JP2015174436A - Image formation apparatus, image formation system, image formation method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable proper sheet processing by a sheet processing apparatus even when an image formation apparatus and the sheet processing apparatus which are separately set are connected.SOLUTION: An image formation apparatus 10 is connected to a second sheet processing apparatus 200 for performing predetermined sheet processing to a sheet, on which an image is formed, based on preset regarding the predetermined sheet processing. A control unit 20 acquires sheet size related information that is related to the change in the sheet size during a job executing the predetermined sheet processing, determines whether or not reset of the preset is necessary based on the acquired sheet size related information, and if the reset of the preset is determined to be necessary, discharges a sheet before the predetermined sheet processing to a sub-tray as a sample in a state of interrupting the execution of the job.

Description

  The present invention relates to an image forming apparatus, an image forming system, an image forming method, and a program.

Conventionally, by connecting a sheet processing apparatus to an image forming apparatus, it is possible to perform inline sheet processing such as saddle stitching processing on a sheet on which an image is formed.
As described above, in the image forming system including the image forming apparatus and the sheet processing apparatus, various proposals have been made for improving the workability of the user. For example, an ATS (Auto Tray Select) function that automatically switches a paper feed tray when a paper out occurs during output is known (see, for example, Patent Document 1).

  By the way, when information cannot be shared between the image forming apparatus and the paper processing apparatus, when starting a job, in addition to setting the job in the image forming apparatus, the paper processing apparatus can also perform, for example, paper processing. It is necessary to make individual sheet settings such as the size of the sheet to be printed and the thickness of the sheet bundle.

JP 2000-143017 A

  However, once the paper is set when starting the job, even if the paper size is changed during the job due to, for example, a paper lot being switched by the ATS function, the paper processing apparatus There is a problem in that the paper setting cannot be reset, the paper size cannot be changed, and appropriate paper processing cannot be performed.

  An object of the present invention is to enable an appropriate sheet processing to be performed by a sheet processing apparatus even when an image forming apparatus and a sheet processing apparatus that are set separately are connected.

In order to solve the above problems, according to one aspect of the present invention,
In an image forming apparatus connected to a paper processing apparatus that performs predetermined paper processing on a paper on which an image is formed based on a predetermined setting related to predetermined paper processing,
Obtaining means for obtaining paper size related information related to a change in paper size during a job for executing the predetermined paper processing;
Resetting determination means for determining whether or not resetting of the presetting is necessary based on the paper size related information acquired by the acquiring means;
If it is determined by the reset determining means that the resetting of the preset is necessary, the paper before the predetermined paper processing is discharged as a sample to the discharge unit in a state where the execution of the job is interrupted. Sample discharging means;
It is characterized by providing.

According to another aspect of the invention,
The image forming apparatus described above;
A paper processing device that performs the predetermined paper processing on paper on which an image is formed by the image forming device;
In an image forming system comprising:
The paper processing apparatus includes:
The image processing apparatus is characterized by further comprising setting means for performing advance setting relating to the predetermined sheet processing.

According to another aspect of the invention,
An image forming method performed in an image forming apparatus connected to a sheet processing apparatus that performs predetermined sheet processing on a sheet on which an image is formed based on a preset setting related to predetermined sheet processing,
An acquisition step of acquiring paper size related information related to a change in paper size during a job for executing the predetermined paper processing;
Based on the paper size related information acquired by the acquisition step, a reset determination step of determining whether or not resetting of the preset is necessary;
If it is determined in the reset determining step that the resetting of the preset is necessary, the sheet before the predetermined sheet processing is discharged to the discharge unit as a sample in a state where the execution of the job is interrupted. A sample discharge process;
It is characterized by having.

According to another aspect of the invention,
Computer
An acquisition means for acquiring paper size related information related to a change in paper size during a job for executing predetermined paper processing;
Resetting determination means for determining whether resetting of the presetting is necessary based on the paper size related information acquired by the acquiring means;
If it is determined by the reset determining means that the resetting of the preset is necessary, the paper before the predetermined paper processing is discharged as a sample to the discharge unit in a state where the execution of the job is interrupted. Sample discharging means,
It is a program characterized by making it function as.

