JP6456041B2 - Control device, control method and program for control device - Google Patents

Description

  The present invention relates to a control device, a control method for the control device, and a program.

In recent years, due to the expansion of the production print market and the like, there is an increasing opportunity to generate a large amount of printed matter using an image forming apparatus such as a digital copying machine or a digital multifunction peripheral.

In a printing apparatus using a digital copying machine or a digital multi-function peripheral, a printed material may be generated using cut paper (a medium that has been cut into a predetermined size such as A4 or LTR). In this case, every time the operator generates a printed material, the printed material is generated by setting a cut sheet necessary for printing on the paper feed tray and starting printing. Usually, cut sheets are handled in bundles of thousands. For this reason, after the printed matter is generated, the cut paper is rarely used up, and a large amount of cut paper remains.

In production printing, it is important to print a large amount of printed matter with the same image quality. Therefore, the remaining cut paper is generally collected together with the generated printed matter and discarded. In addition, since the printing apparatus is expensive, there is a case where a set of the printing apparatus is rented to generate a large amount of printed matter. In that case, it is common for the rented side to bring print data and cut sheets, print them with a printing device, and collect the generated printed matter and the remaining cut sheets. That is, when a large amount of printed material is generated in this way, the medium (cut paper) used for printing is often collected together with the generated printed material.

JP 2011-194665 A JP 2009-203067 A

The method of Patent Document 1 relates to the collection of generated printed matter. Using the method of Patent Document 1, processing information regarding forgetting to remove printed matter can be added to a print job. Specifically, it is possible to perform post-processing related to the collection of printed matter, such as applying a shredder when the printed matter is not collected within 5 minutes.

In the method of Patent Document 2, when a curl on a medium is detected, a paper feed tray that feeds the corresponding medium is notified. According to the method of Patent Document 2, there is an advantage that an operator does not need to specify a paper feed tray that feeds a medium on which curling has occurred.

Although the method of Patent Document 1 has an advantage that settings relating to collection of printed matter can be performed, it does not execute that media used to generate printed matter is collected. Further, the method of Patent Document 2 has an advantage of specifying a paper feed tray on which a specified medium is fed by using curl detection or the like, but at the same time as collecting printed materials, simultaneously using the media used for printing. It doesn't do things like recovery.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to record a recording medium fed to the recording medium stored in the stacker when the recording medium on which the image is formed is collected. It is to provide a mechanism that can simultaneously collect recording media remaining in the medium storage means.

  The present invention stores a plurality of recording medium storing means for storing a recording medium, an image forming means for forming an image on a recording medium fed from the recording medium storing means, and a recording medium on which the image is formed. A control device for controlling the stacker, wherein a receiving unit that receives an instruction to take out a recording medium stored in the stacker, and the receiving unit receives an instruction to take out the recording medium stored in the stacker, A control means for specifying a recording medium storage means for storing a recording medium corresponding to the recording medium stored in the stacker from the plurality of recording medium storage means, and for causing the specified recording medium storage means to be in an open state; It is characterized by having.

  According to the present invention, when a user collects an image-formed recording medium stored in a stacker, the user can easily collect the recording medium remaining in the recording medium storage unit to which the recording medium has been fed. can do.

1 is a diagram illustrating a configuration of a printing system. FIG. 2 is a cross-sectional view illustrating a configuration of the image forming apparatus illustrated in FIG. 1. FIG. 3 is a cross-sectional view of the external paper feeding device shown in FIG. 2. 2 is a cross-sectional view of the image forming apparatus main body. FIG. 2 is a block diagram of a hardware configuration of the image forming apparatus. FIG. 3 is a detailed block diagram of a sheet feeding device control unit. FIG. It is a block diagram of the hardware constitutions of information processing apparatus. It is a block diagram of the software configuration of the printing system. It is a figure which shows a system status screen. It is a figure which shows a media registration screen. It is a figure which shows a job scheduler screen. It is a figure which shows a media collection setting screen. It is a figure which shows a job setting screen. It is a flowchart explaining the control method of information processing apparatus. FIG. 6 is a diagram illustrating a paper feed tray open screen. It is a flowchart explaining the control method of information processing apparatus. It is a flowchart explaining the control method of information processing apparatus. FIG. 10 is a diagram illustrating a confirmation screen for opening a paper feed tray. It is a flowchart explaining the control method of information processing apparatus. It is a flowchart explaining the control method of information processing apparatus. It is a flowchart explaining the control method of information processing apparatus.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings. The following embodiments do not limit the invention according to the claims.

<Description of system configuration>
[First Embodiment]
FIG. 1 is a diagram illustrating the configuration of a printing system according to the present embodiment.
The printing system shown in FIG. 1 includes an image forming apparatus 101, an information processing apparatus 102, an information processing apparatus 103, and a network 104. The information processing apparatus 103 is a client, and is used by an operator to perform processing such as print job setting and transmit a print job to the information processing apparatus 102. The information processing apparatus 102 is a server, and performs functions such as print job reception, job management, RIP and imposition, and printing using the image forming apparatus 101. Reference numeral 104 denotes a network, and the image forming apparatus 101, the information processing apparatus 102, and the information processing apparatus 103 are connected through the network 104.

  FIG. 2 is a diagram showing the configuration of the image forming apparatus 101 shown in FIG. An image forming apparatus 101 according to the present exemplary embodiment includes an external paper feeding device 201, an external paper feeding device 202, an image forming device main body 203, a large-capacity stacker 204, and a finisher device 205.

In FIG. 2A, an external paper feeder 201 and an external paper feeder 202 are for providing a large amount of printing paper (hereinafter referred to as media) to the image forming apparatus main body 203. The image forming apparatus main body 203 is a printing apparatus, and performs printing on media fed from an external paper feeding device 201, an external paper feeding device 202, and a paper feed tray attached to the image forming apparatus main body 203.

  The large-capacity stacker 204 is a paper discharge device capable of storing a large amount of printed materials, and is mainly used for storing a large amount of printing using the external paper supply device 201 and the external paper supply device 202. The finisher device 205 is a paper discharge device that is used to store a small amount of printed matter or to generate a printed matter that has undergone saddle stitching processing.

  In the external view shown in FIG. 2A, a button 501 is a stack eject button, and is pressed when the print media loaded on the lift table 508 of the large capacity stacker is taken out from the large capacity stacker 204. The slide door 502 is a front cover of the large capacity stacker 204. The slide door 502 is normally lowered, but slides upward when taking out printed matter from the large-capacity stacker 204.

  The large capacity stacker 204 includes an escape tray 506 and a lift table 508. The straight path is a conveyance path for conveying the media received from the image forming apparatus main body 203. The paper discharge flapper pair is configured to be swingable about a swing shaft, and defines a medium transport direction. When the upper side of the pair of paper discharge flappers is swinging counterclockwise in the figure, the medium is conveyed to the escape path. Further, when the lower side of the pair of paper discharge flappers is swinging in the clockwise direction in the drawing, the medium is conveyed to the stack path. Further, when the upper and lower sides of the paper discharge flapper pair are not swung, the media is conveyed to the straight path.

The escape path is used when the medium is to be ejected without being stacked on the lift table 508. For example, when performing sample printing or the like, the medium is discharged from the escape path to the escape tray 506.
The stack path is a transport path for transporting media to the lift table 508. For example, when a job for discharging printed matter is input to the stack unit of the large-capacity stacker 204 from the operator, the media is discharged to the lift table 508 via the stack path.
In FIG. 2B, a lift table 508 is a table for loading media. The eject table 509 is a table for moving media from the inside of the large-capacity stacker 204 to the outside. The eject table 509 is provided with a pressure sensor (not shown), and it can be determined whether or not a medium is loaded on the eject table.
The motor 510 is a motor for enabling the slide door 502 to move up and down. A slide door 502 is in contact with a gear (not shown) that receives the rotation of the motor 510. Therefore, the sliding door 502 can be moved up and down by controlling the rotation of the motor 510 to the right and left.

The motor 511 is a motor for moving the lift table 508 up and down. The motor 511 is connected to the lift table 508, and a gear (not shown) that receives the rotation of the motor 511 is in contact with the guide rail 513. The guide rail 513 is a rail used when the lift table 508 is moved up and down, and is installed vertically. Therefore, the lift table 508 can be moved up and down by controlling the rotation of the motor 511 to the right and left. Further, the lift table 508 can be lowered to the same height as the eject table 509. In addition,

The motor 512 is a motor for moving the eject table 509 from the inside of the large-capacity stacker 204 to the outside. A gear (not shown) that receives the rotation of the motor 512 and the eject table 509 are in contact with each other. Therefore, the ejection table 509 can be moved back and forth by controlling the rotation of the motor 512 to the right and left.
The button press detection unit 514 is a circuit board that detects that the button 501 is pressed.

In the top view, the shapes of the lift table 508 and the eject table 509 are shown. The lift table 508 and the eject table 509 have a structure in which the convex portions and the concave portions are in contact with each other. Therefore, the lift table 508 can be lowered to the same height as the eject table 509.
From the above, when discharging the media on the lift table 508 to the outside, the large-capacity stacker 204 performs the following operation.

