This application claims priority under 35 U.S.C. §119 to Japanese Patent Application No. 2013-32849 filed on Feb. 22, 2013, the entire disclosure of which is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a sheet processing apparatus connected to an image forming apparatus, an image forming system to which an image forming apparatus and a sheet processing apparatus are connected, or a sheet processing control method for controlling a sheet processing apparatus. In particular, the present invention relates to a technique of a purging process for, when a remaining sheet is remaining in the image forming system due to paper jam, appropriately ejecting the remaining sheet.
2. Description of Related Art
An image forming apparatus such as a printer and a copy machine which performs exposure by using a laser beam is required to deal with various image formation conditions. To meet this requirement, a plurality of sheet supply trays storing a plurality types of sheets are provided for each sheet. As the sheet supply tray, some image forming system have a sheet supply section, through which insert sheet is put in, provided in the downstream of an image forming section.
Further, in order to individually deal with a sheet on which various images are formed, an image forming system can be configured such that a sheet processing apparatus is connected with an image forming apparatus. In addition, in the case that various sheet processing apparatuses are connected to an image forming apparatus, a plurality of ejection sheet trays can be provided to be adapted to various sheet processing.
Note that if paper jam occurs in any position in the image forming system, the operation of the image forming system is suspended. Then, after the suspension of the operation, remaining sheets remaining in the image forming system are gathered and ejected to one ejection sheet tray. The technique in which remaining sheets in an image forming system are gathered and ejected to one ejection sheet tray is known as a purging process.
Note that about how to deal with residual sheets when paper jam occurs, related arts are described in Japanese Laid-Open Patent Application Publication No. Hei 10-250928 and Japanese Laid-Open Patent Application Publication No. Hei 11-292389.
In an image forming apparatus proposed in above Japanese Laid-Open Patent Application Publication No. Hei 10-250928, a plurality of vertically movable bin trays are provided in a sheet ejection section. Thus, a configuration is made such that a bin tray is moved to the sheet ejection section to which a sheet is actually ejected. It is proposed here that for the case that one of the bin trays is set as a tray for interruption, when jam occurs and the tray for interruption can be moved to a sheet ejection outlet before an unnecessary sheet is conveyed to the tray, the unnecessary sheet generated by the jam is ejected to the tray for interruption. However, there is disclosed no idea that a purge tray is set only for a purging process.
Alternatively, it is disclosed that in the image forming apparatus proposed in above Japanese Laid-Open Patent Application Publication No. Hei 11-292389, when paper jam occurs in any position in the image forming system, the purge tray is selected by a user, and the remaining sheets are gathered and ejected to the selected ejection sheet tray. However, there is disclosed no idea that a purge tray only for a purging process is automatically set.
Here, it is preferable that after sheet jam occurs, remaining sheets are gathered and automatically ejected as unnecessary sheets as a purging process, and the ejected unnecessary sheets are collectively discarded. However, in an actual image forming system, the unnecessary sheets in the purging process are ejected on a valid sheet on which an image has been normally formed. This causes a situation that the valid sheet and the unnecessary sheets are mixed. In addition, in the case that a plurality of users use an image forming system, there can be a situation that when a tray for the purging process is not determined, the valid sheet and the unnecessary sheet are mixed on the tray.
Note that such a purging process is also performed after the case of occurrence of blackout during image formation and an incorrect power-off operation during image formation, in the same manner for the case of the occurrence of paper jam. In addition, when the valid sheet and the unnecessary sheets are mixed as described above, a user needs to sort out the sheets into the valid sheet and the unnecessary sheet, confirming the sheet one by one. That is, conventionally there has been no method to appropriately eject remaining sheets.
A sheet processing apparatus which reflects an aspect of the present invention and receives and processes a sheet on which an image is formed by an image forming apparatus, the sheet processing apparatus including:
It is preferably that the controller sets a tray which is on the most downstream side in a sheet conveyance direction and to which the remaining sheet can be ejected is set as the purge tray.