  According to the present invention, when an image forming apparatus and a paper processing apparatus that are set separately are connected, when the paper processing apparatus needs to be reset in the middle of the job, the execution of the job is interrupted. Since the sample is discharged, it is possible to reset the paper in the paper processing apparatus, and it is possible to cause the paper processing apparatus to perform appropriate paper processing.

1 is a diagram illustrating a configuration of an image forming system in an embodiment. 1 is a diagram illustrating an electrical configuration of an image forming system in an embodiment. It is a flowchart which shows the control procedure in embodiment. It is a flowchart which shows the control procedure in embodiment. It is a flowchart which shows the control procedure in embodiment. It is an example of the dialog which makes a user select the presence or absence of discharge of a sample. It is an example of the dialog prompting the user to remeasure the sample.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram illustrating an image forming system according to the present embodiment.

  In the image forming system 1, a first sheet processing apparatus 100 is connected to the image forming apparatus 10, and a second sheet processing apparatus 200 is further connected to the first sheet processing apparatus 100.

In the present embodiment, as the second paper processing apparatus 200, for example, a paper processing apparatus in which information communication with a connection destination image forming apparatus or paper processing apparatus is restricted can be used.
For example, a paper processing apparatus manufactured by a manufacturer different from the manufacturer of the connection destination image forming apparatus or paper processing apparatus may correspond to this.
In the present embodiment, the second sheet processing apparatus 200 is a sheet that is scheduled to be processed as a preset for sheet processing before the start of the job, separately from the image forming apparatus or the sheet processing apparatus that is the connection destination. The size (vertical and horizontal dimensions), the thickness of the sheet bundle, and the like are set, and the set values are reflected in the sheet processing operation.
Here, a sheet (sheet bundle) to be processed is discharged as a sample before starting the job, and the user measures the sample and inputs it to the second sheet processing apparatus 200 to set the sheet. Is made.

  The image forming apparatus 10 includes a main body 10A and a print controller 10B.

  The main body unit 10 </ b> A includes a printing unit 11, a paper feeding unit 12, and an operation display unit 13.

  The print unit 11 has a known configuration for forming an image on a sheet by, for example, electrophotography. The image forming method is not limited to the electrophotographic method.

The paper feeding unit 12 stores a plurality of sheets, feeds the sheets one by one, and conveys them to the printing unit 11. The paper feed unit 12 includes a plurality of paper feed trays, and each paper feed tray stores a bundle of sheets classified by size and type.
Further, the paper feed unit 12 has an automatic tray switching (ATS) function that automatically switches the paper feed tray when the paper runs out during print output. Priorities for switching the paper feed tray are set in advance.
The paper feed unit 12 outputs an electrical signal to the control unit 20 in response to switching of the paper feed tray or opening of the paper feed tray.

  The operation display unit 13 includes a display unit and an operation unit. The operation unit accepts a user operation, and necessary information is displayed on the display unit. Although not shown, the information may be displayed on an external terminal connected to the image forming apparatus 10 via a network or the like, and a user operation may be received from the external terminal.

  The print controller 10B is connected to the main body 10A. The print controller 10B controls the operation of the main unit 10A according to information input from the operation display unit 13 or the external terminal. As shown in the figure, the print controller 10B may be connected separately from the main body 10A, or the function may be incorporated in the main body 10A.

  Image formation by the image forming apparatus 10 is performed based on an image file or a document file stored in the image forming apparatus 10 or received from an external apparatus via a network, or a document image is read. It may be done by. Although not shown, the image forming apparatus 10 may be provided with a reading unit that optically reads an image on a document to be imaged.

  The paper fed by the paper feeding unit 12 is conveyed to the printing unit 11 and image formation is performed based on the print data. The sheet on which the image has been formed is discharged from the main body 10A by the discharge roller 14 and is sent into the first sheet processing apparatus 100.

  The first sheet processing apparatus 100 according to the present embodiment has a function as a large stacker for stacking sheets after image formation. The first sheet processing apparatus 100 includes a carry-in roller 101, a branching unit 102, a sub-tray 103, a large-capacity stacker 104, a carry-out roller 105, and the like.