First, the sliding door 502 is moved upward by controlling the rotation of the motor 510. Next, the lift table 508 is lowered to the same height as the eject table 509 by controlling the motor 511. As a result, due to the shape characteristics of the lift table 508 and the eject table 509, the media loaded on the lift table 508 is loaded on both the lift table 508 and the eject table 509. By controlling the motor 512, the eject table 509 moves to the front side, so that the media loaded on the lift table 508 is discharged to the outside of the large-capacity stacker 204.

3 is a cross-sectional view of the external paper feeder 201 and the external paper feeder 202 shown in FIG.
In FIG. 3, a straight path 307 is a path for transporting the paper feed tray 301, the paper feed tray 302, the paper feed tray 303, and the media transported from the upstream side to the downstream side. In the present embodiment, the external sheet feeder 202 is provided with the external sheet feeder 201 on the upstream side and the image forming apparatus 101 on the downstream side.
For this reason, the external paper feeding device 202 transfers the media contained in the paper feeding tray 301, the paper feeding tray 302, the paper feeding tray 303, and the media conveyed from the external paper feeding device 201 through the straight path 307 to the image forming apparatus. Transport to the main body 203.
A paper feed tray 301, a paper feed tray 302, and a paper feed tray 303 are trays for feeding media. By lifting up the lower portion of the paper feed tray using a lift-up motor (not shown), the fed media can be brought into contact with the paper feed motor 304, the paper feed motor 305, and the paper feed motor 306. This mechanism enables paper feeding regardless of the amount of media. A paper feed motor 304, a paper feed motor 305, and a paper feed motor 306 are motors for pulling out media contained in the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303, one by one. The media in the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303 are sent out to the transport path by the paper feed motor 304, the paper feed motor 305, and the paper feed motor 306, respectively, to the straight path 307. Be transported.

  The remaining amount sensor 308, the remaining amount sensor 309, and the remaining amount sensor 310 are sensors that detect the amount of media in the sheet feeding tray 301, the sheet feeding tray 302, and the sheet feeding tray 303, respectively. The height between the lower part of the paper tray is measured. The lower part of the paper feed tray approaches the paper feed motor by the lift-up motor as the remaining amount of media decreases. Therefore, the amount of media in the paper feed tray can be detected using the remaining amount sensor 308, the remaining amount sensor 309, and the remaining amount sensor 310 as sheet detecting means for detecting the presence or absence of remaining sheets.

The spring 311, the spring 312, and the spring 313 are springs for pushing the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303 from the back side to the front side, respectively.
Each of the springs 311 to 312 is applied with a force in the compression direction when the paper feed tray is not opened (closed state in FIG. 3). However, in this state, a physical lock (not shown) is applied, and unless the physical lock is released by a later-described tray lock release control pair, the force of the springs 311 to 312 is not released. Must not.

The tray lock release control pair 314, the tray lock release control pair 315, and the tray lock release control pair 316 release a physical lock (not shown) by a solenoid (electromagnet), and feed the paper feed tray 301, the paper feed tray 302, and the paper feed tray. This is for opening 303.
Briefly, the tray lock release control pair is physically connected in a direction to release the clasp by a solenoid (electromagnetic force) when the clasp is engaged (physical lock is applied to the paper feed tray). Generate power. By doing so, since the clasp is released, the force of the springs 311 to 312 is released, and the paper feed tray can be opened. A button 317, a button 318, and a button 319 are pressed when it is desired to open the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303, respectively.

4 is a sectional view of the image forming apparatus main body 203 shown in FIG.
In FIG. 4, an automatic document feeder (ADF) 401 separates a bundle of documents set on a stacking surface of a document tray from a first page document in order of pages, and scans the document with a scanner 402. Transport to the platen glass. A scanner 402 reads an image of a document conveyed on a platen glass and converts it into image data by a CCD.
A rotating polygon mirror (polygon mirror or the like) 403 receives a light beam, such as a laser beam, modulated according to image data, and irradiates the photosensitive drum 404 as reflected scanning light through a reflecting mirror. The latent image formed by the laser beam on the photosensitive drum 404 is developed with toner, and the toner image is transferred to a medium attached on the transfer drum 405. A series of image forming processes is sequentially performed on yellow (Y), magenta (M), cyan (C), and black (K) toners to form a full-color image. After the four image forming processes, the media on the transfer drum 405 on which the full-color image is formed are separated by the separation claw 406 and conveyed to the fixing device 408 by the pre-fixing conveying device 407.

  The fixing device 408 is configured by a combination of a roller and a belt, and includes a heat source such as a halogen heater, and melts and fixes the toner on the medium onto which the toner image is transferred by heat and pressure. The paper discharge flapper 409 is configured to be swingable about a swing shaft, and defines a medium transport direction. When the paper discharge flapper 409 is swinging in the clockwise direction in the figure, the medium is conveyed straight and discharged to the outside by the paper discharge roller 410.

  On the other hand, when forming images on both sides of the medium, the paper discharge flapper 409 swings in the counterclockwise direction in the figure, and the medium is routed downward and sent to the duplex conveying unit. The double-sided conveyance unit includes a reverse flapper 411, a reverse roller 412, a reverse guide 413, and a double-sided tray 414. The reversing flapper 411 is configured to be swingable about a swinging shaft, and defines a medium transport direction. When processing a duplex printing job, the reverse flapper 411 is swung in the counterclockwise direction in the drawing, so that the sheet printed on the first surface of the sheet passes through the reverse roller 412 to the reverse guide 413. It is sent. Then, the reverse roller 412 is temporarily stopped in a state where the rear end of the medium is held between the reverse rollers 412, and the reverse flapper 411 is continuously swung in the clockwise direction in the drawing. In addition, the reverse roller 412 is rotated in the reverse direction. Accordingly, the sheet is switched back and conveyed, and the sheet is guided to the double-sided tray 414 in a state where the rear end and the front end of the sheet are switched.

The media is once stacked on the duplex tray 414, and then the media is fed again to the registration roller 416 by the refeed roller 415. At this time, the medium is sent with the surface opposite to the transfer process on the first surface facing the photosensitive drum.
Then, a second image is formed on the second surface of the sheet in the same manner as described above. Then, images are formed on both sides of the medium, and the sheet is discharged from the inside of the printing apparatus main body to the outside through the discharge roller 410 through a fixing process. By executing a series of double-sided printing sequences as described above, it is possible to execute double-sided printing on each of the first side and the second side of the sheet of the double-sided printing job by the printing apparatus.

  The paper feed tray 417 is a tray for feeding media. By using a lift-up motor (not shown) to lift up the lower portion of the paper feed tray, the fed media can be brought into contact with the paper feed motor 418. This mechanism enables paper feeding regardless of the amount of media. The paper feed motor 418 is a motor that pulls out the media in the paper feed tray 417 in units of one sheet. The media in the paper feed tray 417 is sent out to the transport path by the paper feed motor 418.

  The remaining amount sensor 419 is a sensor that detects the amount of media in the paper feed tray 417, and measures the height between the paper feed motor and the lower portion of the paper feed tray. The lower part of the paper feed tray approaches the paper feed motor by the lift-up motor as the remaining amount of media decreases. Therefore, the remaining amount sensor 419 can be used to detect the amount of media in the paper feed tray.

  The spring 420 is located behind the paper feed tray 417 and is a spring for pushing the paper feed tray 417 from the back side to the front side. The spring 420 is applied with a force in the compression direction when the paper feed tray is not opened. However, in this state, a physical lock (not shown) is applied, and unless the physical lock is released by a later-described tray lock release control pair 421, the force of the spring 420 is not released, so the paper feed tray is not opened.

The tray lock release control pair 421 is for releasing a physical lock (not shown) by a solenoid (electromagnet) and opening the paper feed tray 417. Briefly, the tray lock release control pair is physically connected in a direction to release the clasp by a solenoid (electromagnetic force) when the clasp is engaged (physical lock is applied to the paper feed tray). Generate power. By doing so, since the clasp is released, the force of the spring is released and the paper feed tray can be opened. A button 423 is a button to be pressed when it is desired to open the paper feed tray 417.

The media sent out from the paper feed tray 417 is guided between the conveyance guides and conveyed to the registration rollers 416 by a plurality of conveyance rollers. At this time, the registration roller 416 is stopped, the leading edge of the medium hits a nip portion formed by the registration roller 416 pair, and the medium forms a loop to correct skewing.
Thereafter, in accordance with the timing of the toner image formed on the photosensitive drum 404 in the image forming unit, the registration roller 416 starts rotating and conveys the medium. The medium sent by the registration roller 416 is electrostatically attracted to the surface of the transfer drum 405 by the suction roller 422. The medium ejected from the fixing device 408 is ejected to the outside through the paper ejection roller 410. The network connector 424 is a connection unit for connecting to the network 104. For example, when the network 104 is Ethernet (registered trademark), the connection portion has an RJ-45 shape.

  The configuration of the external paper feeding device 201, the external paper feeding device 202, and the image forming apparatus main body 203 has been described above with reference to FIGS. Here, it is important that the amount of media in the paper feed tray can be detected for all paper feed trays. By having a mechanism that can detect the amount of media, it can be determined whether or not media is in the paper feed tray. Specifically, it is possible to distinguish between a state in which media is in the paper feed tray and an empty state in which no media is in the paper feed tray.