In this case, it is preferable that the controller selects the tray on the most downstream side in the sheet conveyance direction as a candidate for the purge tray and determines whether the remaining sheets can be ejected to the selected tray, and in the case that the remaining sheet can be ejected to the selected tray, the controller sets the selected tray as the purge tray.
However, in the case that the remaining sheets cannot be ejected to the selected tray, the controller select a tray positioned one tray upstream from the selected tray as a candidate for a purge tray, and when the remaining sheets can be ejected to such selected tray, the controller sets such selected tray as the purge tray.
It is preferable that a jam detection section configured to detect sheet jam is provided, wherein the controller detects a position at which sheet jam occurs frequently, based on a history of a detection result of the jam detection section, and the controller sets a tray in a vicinity of the detected position as the purge tray.
It is preferable that the controller sets as the purge tray a tray to which an unnecessary sheet is ejected, wherein the unnecessary sheet is a sheet not to be used as an output object.
It is preferable that each tray included in the ejection section is equipped with a sensor configured to detect placement of sheet, and when the controller refers to detection results of the sensors and the placement of sheet is detected from a state that a sheet has not been ejected, the controller sets the tray in which the placement of sheet has been detected as the purge tray.
It is preferable that each tray included in the ejection section is equipped with a sensor configured to detect placement of sheet, and when the controller refers to detection results of the sensors and the placement of sheet is detected from a state that a sheet has not been ejected, the controller sets the tray in which the placement of sheet has been detected as the valid sheet tray or the purge tray according to a setting or a selection.
It is preferable that after ejecting the remaining sheet to the purge tray by the purging process, the controller controls such that the purging process is performed with the purge tray being set as the ejection destination until the remaining sheets ejected in the purge tray are removed.
It is preferable that after ejecting the remaining sheet to the purge tray by the purging process, the controller controls such that the purging process is performed with the purge tray set as the ejection destination until the power of the image forming system is cut off.
It is preferable that the controller controls, when conveying sheets including an unnecessary sheet such as a chart, a blank sheet, and an unnecessary tab sheet which are not to be used for an output object, such that the unnecessary sheet is ejected to the tray to which the remaining sheets are ejected by the purging process.
One or more embodiments of the present invention are shown by way of example, and not limitation, in the accompanying figures, in which:
With reference to the drawings, a configuration (hereinafter, referred to as an embodiment) for practicing the present invention will be described in detail below.
[Overall Configuration]
With reference to
As illustrated in
Here, the insert-sheet inserting device 200 has a function as a PI-PFU (Paper Insert-Paper Feed Unit) which inserts an insert sheet in a subsequent stage of the image forming apparatus 100. The sheet processing apparatus 300 is equipped with an insert-sheet inserting function and a sheet processing function. The sheet processing apparatus 300 is equipped with a sheet processing function. The sheet processing apparatus 400 is equipped with a sheet processing function. The sheet processing apparatus 500 is equipped with a sheet processing function. Note that the connection state of the devices of the image forming system is an example, and is not limited by the connection state illustrated in the drawings.
The image forming apparatus 100 is configured to have a controller 101, a communication unit 102, an operation/display section 103, a storage section 104, a sheet supply section 105, a conveyance section 107, a jam detection section 115, a document reading section 120, an image data storage section 130, an image processing section 140, and an image forming section 150. Note that the sheet on which an image is formed in the image forming apparatus 100 is conveyed to the insert-sheet inserting device 200 in the subsequent stage.
Here, the controller 101 controls the sections in the image forming apparatus 100 and the whole of the system. The communication unit 102 has a function to communicate with other devices connected thereto. The operation/display section 103 informs the operator to the controller 101 of operation input signals according to the operation input of an operator and displays a state of the image forming apparatus 100. The storage section 104 stores a control program and various setting data and is used as a working area of the control program. The sheet supply section 105 supplies sheets stored in a tray to the image forming section 150. The conveyance section 107 conveys a sheet which is supplied and on which an image is to be formed, at a predetermined speed. The jam detection section 115 detects sheet jam (jam) by using sensors provided at various positions in the image forming apparatus 100. The document reading section 120 scans a document to generate image data The image data storage section 130 stores image data for forming an image and various data. The image processing section 140 performs various kinds of image processing required to form an image. The image forming section 150 performs printing (hereinafter, referred to as “image formation”) based on an image formation instruction and image data having been image-processed.