  The paper discharged from the main body 10 </ b> A of the image forming apparatus 10 is carried into the first paper processing apparatus 100 by the carry-in roller 101. The loaded paper is guided to one of the transport paths a, b, and c by the branching unit 102.

  The conveyance path a is a conveyance path that extends in the horizontal direction in FIG. 1 from the branching unit 102, and is a conveyance path that conveys the sheet to the second sheet processing apparatus 200. The paper on which paper processing is performed by the second paper processing device 200 is transported through the transport path a by the guidance of the branching unit 102, and transported to the second paper processing device 200 by the carry-out roller 105.

  The conveyance path b is a conveyance path that extends from the branch portion 102 in the upper left direction in FIG. 1 and is a conveyance path for discharging the paper to the sub-tray 103. The sheet discharged to the sub-tray 103 is conveyed along the conveyance path b by the guidance of the branching unit 102. The sub-tray 103 is, for example, a tray from which a sheet (sheet bundle) to be processed is discharged as a sample as a discharge unit.

  The conveyance path c is a conveyance path that extends in the lower left direction in FIG. 1 from the branch portion 102, and is a conveyance path for discharging paper to the large-capacity stacker 104. The sheet discharged to the large-capacity stacker 104 is conveyed along the conveyance path c by the guidance of the branching unit 102.

  The second sheet processing apparatus 200 in the present embodiment is a sheet processing apparatus having a function of performing saddle stitching processing on a plurality of sheets. The second sheet processing apparatus 200 includes a carry-in roller 201, a branching unit 202, a saddle stitching processing unit 203, a stacker 204, a discharge tray 205, an operation display unit 206, and the like.

  The paper discharged from the first paper processing apparatus 100 is carried into the second paper processing apparatus 200 by the carry-in roller 201. The loaded paper is guided to one of the transport paths d and e by the branch unit 202.

  The conveyance path d is a conveyance path extending from the branch unit 202 in the lower left direction in FIG. 1. The conveyance path d conveys the sheet to the saddle stitching processing unit 203 and further conveys the sheet subjected to the saddle stitching process to the stacker 204. Road. Although the detailed description of the configuration of the saddle stitching processing unit 203 is omitted, the saddle stitching processing unit 203 performs a stapling process at a predetermined position in the central portion of the transported paper bundle, and the paper bundle at the central portion. Is folded in half. The sheet bundle subjected to the saddle stitching process is discharged to the stacker 204.

  The conveyance path e is a conveyance path extending in the horizontal direction in FIG. 1 from the branching unit 202 and is a conveyance path for discharging the paper to the discharge tray 205.

  The operation display unit 206 includes an operation unit 206a and a display unit 206b. The operation unit 206a accepts user operations, and necessary information is displayed on the display unit 206b.

The operation unit 206a includes various keys and accepts operations from the user. The operation unit 206a is used, for example, when a user inputs a measurement result of a sample as a predetermined setting for predetermined paper processing.
The sample measurement results are, for example, values measured by the user such as the paper size (paper vertical and horizontal widths), the paper bundle thickness, and the like.

  The display unit 206b displays information related to paper processing performed in the second paper processing apparatus 200. The display unit 206b displays, for example, the measurement result of the job sample input by the user.

  The first sheet processing apparatus 100 and the second sheet processing apparatus 200 may be sheet processing apparatuses having functions different from the functions described above.

  FIG. 2 is a block diagram showing an electrical configuration of the image forming system 1 in the present embodiment. The components already described in FIG. 1 are denoted by the same reference numerals as those in FIG. 1, and detailed descriptions thereof are omitted.

  The main body 10A of the image forming apparatus 10 includes a print unit 11, an operation display unit 13, a control unit 20, a serial communication unit 21, an image data storage unit 22, a transport unit 23, a storage unit 24, a print controller communication unit 25, temperature and humidity. A sensor 26 and the like are provided.

  The control unit 20 receives various signals from each unit and issues an instruction to control the operation of each unit of the main body unit 10A.

  The serial communication unit 21 transmits / receives information to / from the first sheet processing apparatus 100 by serial communication. In the present embodiment, the first paper processing apparatus 100 is a paper processing apparatus capable of serial communication with the image forming apparatus 10.