FIG. 5 is a block diagram of a hardware configuration of the image forming apparatus 101 shown in FIG.
In FIG. 5A, a CPU circuit unit 705 has a CPU 706 and controls the following control unit in accordance with a program stored in a ROM 707. The control unit includes a document feeding device control unit 701, an image reader control unit 702, an image signal control unit 703, a printer control unit 704, a sheet feeding device control unit 709, a stacker control unit 710, a finisher control unit 711, and an HDD I / O. An F unit 712 and a network I / F unit 713. A document feeder controller 701 controls the automatic document feeder 401. An image reader control unit 702 controls the scanner 402. A printer control unit 704 controls the photosensitive drum 404, the fixing device 408, and the like.
A paper feeding device control unit 709 controls the paper feeding trays of the external paper feeding device 201, the external paper feeding device 202, and the image forming apparatus main body 203. The stacker control unit 710 controls the large capacity stacker 204. The finisher control unit 711 controls the finisher device 205.
The HDD I / F unit 712 is an interface with the HDD 714 and controls writing to and reading from the HDD 714. The network I / F unit 713 controls data transmission / reception via the network 104. The HDD 714 is a mass storage device, and is an area for storing nonvolatile data.

  The RAM 708 is used as an area for temporarily storing control data and a work area for operations associated with control. The network I / F unit 713 is connected to the information processing apparatus 102 and the like via the network 104.

Note that an image read by the scanner 402 is output from the image reader control unit 702 to the image signal control unit 703. The image output from the image signal control unit 703 to the printer control unit 704 is image-formed and printed on the media fed from the paper feed tray 417 or the like. Thereafter, the printed media is post-processed according to a user-specified output form. Here, the post-processing indicates processing performed by the stacker control unit 710 and the finisher control unit 711. For example, when the medium is discharged to the large-capacity stacker 204, the stacker control unit 710 performs control to discharge the medium to the escape tray 506 or the lift table 508 according to the specified discharge destination.

  When the medium is discharged to the finisher device 205, the finisher control unit 711 performs processing according to the specified finishing setting, such as the specified discharge destination, saddle stitching and two-hole punching. Then, the processed media is discharged to one of the sample tray 613, the stack tray 617, and the saddle tray 624.

In FIG. 5B, the CPU circuit unit 1001 of the finisher control unit 711 has a CPU 1002 and controls the following control unit in accordance with a program stored in the ROM 1003. The control units are a conveyance path control unit 1005, a paper feed control unit 1006, a punch / staple control unit 1007, a saddle stitch folding control unit 1008, and a paper detection unit 1009. A transport path control unit 1005 controls the paper discharge flapper 608 and the paper discharge flapper 610 to control the transport path 607. The paper feed control unit 1006 controls the inserter 602 and performs control of transporting media from the inserter tray 603 and the inserter tray 604 to the transport path 607. The punch / staple control unit 1007 controls the puncher 615 and the stapler 616 to perform punching and stapling of media. The saddle stitch folding control unit 1008 controls the stopper 619, the folding plate 620, the saddle stitcher 621, and the like, and performs control for performing saddle stitch folding on the medium. The paper detection unit 1009 controls the sensors 614, 618, and 627 to detect whether media (sheets) are stacked on the sample tray 613, the stack tray 617, and the saddle tray 624, respectively.

Note that the RAM 1004 is a work area of the CPU 1002.
The CPU circuit unit 1001 is an intermediary circuit between the CPU circuit unit 705, the transport path control unit 1005, the paper feed control unit 1006, the punch / staple control unit 1007, the saddle stitch folding control unit 1008, and the paper detection unit 1009. The CPU circuit unit 1001 has a function of mediating an instruction from the CPU circuit unit 705 and a notification from the control unit.

For example, when notifying whether or not media is loaded on the sample tray 613, mediation is performed as follows.
The paper detection unit 1009 constantly monitors the state of the sensor 614. The sensor 614 distinguishes between the case where no medium is loaded on the sample tray 613 and the case where a medium is loaded, and is always in either state. The paper detection unit 1009 constantly monitors the state of the sensor 614 to grasp changes in two states when a medium is loaded and when a medium is not loaded.

When the state changes, the sheet detection unit 1009 notifies the CPU circuit unit 1001 of the state of the sample tray 613 (medium loaded or not loaded). Upon receiving the notification, the CPU circuit unit 1001 notifies the CPU circuit unit 705 of the state of the sample tray 613.
That is, the CPU circuit unit 705 is configured to always monitor the media stacking status of the sample tray 613, stack tray 617, and saddle tray 624.

FIG. 6 is a detailed block diagram of the sheet feeding device control unit 709 shown in FIG.
In FIG. 6, a CPU circuit unit 801 has a CPU 802 and controls the following control unit according to a program stored in a ROM 803. The control units are a paper feed tray control unit 805, a remaining paper amount detection unit 806, and a button press detection unit 807.

  A paper feed tray control unit 805 controls the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303 of the external paper feed device 201. The paper feed tray control unit 805 controls the paper feed tray 301, the paper feed tray 302, the paper feed tray 303, and the paper feed tray 417 of the image forming apparatus main body 203.

The remaining amount detection unit 806 includes a remaining amount sensor 308, a remaining amount sensor 309, a remaining amount sensor 310 of the external sheet feeding device 201, and a remaining amount sensor 308, a remaining amount sensor 309, and a remaining amount sensor 310 of the external sheet feeding device 202. And the remaining amount sensor 419 of the image forming apparatus main body 203 is controlled.

The button press detection unit 807 presses the button 317, button 318, button 319 of the external paper feeder 201, button 317, button 318, button 319 of the external paper feeder 202, and button 423 of the image forming apparatus main body 203. Detect whether or not. The RAM 804 is a work area for the CPU 802.

The CPU circuit unit 801 is an intermediary circuit between the CPU circuit unit 705, the paper feed tray control unit 805, the remaining paper amount detection unit 806, and the button press detection unit 807. The CPU circuit unit 801 has a function of mediating an instruction from the CPU circuit unit 705 and a notification from the control unit.
For example, when the button 317 of the paper feed tray 301 of the external paper feed device 201 is pressed, mediation is performed as follows to open the paper feed tray 301 of the external paper feed device 201.

When the button 317 of the external sheet feeder 201 is pressed, the button press detection unit 807 notifies the CPU circuit unit 801 that the button 317 has been pressed. Upon receiving the notification, the CPU circuit unit 801 notifies the CPU circuit unit 705 that the button 317 has been pressed.

Subsequently, the CPU circuit unit 705 notifies the CPU circuit unit 801 to open the paper feed tray 301 of the external paper feed device 201. Upon receiving this notification, the CPU circuit unit 801 opens the paper feed tray 301 by controlling the tray lock release control pair 314 of the external paper feeder 201 to the paper feed tray control unit 805.

Here, it is important that the instruction to open the paper feed tray 301 of the external paper feeder 201 is issued by the CPU circuit unit 705. In other words, even if the button 317 of the external sheet feeding device 201 is not pressed, any sheet feeding tray can be opened as long as the condition that the CPU circuit unit 705 issues an instruction to open the sheet feeding tray is satisfied. .
As described above, the CPU circuit unit 705 is configured to centrally control the paper feed tray control unit 805, the remaining paper amount detection unit 806, and the button press detection unit 807 through the CPU circuit unit 801.

FIG. 7 is a block diagram of a hardware configuration of the information processing apparatus 102 and the information processing apparatus 103 illustrated in FIG.
In FIG. 7, reference numeral 1101 denotes a CPU (Central Processing Unit). The CPU 1101 controls each device connected to the CPU device based on a control program stored in the ROM 1107, the HDD 1109, and the CDD 1106.

Reference numeral 1102 denotes a display device. On the display screen, for example, a window, an icon, a message, a menu, and other user interface information are displayed. Reference numeral 1103 denotes a VRAM (video random access memory) on which an image to be displayed on the display device 1102 is drawn. The image data generated in the VRAM 1103 is transferred to the display device 1102 according to a predetermined rule, whereby an image is displayed on the display device 1102.

Reference numeral 1104 denotes a keyboard having various keys for inputting characters. Reference numeral 1105 denotes a PD (pointing device), which is used, for example, to indicate an icon, menu, or other object displayed on the display screen of the display device 1102.

Reference numeral 1106 denotes a CDD (Compact Disk Drive), which is a device that reads and writes various control programs and data with a recording medium such as a CD-ROM or CD-R. This may be a DVD drive.

Reference numeral 1107 denotes a ROM (Read Only Memory) that holds various control programs and data. Reference numeral 1108 denotes a RAM (Random Access Memory), which has a work area for the CPU 1101, a data save area for error processing, a control program load area, and the like. For example, the information processing apparatus 102 has a function of transmitting electronic data to the image forming apparatus 101 by RIP. The program is stored in the ROM 1107, and the work area of the CPU 1101 and the RAM 1108 are used when performing RIP processing.
Further, the information processing apparatus 103 has a function of transmitting electronic data to the information processing apparatus 102 as a print job. The program is stored in the ROM 1107, and the work area of the CPU 1101 and the RAM 1108 are used when performing transmission processing.