The insert-sheet inserting device 200 is connected to the stage subsequent to the image forming apparatus 100 and is configured to have a controller 201, a communication unit 202, a storage section 204, an insertion path selection section 205, a conveyance section 210, a jam detection section 215, and a sheet insertion section 220. Note that a sheet having been conveyed through the insert-sheet inserting device 200 is conveyed toward the sheet processing apparatus 300 in the subsequent stage.
Here, the controller 201 controls the sections in the insert-sheet inserting device 200. The communication unit 202 has a function to communicate with the image forming apparatus 100. The storage section 204 stores a control program and various setting data and is used as a working area of the control program. The insertion path selection section 205 selects an insertion path in which an insert sheet is inserted. The conveyance section 210 conveys a sheet at a predetermined speed. The jam detection section 215 detects sheet jam (jam) by using sensors provided at various positions in the insert-sheet inserting device 200. The sheet insertion section 220 inserts a stored insert sheet in the sheet conveyance path.
The sheet processing apparatus 300 is connected to the subsequent stage of the image forming apparatus 100 and the insert-sheet inserting device 200 and is configured to have a controller 301, a communication unit 302, a storage section 304, an insertion path selection section 305, an ejection path selection section 306, a conveyance section 310, a jam detection section 315, a sheet insertion section 320, a punching section 330, a folding section 340, and a sub-tray ejection section 390S. Note that the sheet having been conveyed through the sheet processing apparatus 300 is conveyed toward the sheet processing apparatus 400 in the subsequent stage.
Here, the controller 301 controls sections in the sheet processing apparatus 300. The communication unit 302 has a function to communicate with the image forming apparatus 100. The storage section 304 stores a control program and various setting data and is used as a working area of the control program. The insertion path selection section 305 selects an insertion path in which an insert sheet is inserted. The ejection path selection section 306 selects an ejection path through which a post-processed sheet bundle is ejected. The conveyance section 310 conveys a sheet at a predetermined speed. The jam detection section 315 detects sheet jam (jam) by using sensors provided at various positions in the sheet processing apparatus 300. The sheet insertion section 320 has a function to insert an insert sheet stored in a PI (Paper Inserter) section in the sheet conveyance path. The punching section 330 has a function to punch file holes. The folding section 340 have a function to fold a sheet at centerfold or threefold. The sub-tray ejection section 390S has a function to eject a sheet to a sub tray as an ejection destination.
The sheet processing apparatus 400 is connected to the subsequent stage of the sheet processing apparatus 300 and is configured to have a controller 401, a communication unit 402, a storage section 404, an ejection path selection section 406, a conveyance section 410, a jam detection section 415, a folding section 440, an alignment section 450, a center stapling section 460, a cutting section 480, and a sub-tray ejection section 490S. Note that the sheet having been conveyed through the sheet processing apparatus 400 is conveyed toward the sheet processing apparatus 500 in the subsequent stage.
Here, the controller 401 controls sections in the sheet processing apparatus 400. The communication unit 402 has a function to communicate with the image forming apparatus 100, the sheet processing apparatus 300, and the like. The storage section 404 stores a control program and various setting data and is used as a working area of the control program. The ejection path selection section 406 selects an ejection path through which a post-processed sheet bundle is ejected. The conveyance section 410 conveys a sheet at a predetermined speed. The jam detection section 415 detects sheet jam (jam) by using sensors provided at various positions in the sheet processing apparatus 400. The folding section 440 has a function to fold a sheet at centerfold or threefold. The alignment section 450 has a function to align a plurality of folded sheets. The center stapling section 460 has a function to staple a folded and aligned sheet bundle. The cutting section 480 has a function to cut off the fore edge of the center-folded sheet bundle. The sub-tray ejection section 490S ejects a sheet to a sub tray as an ejection destination.