  The image forming apparatus 10 transmits and receives various information to and from the first sheet processing apparatus 100 via the serial communication unit 21. The main information includes the type of the first paper processing apparatus 100, the paper discharge information from the discharge roller 14, the abnormality occurrence information, the status of the first paper processing apparatus 100, and the like.

  With respect to the type of the sheet processing apparatus, for example, the user or the like may input the name or model number of the sheet processing apparatus on the operation display unit 13 of the image forming apparatus 10.

  Further, when the first paper processing apparatus 100 performs paper processing on paper, setting information and the like regarding paper processing performed in the first paper processing apparatus 100 are also exchanged. Examples of the setting information include paper size, paper type, weight, paper processing parameters, and the like. When a job is input in the image forming apparatus 10, the setting information included in the job is transmitted to the first paper processing apparatus 100 via the serial communication unit 21, so that the first paper processing apparatus 100 The operation of each part of the first sheet processing apparatus 100 is controlled based on the received setting information, and desired sheet processing is performed on the sheet.

  The image data storage unit 22 includes, for example, a hard disk drive (HDD), and stores various data such as image data and document data that can be an object of image formation.

  The transport unit 23 transports the paper fed by the paper feed unit 12 from the paper feed unit 12 to the print unit 11 and from the print unit 11 to the first paper processing apparatus 100.

  The storage unit 24 is a part that stores information related to jobs for which execution instructions have been given. The information related to the job includes, for example, the type of paper processing (for example, bookbinding processing), necessity of sample output, various parameters regarding paper processing, and the like. The storage unit 24 can be configured to store information related to jobs by dividing an area for each sheet processing apparatus connected to the image forming apparatus 10.

  The print controller communication unit 25 is a part that transmits and receives information to and from the print controller 10B.

  The temperature / humidity sensor 26 detects the temperature and humidity in the image forming apparatus 10. The temperature / humidity sensor 26 outputs an electrical signal corresponding to the temperature and humidity in the machine to the control unit 20.

  The first sheet processing apparatus 100 includes a branching unit 102, a first sheet processing apparatus control unit 110, a serial communication unit 111, a storage unit 112, a sub-tray discharge unit 113, a parallel communication unit 114, a stacker stacking unit 115, and a conveyance unit 116. Is provided.

  The first paper processing device control unit 110 receives signals from each unit and controls the operation of each unit in the first paper processing device 100.

  The serial communication unit 111 transmits and receives information to and from the image forming apparatus 10 by serial communication.

  Various information is stored in the storage unit 112. For example, a table or the like indicating the amount of movement of each part of the paper processing apparatus associated with information such as the paper size transmitted from the image forming apparatus 10 is stored.

  The sub-tray discharge unit 113 distributes the conveyed paper to the transport path b by the branch unit 102 and discharges the transported paper to the sub-tray 103.

  The parallel communication unit 114 transmits and receives information to and from the second sheet processing apparatus 200 by parallel communication. In the present embodiment, the second sheet processing apparatus 200 performs serial communication with the first sheet processing apparatus 100, for example, by an apparatus made by a different manufacturer from the image forming apparatus 10 and the first sheet processing apparatus 100. It is assumed that the paper processing apparatus cannot be performed.

  According to serial communication, large-capacity signals can be transmitted / received, so that information on the job, information on paper processing parameters, and the like can be transmitted / received when a job is executed. On the other hand, in parallel communication, only limited information can be transmitted and received. Information that can be transmitted / received by parallel communication mainly includes information essential for executing paper processing, such as the type of paper processing device, operation start command, paper discharge signal, paper processing type, abnormality occurrence information, and the like. .

  The stacker stacking unit 115 is sorted by the branching unit 102 to the transport path c and stacks the transported paper on the large-capacity stacker 104.

  The transport unit 116 transports the paper in the first paper processing apparatus 100.

  The second sheet processing apparatus 200 includes a branch unit 202, a second sheet processing apparatus control unit 210, a parallel communication unit 211, a storage unit 214, a stack alignment unit 203a, a saddle stitching staple unit 203b, a folding unit 203c, and a conveyance unit 212. , A booklet stacking unit 213, an operation display unit 206, and the like.

  The second paper processing device control unit 210 receives signals from each unit and controls the operation of each unit in the second paper processing device 200.