Reference numeral 1109 denotes an HDD (hard disk drive) as an internal recording device, which stores various control programs and various data. Reference numeral 1110 denotes an external recording I / F, which is a device that reads from and writes to an external recording medium such as a USB memory.

Reference numeral 1111 denotes a network interface (Net-I / F) that can transmit and receive data between the image forming apparatus 101, the information processing apparatus 102, and the information processing apparatus 103 via the network 104. Reference numeral 1112 denotes a CPU bus, which includes an address bus, a data bus, and a control bus.

FIG. 8 is a block diagram of a software configuration of the image forming apparatus 101, the information processing apparatus 102, and the information processing apparatus 103 illustrated in FIG.
The device control unit 1201, the reception processing unit 1202, the transmission processing unit 1203, and the network I / F control unit 1204 are software executed by the CPU circuit unit 705 of the image forming apparatus 101. Also, the UI processing unit 1205, the job control unit 1206, the RIP processing unit 1207, the reception processing unit 1208, the transmission processing unit 1209, and the network I / F control unit 1210 are software executed by the CPU 1101 of the information processing apparatus 102. . Furthermore, the UI processing unit 1211, the job generation unit 1212, the transmission processing unit 1213, and the network I / F control unit 1214 are software executed by the CPU 1101 of the information processing apparatus 103.

The device control unit 1201 takes charge of processing such as a printing function of the image forming apparatus main body 203, a printed medium loaded on a lift table 508 functioning as a stacking tray of the large-capacity stacker 204, and opening of a paper feeding tray. .
For example, when the printed media stacked on the lift table 508 is taken out, the stacker control unit 710 is controlled to move the slide door 502 upward, the lift table 508 downward, and the eject table 509 forward. Control. Further, when opening the paper feed tray 417 of the image forming apparatus main body 203 and the paper feed trays 301 to 303 of the external paper feed apparatuses 201 and 203, the paper feed apparatus control unit 709 is controlled to control the image forming apparatus 101. Controls the opening of each paper feed tray.

Further, the device control unit 1201 detects the button press of each paper feed tray from the paper feed device control unit 709 and the button press from the stacker control unit 710, and transmits them to the information processing device 102 through the transmission processing unit 1203. Control is also implemented.

The reception processing unit 1202 is in charge of processing to receive the print image RIPed by the information processing apparatus 102 through the network I / F control unit 1204 and pass it to the device control unit 1201 in units of pages. Further, the reception processing unit 1202 receives a request to take out printed media stacked on the lift table 508 and an open request for each paper feed tray of the image forming apparatus 101, and passes the request to the device control unit 1201. Control is also implemented.

The network I / F control unit 1204 controls the network I / F 713. Further, in cooperation with the network I / F control unit 1210, it is in charge of data communication processing between the image forming apparatus 101 and the information processing apparatus 102 through the network 104.

The UI processing unit 1205 is in charge of processing for displaying a control setting screen when the image forming apparatus 101 and the information processing apparatus 102 execute a print job on the display apparatus 1102 of the information processing apparatus 102. The UI processing unit 1205 is in charge of processing for saving and reading the setting value set on the control setting screen to the HDD 1109 of the information processing apparatus 102.
A job control unit 1206 is in charge of print job management and job transmission processing for the image forming apparatus 101. Specifically, processing such as start, interruption, and cancellation of a print job is performed. The RIP processing unit 1207 is in charge of processing for RIPing print data in units of pages.

The reception processing unit 1208 receives, via the network I / F control unit 1210, an event that detects a button press of each paper feed tray from the paper feed device control unit 709 and a button press from the stacker control unit 710, and performs job control. Responsible for processing to be transferred to the unit 1206. Further, the reception processing unit 1208 is in charge of processing for passing a print job received from the information processing apparatus 103 to the job control unit 1206 via the network I / F control unit 1210.

The transmission processing unit 1209 is in charge of processing to pass the RIP image to the reception processing unit 1202 of the image forming apparatus 101 through the network I / F control unit 1210 in page units. Further, the transmission processing unit 1209 performs processing for passing the stack eject request and the paper feed tray open request passed from the job control unit 1206 to the reception processing unit 1202 of the image forming apparatus 101 through the network I / F control unit 1210. Handle.

The network I / F control unit 1210 controls the Net-I / F 1111. Further, in cooperation with the network I / F control unit 1204 and the network I / F control unit 1214, it is in charge of data communication processing among the image forming apparatus 101, the information processing apparatus 102, and the information processing apparatus 103 through the network 104.
The UI processing unit 1211 is in charge of processing for displaying a job setting screen on the display device 1102 of the information processing apparatus 103 and processing for passing an instruction to generate a print job to the job generation unit 1212. The job generation unit 1212 is responsible for processing to generate a print job in accordance with an instruction from the UI processing unit 1211 and to pass the print data to the transmission processing unit 1213. The transmission processing unit 1213 is in charge of processing for passing a print job to the reception processing unit 1208 of the information processing apparatus 102 through the network I / F control unit 1214.

The network I / F control unit 1214 controls the Net-I / F 1111. Further, in cooperation with the network I / F control unit 1210, it is responsible for data communication processing between the information processing apparatus 102 and the information processing apparatus 103 through the network 104.
In this configuration, when a print job is transmitted from the information processing apparatus 103, RIP is performed by the image forming apparatus 101, and printing is performed by the image forming apparatus 101, the following processing is performed.

First, the job generation unit 1212 of the information processing apparatus 103 generates a job according to the job settings set by the UI processing unit 1211, and sends the print data and job setting information to the job control unit 1206 using the transmission processing unit 1213. Send a print job. Next, the job control unit 1206 of the information processing apparatus 102 renders the received print data in units of pages in the RIP processing unit 1207, and transmits the RIP image to the device control unit 1201 using the transmission processing unit 1209.
Further, the job control unit 1206 transmits job setting information to the device control unit 1201 through the network I / F control unit 1210 in synchronization with the transmission of the RIP image. Next, the device control unit 1201 of the image forming apparatus 101 receives the received RIP image, passes the image data to the image signal control unit 703, and receives job setting information.
Subsequently, the device control unit 1201 issues an instruction regarding a paper feed tray and a paper discharge destination to the printer control unit 704, the paper feed device control unit 709, the stacker control unit 710, and the finisher control unit 711 based on the job setting information. In addition to issuing the instruction, the image signal control unit 703 is instructed to pass the image data to the printer control unit 704. Further, in this configuration, when the printed media stacked on the lift table 508 of the large-capacity stacker 204 is taken out, it is realized by performing the following processing.

First, the device control unit 1201 of the image forming apparatus 101 receives an event that detects that the button 501 is pressed from the button press detection unit 909 of the stacker control unit 710. Here, the button 501 functions as a button for receiving a collection instruction from the user. Then, the device control unit 1201 transmits a button press event to the job control unit 1206 of the information processing apparatus 102 through the transmission processing unit 1203. The job control unit 1206 performs job control on the print job according to the current job status, and then passes a stack eject request to the device control unit 1201 via the transmission processing unit 1209.

Next, the device control unit 1201 of the image forming apparatus 101 performs a series of controls of the upward movement of the slide door 502, the downward movement of the lift table 508, and the front side movement of the ejection table 509 in accordance with the received stack ejection request.

Note that the stack eject request to the device control unit 1201 can be executed by a request from the UI processing unit 1205. The stack eject request from the UI processing unit 1205 will be described with reference to FIG.
In this configuration, when the paper feed tray 417 of the image forming apparatus main body 203 and the paper feed trays 301 to 303 of the external paper feed devices 201 and 203 are opened, the following processing is performed.

For example, when the button 423 of the paper feed tray 417 of the image forming apparatus 101 is pressed, the device control unit 1201 of the image forming apparatus 101 presses the button 423 from the button press detection unit 807 of the paper supply apparatus control unit 709. The event that detects this is received.
Then, the device control unit 1201 transmits a button press event to the job control unit 1206 of the information processing apparatus 102 through the transmission processing unit 1203. The job control unit 1206 performs job control for a print job according to the current job status, and then passes a paper feed tray open request for the paper feed tray 417 to the device control unit 1201 via the transmission processing unit 1209. .

Next, the device control unit 1201 of the image forming apparatus 101 instructs the paper feed tray control unit 805 of the paper feed device control unit 709 to open the paper feed tray 417 in accordance with the received paper feed tray open request. Then, the paper feed tray control unit 805 controls the tray lock release control pair 421 and opens the paper feed tray 417.

Note that the above-described paper feed tray open request to the device control unit 1201 can be executed by a request from the UI processing unit 1205. The paper feed tray open request from the UI processing unit 1205 will be described with reference to FIG.

FIG. 9 is a diagram showing a system status screen displayed on the information processing apparatus 102 shown in FIG. This screen is displayed and controlled by the UI processing unit 1205.
The display of the system status display area 1301 changes according to the device configuration of the image forming apparatus 101. In this description, an external sheet feeder 201, an external sheet feeder 202, an image forming apparatus main body 203, a large-capacity stacker 204, and a finisher apparatus 205 are displayed. As the paper feed tray, one paper feed tray attached to the image forming apparatus main body 203, three paper feed trays attached to the external paper feed device 202, three paper feed trays attached to the external paper feed device 201, A total of nine inserters of the finisher device 205 are displayed so as to be selectable. Further, the stack portion of the large-capacity stacker 204 is displayed as selectable as the paper discharge tray.