The sheet processing apparatus 500 is connected to the subsequent stage of the sheet processing apparatus 400 and is configured to have a controller 501, a communication unit 502, a storage section 504, an ejection path selection section 506, a conveyance section 510, a detection section 515, an alignment section 550, a side stapling section 560, a sub-tray ejection section 590S, and a main-tray ejection section 590M.
Here, the controller 501 controls the sections in the sheet processing apparatus 500. The communication unit 502 has a function to communicate with the image forming apparatus 100, the sheet processing apparatus 400, and the like. The storage section 504 stores a control program and various setting data and is used as a working area of the control program. The ejection path selection section 506 selects an ejection path through which the post-processed sheet bundle is ejected. The conveyance section 510 conveys a sheet at a predetermined speed. The jam detection section 515 detects sheet jam (jam) by using sensors provided at various positions in the sheet processing apparatus 500. The alignment section 550 has a function to align a plurality of sheets. The side stapling section 560 has a function to staple an aligned sheet bundle. The sub-tray ejection section 590S has a function to eject a sheet to a sub tray as an ejection destination. The main-tray ejection section 590M has a function to eject a sheet and a booklet to a main tray as an ejection destination.
Note that the sheet processing functions and the sections in the above sheet processing apparatuses 300-500 are examples and are not limited thereto.
Below, the sheet processing apparatus, the image forming system, and the sheet processing control method of the embodiment will be described, following the procedure of the operation, with reference to a flow chart (
Note that in the embodiment the purging process has two meanings: to gather and eject, after the occurrence of jam, the remaining sheets which can be ejected to one ejection sheet tray; and to gather and eject, after the jammed sheet is removed after the occurrence of jam, the remaining sheets which can be ejected to one ejection sheet tray. In the following description of the embodiment, the purging process has the both meanings.
First, the controller 101 performs initial setting (step S101 in
Here, in a setting screen 103Ga1 in the operation/display screen 103G (shown in
In addition, there are options such as, when sheets are not ejected from the apparatus but placed in the tray, the tray is assigned to the purge tray (purge tray automatic selection), the tray is assigned to the valid sheet tray, nothing is done.
In the screen example in
When the user completed the setting on the setting screen 103Ga1 in the operation/display screen 103G, and the user press an OK button 103Gb1, the controller 101 stores the initial settings of the purging process in the storage section 104 and the like.
Then, an instruction to start the job related to image formation is input (step S102 in
Here, the controller 101 determines, by referring to job information about the job to be performed, a sheet from which sheet supply tray are supplied or inserted in order of the image formation. When a sheet is supplied from the sheet supply section 105 in the image forming apparatus 100, the controller 101 instructs the sheet supply section 105 to supply a sheet. When a sheet is inserted from the sheet insertion section 220 of the insert-sheet inserting device 200, the controller 101 instructs, by way of the controller 201, the sheet insertion section 220 to insert the sheet. When a sheet is inserted from the sheet insertion section 320 of the sheet processing apparatus 300, the controller 101 instructs, by way of the controller 301, the sheet insertion section 320 to insert the sheet.