  The parallel communication unit 211 transmits and receives information to and from the first sheet processing apparatus 100 by parallel communication. The type of the second sheet processing apparatus 200 is transmitted to the first sheet processing apparatus 100 and finally transmitted to the image forming apparatus 10 by parallel communication.

  As described above, even in an image forming system in which a plurality of sheet processing apparatuses are connected, information specifying all the sheet processing apparatuses is transmitted to the image forming apparatus 10. That is, the control unit 20 of the image forming apparatus 10 can identify all connected sheet processing apparatuses.

  Various information is stored in the storage unit 214. For example, prior information relating to paper processing executed by the second paper processing apparatus 200 is stored.

  The stack aligning unit 203a aligns the sheets stacked on the stack unit (not shown) in the saddle stitching processing unit 203.

  The saddle stitching staple unit 203b performs a staple process on the central portion of the sheet bundle aligned by the stack aligning unit 203a.

  The folding unit 203c performs a process of folding the sheet bundle that has been stapled by the saddle stitching staple unit 203b. Specifically, the booklet is completed by bending the sheet bundle along the position where the stapling process has been performed.

  The transport unit 212 transports a sheet or a bundle of sheets in the second sheet processing apparatus 200.

  The booklet stacking unit 213 stacks the sheet bundle subjected to the saddle stitching processing by the saddle stitching processing unit 203 on the stacker 204.

Next, a procedure for executing a job in the image forming system 1 will be described.
Note that the job in this embodiment is a job in which a sheet equivalent to a sheet processed by the second sheet processing apparatus 200 is output as a sample, the sample is measured, and a measured value is input. . For example, a bookbinding job corresponds to this.

When starting a job, first, the job is set on the operation display unit 13 of the image forming apparatus 10. Next, when a sample for paper processing is output to the second paper processing apparatus 200 and a measurement sample is output to the sub-tray 103 of the first paper processing apparatus 100, the user outputs the sample of the output sample. By measuring the size (the vertical and horizontal dimensions of the paper and the thickness of the paper bundle) and performing an input operation on the operation display unit 206 of the second paper processing device 200, a job (here, the second paper processing device 200). Set the bookbinding job.
Thereafter, the job is started.

  In the present embodiment, a remeasurement necessity determination process for determining whether or not it is necessary to remeasure a sample is executed during the execution of a job that needs to be set in advance for the second sheet processing apparatus 200 as described above.

Hereinafter, the control procedure of the re-measurement necessity determination process will be described with reference to FIGS.
The control procedure shown in FIGS. 3 to 5 is executed by the control unit 20 of the image forming apparatus 10 and the second sheet processing apparatus control unit 210 of the second sheet processing apparatus 200. The control unit 20 develops a program stored in a ROM (Read Only Memory: not shown) or the like in the image forming apparatus on a RAM (Random Access Memory: not shown) or the like, and executes the above control. The second paper processing device control unit 210 executes the above control by expanding a program stored in a ROM (not shown) or the like in the second paper processing device into a RAM (not shown) or the like.
In the re-measurement necessity determination process, a tray (sub-tray 103 in the present embodiment) that can discharge a sheet or a sheet bundle (sample) at a stage before the second sheet processing apparatus 200 performs sheet processing. It is assumed that

Referring to FIG. 3, first, in step S <b> 11, when the control unit 20 detects an electrical signal output by a predetermined factor (for example, ATS operation, paper feed tray opening, environmental change, etc.), the job is finished. If it is determined that the job has ended (step S11: Yes), this process ends.
On the other hand, if it is determined that the job has not ended (step S11: No), in the subsequent step S12, the control unit 20 executes a first determination process for determining whether or not the paper size has been switched.

Here, it transfers to FIG. 4 and demonstrates the control procedure of a 1st determination process.
First, in step S121, the control unit 20 determines whether or not the paper feed tray used in the paper feed unit 12 has been switched by the operation of the ATS depending on whether or not an electrical signal output by the operation of the ATS has been detected. Judging.