A paper feed tray button 1305, a paper feed tray button 1306, and a paper feed tray button 1307 correspond to the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303 of the external paper feeder 201, respectively.
A paper feed tray button 1308, a paper feed tray button 1309, and a paper feed tray button 1310 correspond to the paper feed tray 301, the paper feed tray 302, and the paper feed tray 303 of the external paper feeder 202, respectively.
A paper feed tray button 1311 corresponds to the paper feed tray 417 of the image forming apparatus 101. The inserter button 1313 and the inserter button 1314 correspond to the inserter tray 603 and the inserter tray 604 of the finisher device 205, respectively. The stack button 1312 corresponds to the lift table 508 of the large capacity stacker 204.
Here, the media size (A4, A3) and media type (plain paper) displayed on the paper feed tray buttons 1305 to 1311 are displayed as media information registered in each paper feed tray.

The stack eject button 1302 is a button that is pressed when taking out the media loaded on the lift table 508 of the large-capacity stacker 204. The stack eject button 1302 can be pressed after the stack button 1312 is selected.
A paper feed tray open button 1303 is a button that is pressed to open the paper feed tray, and can be pressed after selecting one of the paper feed tray buttons 1305 to 1311.
A media registration button 1304 is a button to be pressed when registering the type of media fed to the paper feed tray. After selecting one of the paper feed tray buttons 1305 to 1311, the inserter button 1313, and the inserter button 1314, It can be pressed. When a media registration button 1304 is pressed, a paper feed media registration screen shown in FIG. 10 is displayed to register media information in the selected paper feed tray. Here, processing when the stack eject button 1302 and the paper feed tray open button 1303 are pressed will be described.

First, the stack eject button 1302 will be described. When the stack eject button 1302 is pressed after selecting the stack button 1312, the UI processing unit 1205 transmits a stack eject request to the job control unit 1206. Then, the job control unit 1206 processes the received stack eject request as described above.

Next, the paper feed tray open button 1303 will be described. For example, when the paper feed tray open button 1303 is pressed after selecting the paper feed tray button 1311, the UI processing unit 1205 transmits a paper feed tray open request to the paper feed tray 417 of the image forming apparatus main body 203 to the job control unit 1206. To do. Then, as described above, the job control unit 1206 processes the received paper feed tray open request for the paper feed tray 417.

FIG. 10 is a diagram showing a paper feed medium registration screen. This screen is displayed and controlled by the UI processing unit 1205.
A paper feed media selection button group 1401 is an area for selecting media information fed to the paper feed tray. In the state of FIG. 10, nine types of media can be selected. A scroll button 1402 is a button used when there is no media information to be selected in the paper feed media selection button group 1401. By using the scroll up / down of the scroll button 1402, media information that is not currently displayed can be displayed on the paper feed media selection button group 1401.

An OK button 1403 is a button for reflecting the selected media information. When one of the paper feed media selection buttons 1401 is selected and then the OK button 1403 is pressed, the selected media information is reflected in the paper feed tray, and the system status screen in FIG. 9 is displayed again.
A cancel button 1404 is a button for discarding the selection. When the cancel button 1404 is pressed, the selection is discarded and the screen returns to the system status screen of FIG.

Note that the setting on this screen is performed by the UI processing unit 1205 using the CPU circuit unit 705 to store in the HDD 714 via the HDD I / F unit 712. Further, when displaying, the UI processing unit 1205 performs a process of reading from the HDD 714.
FIG. 11 is a diagram illustrating a job scheduler screen displayed on the information processing apparatus 102. This screen is displayed and controlled by the UI processing unit 1205.
Jobs to be printed by the image forming apparatus 101 are managed using the job scheduler screen shown in FIG.

The media button group 1501 is an area where a list of media necessary for the scheduled job is displayed. For example, A4 plain paper is required for Job1, and A3 plain paper is required for Job2. In the media button group 1501, the number of buttons displayed varies depending on the job scheduled to be printed. For example, when Job1 is printed, there are no jobs using A4 plain paper, and A4 plain paper is not displayed in the media button group 1501.
The time axis 1502 is a time axis based on the current time. The time axis 1502 extends from left to right and is displayed in minutes. A job axis 1503 represents a print job, and represents a scheduled job name and how many minutes the job will be completed if no paper runs out.

  The media collection button 1504 is a button that is pressed when setting whether or not to collect media together with the printed material, and can be pressed when one medium is selected from the media button group 1501. In the example of FIG. 11, it can be pressed after selecting A4 plain paper or A3 plain paper. When the media collection button 1504 is pressed, the media collection setting screen shown in FIG. 12 is displayed.

FIG. 12 is a diagram showing a media collection setting screen.
The radio button group 1601 is a button for setting whether to collect the medium together with the printed material, and one of two options “collect” or “do not collect” can be selected. Note that the example of FIG. 12 corresponds to the state where “collect” is selected.

  An OK button 1602 is a button to be pressed when setting the radio button group 1601 is confirmed. When the OK button 1602 is pressed, the screen returns to the job scheduler screen shown in FIG. A cancel button 1603 is a button for discarding the selection made by the radio button group 1601. When the cancel button 1603 is pressed, the selection is discarded and the screen returns to the job scheduler screen of FIG.

  Note that the setting on this screen is performed by the UI processing unit 1205 using the CPU circuit unit 705 to store in the HDD 714 via the HDD I / F unit 712. Further, when displaying, the UI processing unit 1205 performs a process of reading from the HDD 714.

FIG. 13 is a diagram showing a job setting screen displayed on the display device 1102 of the information processing apparatus 103 shown in FIG.
In FIG. 13A, reference numeral 1701 denotes a tag in which job setting items are grouped according to type, and includes five types of “general”, “job information”, “media”, “layout”, and “finish”. Yes. In FIG. 13A, a setting item “media” is displayed.

“Media” is a tag that summarizes settings related to media used by a print job. The media type setting 1702 is an item for designating a medium used by a print job, and plain paper is selected in the drawing. The media size setting 1703 is an item for setting the media size used by the print job. In the figure, A4 is selected. A paper feed tray setting 1704 is an item for setting a paper feed tray from which a medium used by a print job is fed, and automatic selection is set in the drawing.
In other words, in the setting in the figure, if the media type is plain paper and the media size is set to A4, it is set to feed and print from any paper feed tray.

An OK button 1705 is a button for determining contents set on the job setting screen as job settings. A cancel button 1706 is a button for discarding the contents set on the job setting screen. Note that after the OK button 1705 and the cancel button 1706 are pressed, the job setting screen is closed.

FIG. 13B is a diagram showing a screen on which the setting item “Finishing” is displayed.
“Finishing” is a tag that summarizes settings related to paper discharge. A paper discharge destination setting 1707 is a setting relating to designation of a paper discharge destination. In the drawing, the inside of the stacker is designated. Here, the inside of the stacker means the lift table 508 of the large capacity stacker 204. In this setting, the sample tray 613, stack tray 617, saddle tray 624, and the like of the finisher device 205 can be selected in addition to the inside of the stacker.

The punch setting 1708 is an item for setting whether or not to perform a hole punching process when ejecting to the finisher device 205. In the drawing, it is designated that punch setting 1708 is not performed. The staple setting 1709 is an item for setting whether or not a staple process is performed on a medium when the stapler 205 ejects the staple. In the drawing, it is specified that the staple setting 1709 is not performed. The saddle stitching setting 1710 is an item for setting whether or not to perform saddle stitching processing on a medium when ejected to the finisher device 205. In the drawing, the saddle stitching process is set not to be performed. The OK button 1705 and the cancel button 1706 are the same as those described with reference to FIG.

  13A and 13B, the UI processing unit 1205 uses the CPU circuit unit 705 to store the setting in the HDD 714 via the HDD I / F unit 712. Process. Further, when displaying, the UI processing unit 1205 performs a process of reading from the HDD 714.

In the first embodiment, after a print job is discharged to the lift table 508 of the large-capacity stacker 204, the operator presses the button 501 of the large-capacity stacker 204 to collect the media remaining in the paper feed tray together with the printed matter. Will be described.

First, regarding media collection, it is assumed that the operator sets “collect” A4 plain paper on the media collection setting screen of FIG. Next, it is assumed that the print job is initially in a state where two jobs are scheduled as shown in FIG. 11, and that Job1 has been completed and Job2 has started printing. Further, it is assumed that the media type registered in each paper feed tray is set as shown in the screen shown in FIG.

FIG. 14 is a flowchart illustrating a method for controlling the information processing apparatus according to the present embodiment. This example is a data processing example of the job control unit 1206 executed by the information processing apparatus 102. A program corresponding to each step is stored in the ROM 1107, and this processing is realized by being executed by the CPU 1101. In the following description, the module shown in FIG. 8 will be mainly described.
S1801 to S1802 are loop processes until the job control unit 1206 receives a stack eject button pressing event indicating that the operator has pressed the button 501 of the large-capacity stacker 204.

