditions is executed by the printing means,
As a printing condition that can be executed even when the second storage unit is abnormal when the second storage unit is abnormal, a printing condition that does not execute the bookbinding layout process and does not execute printing of a plurality of copies. The image input / output method according to claim 9, wherein the printing unit executes image data printing processing using the first storage unit . If the abnormality of the second storage unit has not occurred, the image data input from the previous SL input means stored in said second storage means through said first storage means, the second The image data stored in the storage means is output to the printing means via the first storage means. On the other hand, when an abnormality occurs in the second storage means, the image data input from the input means was stored in the first storage unit, wherein without passing through the second storing means, as to output the image data stored in said first memory means to the printing means, image input jobs and image output The image input / output method according to claim 9 , wherein execution of the job is controlled independently. When there is no abnormality in the second storage means, a print processing of image data from the host computer input via the input means is set by the user via the operation means of the host computer. 15. The image input / output method according to claim 9, wherein the image input / output method can be executed by the printing unit under a printing condition . When the abnormality of the second storage means has not occurred, the image processing system performs printing processing of image data input from the input means and from the document reading means included in the image processing system. 8. The image input / output method according to claim 1, wherein the image input / output method can be executed by the printing unit under a printing condition set by a user via an operating unit .

Images