When it is determined that the paper feed tray has been switched due to the operation of the ATS (step S121: Yes), in the subsequent step S122, the control unit 20 sets the paper size information indicating that the paper in the used paper tray has run out. Obtained as related information, this processing is terminated.
On the other hand, when it is determined that the paper feed tray has not been switched due to the operation of the ATS (step S121: No), in the subsequent step S123, the control unit 20 has detected an electrical signal output by opening the paper feed tray. Thus, it is determined whether or not the paper feed tray is opened.

When it is determined that the paper feed tray has been opened (step S123: Yes), in the subsequent step S122, the control unit 20 sets paper feed tray release information indicating that the paper tray used has been opened as paper size related information. And the process is terminated.
On the other hand, when it is determined that the paper feed tray is not opened (step S123: No), in the subsequent step S124, the control unit 20 determines whether the temperature and humidity depend on whether an electrical signal output due to environmental changes is detected. It is determined whether or not at least one of the changes has exceeded a specified level.

When it is determined that at least one of temperature and humidity has changed more than a specified value (step S124: Yes), in subsequent step S122, the control unit 20 determines that at least one of temperature and humidity has changed more than a specified value. The environmental change information shown is acquired as the paper size related information, and this processing is terminated.
Here, as the environmental change information, for example, a value obtained by weighting the temperature and humidity values specified by the temperature / humidity sensor 26 with a predetermined weight is calculated, and whether or not the calculated value is equal to or greater than a predetermined value. It is obtained by judging.
The calculated value may be obtained by determining whether or not the calculated value is equal to or greater than a predetermined value and the basis weight and type of the sheet satisfy a predetermined condition. For example, when the calculated value is equal to or greater than a predetermined value, the environment change information is acquired if the basis weight is less than the predetermined value, but the environment change information is not acquired if the basis weight is greater than the predetermined value. And Alternatively, when the calculated value is equal to or greater than a predetermined value set in advance, the environment change information is acquired if the paper is plain paper, but the environment change information is not acquired if the paper is coated paper.

On the other hand, when it is determined that at least one of the temperature and the humidity does not change more than a specified value (step S124: No), in the subsequent step S125, the control unit 20 completes the output of the current part of the job being executed. It is determined whether or not there is a high possibility of running out of paper.
Here, the control unit 20 compares the remaining number of sheets in the paper feed tray in use with the remaining number of sheets until the output of the current part of the job being executed is completed, and the sheet runs out. Determine whether the possibility is high.

When it is determined that there is a high possibility of running out of paper before the output of the current part is completed (step S125: Yes), in the subsequent step S122, the control unit 20 makes paper before the output of the current part is completed. Paper out suggestion information indicating that there is a high possibility of being out of paper is acquired as paper size related information, and this processing is terminated.
On the other hand, if it is determined that there is no high possibility of running out of paper before the output of the current copy is completed (step S125: No), in the subsequent step S126, the control unit 20 determines the next copy of the job being executed. It is determined whether or not there is a high possibility of running out of paper before the output of is completed.
Here, the control unit 20 compares the remaining number of sheets in the paper feed tray in use with the remaining number of sheets until the output of the next part of the job being executed is completed, and the sheet runs out. Determine whether the possibility is high.

When it is determined that there is no high possibility of running out of paper before the output of the next part is completed (step S126: No), in the subsequent step S127, the control unit 20 does not acquire paper size related information and The process ends.
On the other hand, when it is determined that there is a high possibility of running out of paper before the output of the next part is completed (step S126: Yes), in step S122, the control unit 20 uses the paper in the paper feed tray that has been used. Is acquired as paper size related information, and the present process is terminated.

Returning to FIG. 3, in step S <b> 13, the control unit 20 determines whether to remeasure the sample in order to reset the presetting.
Here, when the paper size related information is acquired by the first determination process described above, the control unit 20 determines that remeasurement is performed. When the paper size related information is not acquired by the first determination process, the control unit 20 performs remeasurement. Judge not to.

And when it judges that it does not measure again (step S13: No), the control part 20 transfers to step S11.
On the other hand, when it is determined that remeasurement is to be performed (step S13: Yes), in the subsequent step S14, the control unit 20 determines whether the output timing of the sample is set as a segment break.
Here, when the control unit 20 has acquired out-of-paper prediction information (information indicating that the paper in the paper feed tray is no longer in the next part) as the paper size related information by the first determination process, the sample output It is determined that the timing is set as a division.