In step S <b> 1801, the job control unit 1206 manages the media ejected to the lift table 508. The job control unit 1206 holds the managed media information in the RAM 708 on the CPU circuit unit 705. The managed media information is initialized each time stack ejection is performed. In the first embodiment, “A4 plain paper” used by job 1 is managed as being stacked on the lift table 508.

In step S1802, the job control unit 1206 determines whether a stack eject button press event has been received. If the job control unit 1206 determines that the stack eject button pressing event has been pressed, the process advances to step S1803; otherwise, the process returns to step S1801.

Steps S1803 to S1804 are loop processing in which the job control unit 1206 determines whether a medium is loaded on the eject table 509 or not. Since the stack eject process cannot be physically performed in the state where the medium is loaded on the eject table 509, the job control unit 1206 does not perform the stack eject process in this state. With this processing, stack ejection processing and paper feed tray opening processing can be executed simultaneously.

In step S <b> 1803, the job control unit 1206 acquires the media loading state of the eject table 509 by controlling the eject table control unit 908 of the stacker control unit 710. In step S1804, the job control unit 1206 proceeds to step S1805 if no media is loaded on the eject table 809, and returns to step S1803 if media is loaded.

In step S1805, the job control unit 1206 acquires media information scheduled to be used from the UI processing unit 1205 in order to acquire media usage information from the job scheduler. In the case of the first embodiment, since Job2 uses “A3 plain paper”, the job control unit 1206 obtains information from the UI processing unit 1205 that “A3 plain paper” is a medium to be used.

In step S <b> 1806, the job control unit 1206 acquires setting information performed on the media collection setting screen in FIG. 12 from the UI processing unit 1205 in order to obtain media information whose media collection setting is “collect”. In the case of the first embodiment, “A4 plain paper” is acquired because it is assumed that “collect” is set for “A4 plain paper”.

In step S1807, the job control unit 1206 compares the media information acquired in steps S1805 and S1806, and confirms that the media set to “collect” is not scheduled to be used in the job schedule. In the case of the first embodiment, “A4 plain paper” is set to “collect”, but there is no use plan.

In step S1808, the job control unit 1206 uses the information acquired in step S1801 to store the media that is set to “collect” in step S1807 and is not scheduled to be used in the job schedule in the lift table 508. It is determined whether or not the paper is discharged. If it is not discharged, the process proceeds to S1811. If it is discharged, the process proceeds to S1809.

In step S1809, the job control unit 1206 is registered in the paper feed tray buttons 1305 to 1310 from the UI processing unit 1205 in order to acquire media information registered in each paper feed tray as illustrated in FIG. Get media information. At this time, the UI processing unit 1205 uses the CPU circuit unit 705 to read out the media information registered from the HDD 714 via the HDD I / F unit 712. In the case of the first embodiment, registration is performed as shown in FIG. For this reason, the UI processing unit 1205 has registered with the job control unit 1206 that “A4 plain paper” is registered for the paper feed tray 1 buttons 305 to 1310 and “A3 plain paper” is registered for the paper feed tray button 1311. Will be returned. In other words, in the case of the first embodiment, in step S1809, the job control unit 1206 specifies that the paper feed tray containing “A4 plain paper” is the paper feed tray buttons 1305 to 1310.

In step S <b> 1810, the job control unit 1206 requests the device control unit 1201 to open a paper feed tray corresponding to the paper feed tray buttons 1305 to 1310 in order to open the paper feed tray buttons 1305 to 1310. Send. Specifically, the job control unit 1206 sends an open request to the paper feed trays 301 to 303 of the external paper feed device 201 and the paper feed trays 301 to 303 of the external paper feed device 202 through the transmission processing unit 1209. 1201 is performed.
Then, the device control unit 1201 controls the sheet feeding device control unit 709 using the CPU circuit unit 705, whereby the sheet feeding trays 301 to 303 of the external sheet feeding device 201 and the sheet feeding tray 301 of the external sheet feeding device 202 are used. The paper feed tray open process for .about.303 is executed.

  In step S1811, the job control unit 1206 transmits a stack eject request to the device control unit 1201 through the transmission processing unit 1209 in order to perform stack ejection. When the device control unit 1201 receives the stack ejection request, the device control unit 1201 controls the stacker control unit 710 using the CPU circuit unit 705 to execute the stack ejection processing for the large-capacity stacker 204 and ends the processing. .

In addition, it supplements about the process of S1802 of this embodiment. In the present embodiment, the stack eject request by the operator may be a trigger for pressing the stack eject button 1302. In that case, the processing in step S1802 may be replaced with processing in which the job control unit 1206 receives a stack eject request from the UI processing unit 1205.
Further, the processing in S1802 may be changed to processing in which the job control unit 1206 waits for both reception of a stack eject button pressing event and reception of a stack eject request from the UI processing unit 1205.

Further, a supplementary description will be given of the processing in S1810 of this embodiment. In the process of S1810, the paper feed trays are opened for all the paper feed trays for which “A4 plain paper” is registered. This process may be a process of opening only the paper feed tray in which the medium is contained among the paper feed trays in which “A4 plain paper” is registered. In that case, the job control unit 1206 sends the paper feed trays 301 to 303 of the external paper feed device 201 and the paper feed trays 301 to 303 of the external paper feed device 202 to the device control unit 1201 through the transmission processing unit 1209. Request to send the remaining amount of media. Then, the device control unit 1201 uses the CPU circuit unit 705 to control the paper feed device control unit 709 to acquire the remaining media information of each paper feed tray, and uses the transmission processing unit 1203 to execute the job. The remaining media information is transmitted to the control unit 1206. Thereafter, the job control unit 1206 makes a paper feed tray open request to the device control unit 1201 for a paper feed tray whose remaining media amount is not zero.

According to the present embodiment, when the operator collects the print product, it can check the print job schedule and then open the paper feed tray containing the media to be collected. Further, since the paper feed tray is not opened when the remaining amount of media in the paper feed tray is zero, there is an advantage that the operator does not have to perform wasteful media collection work.

[Second Embodiment]
In this embodiment, in the first embodiment, the operator can select execution of stack ejection and opening of the paper feed tray.

FIG. 15 is a diagram showing a paper feed tray open confirmation screen displayed on the display device 1102 of the information processing apparatus 102. The display of this screen is controlled by the UI processing unit 1205.
In FIG. 15, a button 1901 to be executed is a button that is pressed when the operator opens the paper feed tray together with the stack eject. A non-execution button 1902 is a button that is pressed when the operator does not open the paper feed tray together with the stack ejection.

When a button 1901 to be executed is pressed, the UI processing unit 1205 makes a paper feed tray open request to the job control unit 1206. In addition, when the non-executed button 1902 is pressed, the UI processing unit 1205 makes a paper tray non-open request to the job control unit 1206.

FIG. 16 is a flowchart illustrating a method for controlling the information processing apparatus according to the present embodiment. This example is a processing example by the job control unit 1206 executed by the information processing apparatus 102. A program corresponding to each step is stored in the ROM 1107, and this processing is realized by being executed by the CPU 1101.

This process is a flowchart in which the processes of S2010 to S2011 are inserted between the processes of S1809 to S1810 as compared with the process shown in FIG. For this reason, S2001 to S2009 are the same processes as S1801 to S1809, and thus description thereof is omitted.

In step S2010, the job control unit 1206 instructs the UI processing unit 1205 to display the “feed tray open confirmation” screen illustrated in FIG. When the operator presses a button 1901 to be executed, the UI processing unit 1205 makes a paper feed tray open request to the job control unit 1206. When the operator presses a button 1902 that is not executed, the UI processing unit 1205 makes a paper tray non-open request to the job control unit 1206.

In step S2011, if the job control unit 1206 receives a paper feed tray open request from the UI processing unit 1205, the process advances to step S2012. If a job tray non-open request is received, the job control unit 1206 advances to step S2013.
Since the processing of S2012 and S2013 is the same as the processing of S1810 and S1811, the description is omitted.

As described above, according to the present invention, when collecting a print product, after confirming the schedule of a print job, even when opening a paper feed tray containing media to be collected, according to the operator's intention, Opening of the paper feed tray can be selected.

According to the present invention, when a job that is not reflected in the print job schedule, such as an unsubmitted job, uses the media, there is an advantage that the paper feed tray is not opened by the operator's selection.

[Third Embodiment]
In the present embodiment, a case will be described in which the operator collects the printed product output to the sample tray 613, the stack tray 617, or the saddle tray 624 of the finisher device 205. Compared with the first embodiment, the output destination of the printed product is changed from the large-capacity stacker 204 to the finisher device 205.

FIG. 17 is a flowchart illustrating a method for controlling the information processing apparatus according to the present embodiment. This example is a data processing example of the job control unit 1206 executed by the information processing apparatus 102. A program corresponding to each step is stored in the ROM 1107, and this processing is realized by being executed by the CPU 1101.
Steps S2101 to S2102 are loop processing until the job control unit 1206 receives a media collection event indicating that the print product on the sample tray 613, stack tray 617, or saddle tray 624 of the finisher device 205 has been collected. .