Note that, when the occurrence of sheet jam (jam) is not detected (step S104 in
At this time, an occurrence of sheet jam (jam) is detected by any of the jam detection sections 115-515 (
At this time, since the remaining sheets are conveyed to the downstream side to be ejected, the controller 101 determines possibility of ejection for each remaining sheet in order from the most downstream side. If it is determined to be impossible to eject the remaining sheet (
If it is possible to eject the remaining sheet (
If there is a purge tray (
If there is a purge tray (
On the other hand, there is no purge tray (
After repeating the above process with respect to the all remaining sheets remaining in the image forming system (
Purge Tray Automatic Selection Process (1)
Here, as the purge tray automatic selection process, the position of the tray in the image forming system is used as a parameter for performing automatic selection. First, the controller 101 selects a tray disposed in the most downstream side as a candidate for a purge tray (
Then, the controller 101 determines whether it is possible to eject the remaining sheet by the purging process to the tray selected as the candidate for the purge tray (
If it is impossible to eject the remaining sheet by the purging process to the tray selected as the candidate for the purge tray (
In the above-described manner, the controller 101 selects, as the candidate for the purge tray, the tray which is located on the most downstream within a range in which the remaining sheet can be ejected (
Then the candidate for the purge tray automatically selected in this way (
By setting as the purge tray the tray which is on the most downstream side within the range in which the remaining sheet can be ejected, it is easy to gather, in one place, the remaining sheets which are conveyed to the downstream side by the purging process and to eject them without being mixed with other sheets as far as possible.
Purge Tray Automatic Selection Process (2)
Here, as the purge tray automatic selection process, a position in the image forming system at which jam frequently occurs is used as a parameter for performing automatic selection. The controller 101 controls in the image forming system such that a jam detection result including information about an occurrence of jam is stored in the storage section 104 every time the jam occurs. After that, the controller 101 recalls from the storage section 104 a history in which the results of jam detection in the image forming system are accumulated, and obtains the position at which jams occur most frequently (
Then, the controller 101 selects the tray located in the vicinity of the obtained position as the candidate for the purge tray (
In the example illustrated in
Then, the controller 101 determines whether the remaining sheet can be ejected by the purging process to the tray selected as the candidate for the purge tray (
Here, it is impossible to eject the remaining sheet by the purging process to the tray selected as the candidate for the purge tray (
As described above, the controller 101 selects, as the candidate for the purge tray (
In the case that the tray on the upstream side of a jam frequently occurring position is set as the purge tray, that tray is used for the purging process for ejecting the remaining sheet which can be ejected, after the jam has occurred. On the other hand, in the case that the tray on the downstream side of the jam frequently occurring position is set as the purge tray, that tray is used for the purging process for ejecting the remaining sheet which can be rejected, after the jammed sheet has been removed after the occurrence of jam.
By setting as the purge tray the tray located in the vicinity of the position at which jam occurs most frequently and which is in the range in which the remaining sheet can be rejected, the following two operations can be easy being performed in close places: an operation for removing the jammed sheet from inside of the apparatus as a jam recovery process; and an operation for removing from the purge tray the remaining sheet ejected by the purging process. Thus, the remaining sheet ejected by the purging process can be in such a state that the sheet can be removed easily and surely without being mixes with other sheets.
Purge Tray Automatic Selection Process (3)
Here, as the purge tray automatic selection process, the tray to which an unnecessary sheet generated in the image formation, the image adjustment, and the like is ejected is assigned to an object of the purge tray automatic selection. Note that the unnecessary sheet is a sheet which is not used for an output object and is, for example, an unnecessary tab sheet, an unnecessary blank sheet, an unnecessary partition sheet, a chart sheet for image adjustment, and the like. Further, the unnecessary sheet corresponds to various types of sheets other than the sheets which are used as output objects by a normal image formation.
Note that
First, the controller 101 confirms, when ejecting various sheets in any of the ejection sections (
Here, if the sheet to be ejected is not an unnecessary sheet (
Here, if the ejection destination of an unnecessary sheet is the purge tray (
By setting as the purge tray the tray to which the unnecessary sheet not to be used as an output object is ejected, the remaining sheet to be ejected by the purging process is ejected to the same tray as an unnecessary sheet is ejected, as a result the remaining sheet related to the purging process is surely ejected without being mixed with valid sheets.
In addition, by controlling such that conveying sheets including an unnecessary sheet not to be used as an output object and ejecting the unnecessary sheet to the purge tray when ejecting the unnecessary sheet (
Purge Tray Automatic Selection Process (4)
Here, each tray in each of the ejection sections is equipped with a sensor for detecting placement of sheet. As the purge tray automatic selection process, the controller 101 refers to the detection results of the sensors, and in the case that the placement of sheet is detected from the state that no sheet is ejected from the apparatus, the controller 101 sets the tray in which the placement of sheet is detected as the purge tray.