  If it is determined that the output timing of the sample is set to the section break (step S14: Yes), in the subsequent step S15, the control section 20 executes the job being executed up to the current section break, Stop. At this time, the control unit 20 switches the paper feed tray.

  Next, in subsequent step S <b> 16, the control unit 20 outputs the sample to the sub-tray 103 of the first paper processing apparatus 100.

  Next, in subsequent step S <b> 16, the control unit 20 displays a dialog G <b> 2 (see FIG. 7 or the like) that prompts the user to reset the presetting on the operation display unit 13 of the image forming apparatus 10. When the user operates the operation unit 206a of the second sheet processing apparatus 200 and inputs a measurement value obtained by re-measurement of the sample, the second sheet processing apparatus control unit 210 accepts this. In the dialog G2, it is also possible to select not to remeasure the sample. In this case, the previous measurement value is used as it is, and the process proceeds to step S11.

  On the other hand, when it is determined in step S14 that the sample output timing is not set to the section break (step S14: No), in step S18, the control unit 20 determines whether the sample output mode is the manual mode. Judge whether or not. The sample output mode is set in advance by the user.

  When it is determined that the sample output mode is the manual mode (step S18: Yes), in the subsequent step S19, the control unit 20 causes the operation display unit 13 of the image forming apparatus 10 to select whether or not to discharge the sample (see FIG. 6 etc.) is displayed.

Next, in step S20, the control unit 20 determines whether or not a sample output instruction is given to the operation display unit 13, and if a sample output instruction is not given (step S20: No), step S25 described later is performed. Migrate to
On the other hand, when a sample output instruction is given to the operation display unit 13 (step S20: Yes), the control unit 20 outputs the sample to the sub-tray 103 of the first paper processing apparatus 100 in the subsequent step S21.

Next, in subsequent step S22, the control unit 20 displays a dialog G2 (see FIG. 7 and the like) that prompts the user to reset the presetting on the operation display unit 13 of the image forming apparatus 10. When the user operates the operation unit 206a of the second sheet processing apparatus 200 and inputs a measurement value obtained by re-measurement of the sample, the second sheet processing apparatus control unit 210 accepts this.
In the dialog G2, it is also possible to select not to remeasure the sample. In this case, the previous measurement value is used as it is, and the process proceeds to step S11 without executing steps S23 to S27 described later.

  Next, in step S <b> 23, the control unit 20 executes a second determination process for determining whether to utilize the paper staying in the apparatus.

Here, it transfers to FIG. 5 and demonstrates the control procedure of a 2nd determination process.
First, in step S231, the control unit 20 determines whether or not the difference between the currently input measurement value and the previously input measurement value stored in the storage unit 214 is greater than a preset threshold value. .
If it is determined that the difference between the measured values is greater than the threshold (step S231: Yes), in step S232, the control unit 20 determines that the paper staying in the apparatus is not used, and ends the process. To do.
On the other hand, when it is determined that the difference between the measured values is equal to or less than the threshold value (step S231: No), in the subsequent step S233, the control unit 20 determines to use the paper staying in the apparatus, and ends this process.

Returning to FIG. 3, in step S <b> 24, the control unit 20 determines whether or not to discharge the output part.
Here, when it is determined that the paper staying in the apparatus is not used in the second determination process described above, the control unit 20 determines to discharge the output part. On the other hand, when it is determined that the paper staying in the apparatus is to be used by the second determination process described above, it is determined that the output part is not discharged.

If it is determined that the output part is not to be discharged (step S24: No), in the subsequent step S25, the control unit 20 resumes the job from the middle of the output part, and proceeds to step S11 described above.
On the other hand, if it is determined that the output part is to be discharged (step S24: Yes), in the subsequent step S26, the control unit 20 discharges the paper staying in the apparatus, and in the subsequent step S27, from the beginning of the part. The job is resumed, and the process proceeds to step S11 described above.