In step S2101, the job control unit 1206 manages the media discharged to the sample tray 613, stack tray 617, or saddle tray 624 shown in FIG. The job control unit 1206 holds the managed media information in the RAM 708 on the CPU circuit unit 705. The managed media information is initialized every time a media collection event is received. In the third embodiment, “A4 plain paper” used by job 1 is managed as being stacked on the sample tray 613, stack tray 617, or saddle tray 624.

In step S2102, the job control unit 1206 determines whether a media collection event has been received. If a media collection event has been received, the process proceeds to S2103. If not received, the process returns to S2101.

The media collection event is an event that the device control unit 1201 notifies the job control unit 1206 through the transmission processing unit 1203. The device control unit 1201 uses the CPU circuit unit 705 to control the paper detection unit 1009 of the finisher control unit 711. The paper detection unit 1009 can detect whether a medium is loaded on the sample tray 613, the stack tray 617, and the saddle tray 624 by using the sensor 614, the sensor 618, and the sensor 627, respectively. Using this sensor information, the device control unit 1201 notifies the job control unit 1206 of a media collection event when the status in which the media is loaded changes to the status in which no media is loaded.

In step S <b> 2103, the job control unit 1206 acquires media information scheduled to be used from the UI processing unit 1205 in order to acquire media usage information from the job scheduler. In the case of the third embodiment, since Job2 uses “A3 plain paper”, the job control unit 1206 obtains information from the UI processing unit 1205 that “A3 plain paper” is a medium to be used.

In step S <b> 2104, the job control unit 1206 acquires setting information performed on the media collection setting screen illustrated in FIG. 12 from the UI processing unit 1205 in order to obtain media information whose media collection setting is “collect”. In the case of the third embodiment, “A4 plain paper” is acquired because it is assumed that “collected” is set for “A4 plain paper”.

In step S <b> 2105, the job control unit 1206 compares the media information acquired in steps S <b> 2103 and S <b> 2104 and confirms that the media set to “collect” is not scheduled to be used in the job schedule. In the case of the third embodiment, “A4 plain paper” is set to “collect”, but there is no use plan.

In step S <b> 2106, the job control unit 1206 determines in step S <b> 2105 whether a medium that is set to “collect” and is not scheduled to be used in the job schedule has been discharged to the tray that has generated the medium collection event. Determine. If it is not discharged, the process is terminated, and if it is discharged, the process proceeds to S2107.

In step S <b> 2107, the job control unit 1206 acquires media information registered in the paper feed tray buttons 1305 to 1310 from the UI processing unit 1205 in order to acquire media information registered in the paper feed tray.
At this time, the UI processing unit 1205 uses the CPU circuit unit 705 to read out the media information registered from the HDD 714 via the HDD I / F unit 712.
In the case of the third embodiment, media information is registered as shown in FIG. Therefore, the UI processing unit 1205 notifies the job control unit 1206 that “A4 plain paper” is registered for the paper feed tray buttons 1305 to 1310 and “A3 plain paper” is registered for the paper feed tray button 1311. Will return. That is, in the case of the third exemplary embodiment, in 2107, the job control unit 1206 specifies that the paper feed tray containing “A4 plain paper” is a paper feed tray corresponding to the paper feed tray buttons 1305 to 1310.

In step S <b> 2108, the job control unit 1206 instructs the device control unit 1201 to supply paper corresponding to the paper feed tray buttons 1305 to 1310 in order to open the paper feed tray corresponding to the paper feed tray buttons 1305 to 1310. Send a paper tray open request. Specifically, the job control unit 1206 sends an open request to the paper feed trays 301 to 303 of the external paper feed device 201 and the paper feed trays 301 to 303 of the external paper feed device 202 through the transmission processing unit 1209. 1201 is performed. Then, the device control unit 1201 controls the sheet feeding device control unit 709 using the CPU circuit unit 705, whereby the sheet feeding trays 301 to 303 of the external sheet feeding device 201 and the sheet feeding tray 301 of the external sheet feeding device 202 are used. The paper feed tray open process for .about.303 is executed.

In addition, it supplements about the process of S2108 of this embodiment. As described in the first embodiment, the process of S2108 may be a process of opening only the paper feed tray in which the medium is contained among the paper feed trays in which “A4 plain paper” is registered. In the third embodiment, as in the second embodiment, during the processes in S2107 to S2108, the operator may determine whether or not to open the paper feed tray.

As described above, according to the present invention, it is possible to open a paper feed tray containing a medium to be collected even when the operator can collect the medium without pressing a button or the like as in the finisher device.

[Fourth Embodiment]
In this embodiment, a case where a stack eject request can be given as an attribute of a print job will be described. The stack eject request as the print job attribute can be selected from stack eject at the start of job printing and stack eject after job printing is completed.
First, the stack eject at the start of job printing is to execute stack eject before printing a job, and to start a print job after stack ejection is completed. Further, “stack eject after completion of job printing” means that after a job is printed, stack ejection is performed, and after the stack ejection is completed, the next print job is executed. In either case, the lift table 508 of the large capacity stacker 204 is used for the purpose of preventing other print jobs from being mixed.

Next, a fourth embodiment will be described.
In the present embodiment, it is initially assumed that two jobs are scheduled as shown in FIG. 11, and that Job1 is currently completed. Further, it is assumed that the media information registered in each paper feed tray is set as shown in FIG. Furthermore, with respect to media collection, it is assumed that the operator sets “collect” A4 plain paper on the media collection setting screen of FIG.

On the premise of the above-described state, in the fourth embodiment, a case will be described in which stack ejection at the start of job printing and stack ejection after completion of job printing are used. In the fourth embodiment, when the stack ejection at the start of job printing is described, it is assumed that the stack eject at the start of job printing is set in the job attribute of Job2. Further, when explaining the stack ejection after the completion of job printing, the explanation will be made assuming that the stack ejection after the completion of job printing is set in the job attribute of Job1.
FIG. 18 is a screen displayed on the display device 1102 of the information processing apparatus 102, and is controlled by the UI processing unit 1205. This example is a screen that allows the operator to select whether or not to open the paper feed tray at the same time as stack ejection when there is collected media along with printed matter.

In FIG. 18, a button 2201 to be executed is a button that is selected when the operator opens the paper feed tray at the same time as stack ejection when there is a collection medium together with the printed matter. The stack eject only execution button 2202 is a button that is selected when the operator executes stack eject only regardless of whether or not there is a collection medium together with the printed matter.

Note that the button 2201 to be executed and the stack eject only execution button 2202 are not only selected by the operator, but may be automatically selected by the UI processing unit 1205 by time-out processing.

When the button 2201 to be executed is selected, the UI processing unit 1205 makes a paper feed tray open request to the job control unit 1206. Also, when the stack eject only execution button 2202 is pressed, the UI processing unit 1205 makes a paper tray non-open request to the job control unit 1206.

  19A to 19C are flowcharts illustrating a method for controlling the information processing apparatus according to the present embodiment. This example is a data processing example of the job control unit 1206 executed by the information processing apparatus 102. A program corresponding to each step is stored in the ROM 1107, and this processing is realized by being executed by the CPU 1101.

Steps S2301 to S2302 are loop processing until the job control unit 1206 receives a print job.
In step S2301, the job control unit 1206 manages the media ejected to the lift table 508. The job control unit 1206 holds the managed media information in the RAM 708 on the CPU circuit unit 705. The managed media information is initialized each time stack ejection is performed. In the first embodiment, “A4 plain paper” used by job 1 is managed as being stacked on the lift table 508.
In step S2302, the job control unit 1206 determines whether a print job has been received. If a print job has been received, the process advances to step S2303. If no print job has been received, the process returns to step S2301.

In step S2303, the job control unit 1206 checks the attribute of the received print job, and determines whether stack eject at the start of job printing or stack eject after completion of job printing is set. If neither is set, the process proceeds to S2304. If either stack eject at the start of job printing or stack eject after completion of job printing is set, the process proceeds to S2305.
In step S2304, the job control unit 1206 prints the received job and ends the process.

In step S <b> 2305, the job control unit 1206 determines whether stack ejection at the start of job printing is specified or whether stack ejection after job printing is completed is specified. If the job control unit 1206 determines that the stack eject before job printing has been designated, the process proceeds to S2306. If the job control unit 1206 determines that the stack eject after job printing has been designated, the process proceeds to S2319.

First, S2306 to S2318 will be described. Steps S2306 to S2318 are cases where stack ejection at the start of job printing is designated. In the description of S2306 to S2318, it is assumed that the stack eject at the start of job printing is designated in Job2.

In step S2306, the job control unit 1206 determines whether the preceding job has been printed. Specifically, it is determined whether or not Job1 has been printed. If it is determined that Job1 has been printed, the process proceeds to S2307. If it is determined that printing has not been completed, the determination in S2306 is repeated until Job1 has been printed.

S2307 to S2308 are loop processing in which the job control unit 1206 determines whether or not a medium is loaded on the eject table 509. Since the stack eject process cannot be physically performed in the state where the medium is loaded on the eject table 509, the job control unit 1206 does not perform the stack eject process in this state. With this processing, stack ejection processing and paper feed tray opening processing can be executed simultaneously.