Note that
If no sheet is placed in the tray, in other words, no change occurs to the sensor of each tray (
In this case, not only in the initial setting but when a determination becomes necessary (
Note that “the case that placement of sheet on any of the trays is detected from the state that no sheet is ejected from the apparatus” is “the case that some sort of sheet is placed on a tray by a user.” When a sheet is placed by a user in this way, the placed sheet is not a valid sheet in many cases. For this reason, it is preferable to select “Set as Purge Tray” with respect to the tray on which the sheet is placed, in the item of “Setting of Tray upon Placement of Sheet” (
As described above, by setting, if placement of sheet on any of the trays is detected from the state that no sheet is ejected from the apparatus (
Purge Tray Automatic Selection Process (5)
Here, each tray in each of the ejection sections is equipped with a sensor for detecting placement of sheet. As the purge tray automatic selection process, the controller 101 automatically cancels the setting of the purge tray, based on the existence/non-existence or the change in the placing state of the selected purge tray.
First, the controller 101 recalls the setting of the purge tray from the storage section 104 or the register in the controller 101 (
Alternatively, the setting as the purge tray is set (
If no sheet (
In the case that a sheet is placed (
When the setting of the purge tray has been cancelled in this manner, an appropriate purge tray will be newly selected by the above-described automatic selection. In addition, the cancelled tray can be used for purposes other than the purge tray. Further, in the case that a plurality of purge trays are set, useless setting for the tray from which a remaining sheet has been removed can be cancelled. Therefore, it is possible to use the tray effectively.
Here, the setting of the purge tray is made to be cancelled upon the removal of sheets; however, a setting can be done in which the setting of the purge tray is maintained, based on the initial setting, as long as the image forming system is in the state of power-on. In this case, when the purging process is performed in the period since the image forming system is turned on until the system is turned off; and it is possible to appropriately eject a remaining sheet without being mixes with a valid sheet and an unnecessary sheet.
The embodiment of the present invention has been described with reference to the drawings; however, specific configurations or numbers are not limited to those shown in the embodiment, and modifications and changes are included in the present invention unless they depart from the spirit of the present invention.
In the above-description of the embodiment, the controller 101 in the image forming apparatus 100 surely controls when performing the purging process; however, the embodiment does not limit the invention.
In order to perform the same purging process as described above, the controllers 201-501 in the devices 200-500 other than the image forming apparatus 100 may instruct other controllers to perform the control of the above purging process.
In this case, when devices other than the image forming apparatus 100 which controls the purging process has an operation/display section, that operation/display section may be used. Alternatively, when an operation/display section is not equipped, it may be possible that information is sent to the image forming apparatus 100 and to use the operation/display section 103 in the image forming apparatus 100 to receive settings and display results.
In other words, the controllers 301-501, on behalf of the controller 101, in the sheet processing apparatuses 300-500 having a tray which can be set as the purge tray can perform the purge tray automatic selection process.
In this case, any of the controllers 301-501 can obtain necessary information from the controller 101 and take the lead completely instead of the controller 101. In this case, a plurality of controllers in the controllers 301-501 may obtain necessary information from the controller 101 and collectively take the lead completely instead of the controller 101.
Alternatively, the controllers 301-501 can perform the purge tray automatic selection process and then inform the controller 101 of a selection result of the purge tray so that the controller 101 can generally control.
In the above embodiment, it is assumed that the remaining sheet is created by sheet jam (jam); however, the embodiment does not limit the invention. For example, also when the conveyance of a sheet stops when forming an image due to a trouble (for example, trouble with a motor or a gear for driving a conveyance roller) in any part in the image forming system or a blackout, and a remaining sheet is created, the above embodiments can be applied.
Number | Date | Country | Kind |
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2013-032849 | Feb 2013 | JP | national |