In step S <b> 2307, the job control unit 1206 obtains the media loading state of the eject table 509 by controlling the eject table control unit 908 of the stacker control unit 710. In step S2308, the job control unit 1206 advances to step S2309 if no medium is loaded on the eject table 809, and returns to step S2307 if the medium is loaded.

In step S2309, the job control unit 1206 acquires media information scheduled to be used from the UI processing unit 1205 in order to acquire media usage information from the job scheduler. In the case of the fourth embodiment, since Job 2 uses “A3 plain paper”, the job control unit 1206 obtains information from the UI processing unit 1205 that “A3 plain paper” is a medium to be used.

Next, in step S2310, the job control unit 1206 acquires setting information performed on the media collection setting screen illustrated in FIG. 16 from the UI processing unit 1205 in order to obtain media information whose media collection setting is “collect”. In the case of the fourth embodiment, “A4 plain paper” is acquired because it is assumed that “collected” is set for “A4 plain paper”.

In step S2311, the job control unit 1206 compares the media information acquired in steps S2309 and S2310, and confirms that the media set to “collect” is not scheduled to be used in the job schedule. In the case of the fourth embodiment, “A4 plain paper” is set to “collect”, but there is no plan to use it.

Next, in step S2312, the job control unit 1206 uses the information acquired in step S2301 to store the media that is set to “collect” in step S2310 and is not scheduled to be used in the job schedule in the lift table 508. It is determined whether or not the paper is discharged. If it is not discharged, the process proceeds to S2317, and if it is discharged, the process proceeds to S2313.

In step S <b> 2313, the job control unit 1206 acquires media information registered in the paper feed tray buttons 1305 to 1310 from the UI processing unit 1205 in order to acquire media information registered in the paper feed tray. At this time, the UI processing unit 1205 uses the CPU circuit unit 705 to read out the media information registered from the HDD 714 via the HDD I / F unit 712. In the present embodiment, media information is registered as shown in FIG. Therefore, the UI processing unit 1205 notifies the job control unit 1206 that “A4 plain paper” is registered for the paper feed tray buttons 1305 to 1310 and “A3 plain paper” is registered for the paper feed tray button 1311. Will return. In other words, in the case of the fourth embodiment, in step S <b> 2313, the job control unit 1206 specifies that the paper feed tray containing “A4 plain paper” is a paper feed tray corresponding to the paper feed tray buttons 1305 to 1310. .

In step S <b> 2314, the job control unit 1206 instructs the UI processing unit 1205 to display the “feed tray open confirmation” screen illustrated in FIG. 15. When the operator presses a button 1901 to be executed, the UI processing unit 1205 makes a paper feed tray open request to the job control unit 1206. When the operator presses a button 1902 that is not executed, the UI processing unit 1205 makes a paper tray non-open request to the job control unit 1206.

In step S2315, if the job control unit 1206 receives a paper feed tray open request from the UI processing unit 1205, the process advances to step S2316. If a job tray non-open request is received, the job control unit 1206 advances to step S2317.

In step S <b> 2316, the job control unit 1206 instructs the device control unit 1201 of the paper feed tray corresponding to the paper feed tray buttons 1305 to 1310 to open the paper feed tray corresponding to the paper feed tray buttons 1305 to 1310. Send an open request. Specifically, the job control unit 1206 sends an open request to the paper feed trays 301 to 303 of the external paper feed device 201 and the paper feed trays 301 to 303 of the external paper feed device 202 through the transmission processing unit 1209. 1201 is performed.
Then, the device control unit 1201 controls the sheet feeding device control unit 709 using the CPU circuit unit 705, whereby the sheet feeding trays 301 to 303 of the external sheet feeding device 201 and the sheet feeding tray 301 of the external sheet feeding device 202 are used. The paper feed tray opening process for .about.303 is automatically executed.

In step S <b> 2317, the job control unit 1206 transmits a stack eject request to the device control unit 1201 through the transmission processing unit 1209 in order to perform stack ejection. When the device control unit 1201 receives the stack ejection request, the device control unit 1201 controls the stacker control unit 710 using the CPU circuit unit 705 to perform stack ejection processing on the large-capacity stacker 204. Finally, in step S2318, the job control unit 1206 prints the received job and ends the process.

The following describes S2319 to S2339. S2319 to S2339 are cases where stack ejection at the time of completion of job printing is designated. In the description of S2319 to S2339, the description will be made assuming that the job stack completion eject is specified in Job1. In step S2319, the job control unit 1206 instructs the UI processing unit 1205 to display the “paper tray open selection” screen illustrated in FIG. 18, and the process advances to step S2320.
In step S2320, the job control unit 1206 determines whether the received job has been printed. Specifically, it is determined whether or not Job1 has been printed. If Job1 has been printed, the process proceeds to S2321, and if printing has not been completed, the determination in S2320 is repeated until Job1 is printed.

In step S2321, the job control unit 1206 proceeds to step S2328 if a paper feed tray open request or a paper tray non-open request is received from the UI processing unit 1205, and proceeds to step S2322 if not received. .
Since S2322 to S2324 are the same processes as S2309 to S2311, description thereof is omitted.

In step S2325, the job control unit 1206 determines whether the media to be collected is loaded on the lift table 508. If it is determined that it is loaded, the process proceeds to S2326, and if it is determined that it is not loaded, the process proceeds to S2327.

In step S2326, the job control unit 1206 proceeds to step S2328 assuming that the operator selects the button 2201 to be executed. In step S2327, the job control unit 1206 proceeds to step S2328 assuming that the operator selects the stack eject only execution button 2202. If the medium to be collected is loaded on the lift table 508 even if the operator does not select it by the processing of S2325 to S2327, the paper feed tray on which the medium to be collected is set automatically. It becomes possible to open.

In S2328, if the job control unit 1206 determines that the button 2201 to be executed has been selected based on the selection result of the operator or the automatic selection result by the job control unit 1206, the process proceeds to S2329; Proceed to
Since S2329 to S2339 are the same processes as S2307 to S2318, description thereof will be omitted.

In addition, it supplements about the process of S2316 and S2338 of this embodiment. In the processing of S2316 and S2338, only the paper feed tray containing the media to be collected may be opened as in the first embodiment.

According to the present embodiment, by adding a print job collection setting to a print job, it is possible to open a paper feed tray containing media to be collected after confirming the print job schedule. . Further, since the paper feed tray is not opened when the remaining amount of media in the paper feed tray is zero, there is an advantage that the operator does not have to perform wasteful media collection work.

  Each process of the present invention can also be realized by executing software (program) acquired via a network or various storage media by a processing device (CPU, processor) such as a personal computer (computer).

  The present invention is not limited to the above embodiment, and various modifications (including organic combinations of the embodiments) are possible based on the spirit of the present invention, and these are excluded from the scope of the present invention. is not.

101 image forming apparatus 102 information processing apparatus 103 information processing apparatus 104 network

Claims (6)

Controlling a plurality of recording medium storing means for storing a recording medium, an image forming means for forming an image on the recording medium fed from the recording medium storing means, and a stacker for storing the recording medium on which the image is formed A control device,
Receiving means for receiving an instruction to take out the recording medium stored in the stacker;
A recording medium storing a recording medium corresponding to the recording medium stored in the stacker from the plurality of recording medium storage means in response to the receiving unit receiving an instruction to take out the recording medium stored in the stacker. And a control unit for specifying the storage unit and for bringing the specified recording medium storage unit into an open state. A determination unit for determining whether the recording medium stored in the stacker from which the receiving unit has received the take-out instruction is a recording medium set to be collected;
The control means includes
When the determination unit determines that the recording medium stored in the stacker that has received the take-out instruction is a recording medium that is set to be collected, the plurality of recording medium storage units store the recording medium stored in the stacker. Specify the recording medium storage means for storing the corresponding recording medium, and open the specified recording medium storage means,
When the determination unit determines that the recording medium stored in the stacker that has received the take-out instruction is not a recording medium that is set to be collected, a recording medium storage that stores a recording medium corresponding to the recording medium stored in the stacker 2. The control apparatus according to claim 1, wherein the means is not opened. The recording medium storage means has a locking mechanism;
The control device according to claim 1, wherein the control unit releases the lock mechanism.   Each recording medium storage means includes a recording medium detecting means for detecting the presence or absence of a remaining recording medium, and the control means, when any recording medium detecting means has not detected the remaining recording medium, 3. The control apparatus according to claim 1, wherein the recording medium storage means in which no residual remains is controlled not to be in an open state in which the recording medium can be taken out. Controlling a plurality of recording medium storing means for storing a recording medium, an image forming means for forming an image on the recording medium fed from the recording medium storing means, and a stacker for storing the recording medium on which the image is formed A control method for a control device, comprising:
A reception step of receiving an instruction to take out the recording medium stored in the stacker;
A recording medium storing a recording medium corresponding to the recording medium stored in the stacker from the plurality of recording medium storage means in response to receiving an instruction to take out the recording medium stored in the stacker in the receiving step And a control step of specifying the storage means and opening the specified recording medium storage means.   A program for causing a computer to execute the control method of the control device according to claim 5.

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