3 to 5, the control unit 20 functions as an acquisition unit, a reset determination unit, a sample discharge unit, and a switching unit, and the second sheet processing device control unit 210 includes a setting unit, It functions as a comparison means. The operation display unit 13 functions as a selection unit and a display unit.
According to the control shown in FIGS. 3 to 5, when the paper size is changed due to a predetermined factor (ATS operation, paper feed tray opening, environmental change) during job execution, before the changed paper is fed. In addition, it is possible to prompt the user to reset the sheet processing of the second sheet processing apparatus 200 (that is, remeasure the sample). For this reason, it becomes possible to cope with a change in the paper size, and it is possible to eliminate variations in the quality of the result of paper processing.

  6 and 7 are examples of dialogs displayed on the operation display unit 13 of the image forming apparatus 10.

FIG. 6 shows a dialog G1 that allows the user to select whether or not to discharge the sample when the sample discharge mode is the manual mode.
In the dialog G1, a question sentence “Do you want to reset (sample discharge)?” And “Yes”, “No”, and “Cancel” are displayed as answer options.
When “Yes” is selected, sample discharge is instructed. If “No” is selected, sample discharge is not instructed, and the job is resumed with the previous measurement value. If “Cancel” is selected, the job is canceled.

FIG. 7 shows a dialog G2 for urging the user to reset the sheet processing of the second sheet processing apparatus 200 (prompt the sample measurement) after discharging the sample.
In the dialog G2, the text “Please measure the sample” and “Yes”, “No”, and “Cancel” are displayed as answer options.
If you select “Yes”, you agree to the sample measurement. If “No” is selected, the sample measurement is not agreed and the previous measurement value is used as it is. If “Cancel” is selected, the job is canceled.

As described above, according to the present embodiment, an image connected to the second sheet processing apparatus 200 that performs predetermined sheet processing on a sheet on which an image is formed based on a preset setting related to predetermined sheet processing. In the forming apparatus 10, the control unit 20 acquires paper size related information related to a change in paper size during a job for executing predetermined paper processing, and resets a preset value based on the acquired paper size related information. When it is determined whether or not the setting is necessary, and it is determined that the presetting is necessary again, the sheet before the predetermined sheet processing is discharged to the sub-tray 103 as a sample in a state where the execution of the job is interrupted. .
Therefore, based on the change in the paper size during execution of the predetermined job, it is determined whether or not the presetting of the second sheet processing apparatus 200 is necessary, and it is determined that the resetting of the presetting is necessary. In this case, the sample is discharged to the sub-tray 103 with the job stopped.
Therefore, when the paper size is changed during the job, it can be reset based on the discharged sample, so that it is possible to cope with the fluctuation of the paper size and maintain the product quality.

Further, according to the present embodiment, when it is determined that resetting of the presetting is necessary, the operation display unit 13 that allows the user to select whether or not to discharge the sample is provided, and the control unit 20 is performed on the operation display unit 13. The sample is discharged to the sub-tray 103 according to the received instruction.
For this reason, the sample can be discharged arbitrarily by the user, and the sample can be discharged under more appropriate conditions.

Moreover, according to this embodiment, the operation display part 13 which performs the display which prompts a user to reset a preset after discharge of a sample is provided.
For this reason, it is possible to prompt the user to operate after discharging the sample.

In addition, according to the present embodiment, the control unit 20 provides, as the paper size related information, paper feed tray opening information indicating that the used paper feed tray has been released, or the paper in the used paper feed tray. Acquires out-of-paper information indicating that no longer exists.
For this reason, it is possible to detect a change in the paper size when the used paper feed tray is opened and the used paper tray is out of paper.

Further, according to the present embodiment, the control unit 20 acquires environment change information indicating that at least one of temperature and humidity has changed more than a specified value as the paper size related information.
For this reason, it is possible to detect a change in the paper size from changes in temperature and humidity.

Further, according to the present embodiment, the control unit 20 calculates a value obtained by giving a predetermined weight to the temperature and humidity values, and determines whether or not the calculated value is equal to or greater than a predetermined value set in advance. To obtain environmental change information. Alternatively, the control unit 20 acquires the environmental change information by determining whether the calculated value is equal to or greater than a predetermined value set in advance and the basis weight and type of the sheet satisfy a predetermined condition.
For this reason, it is possible to detect a change in the paper size from a plurality of variables.

Further, according to the present embodiment, the control unit 20 causes the sub-tray 103 to discharge the sample at the section of the job being executed.
For this reason, the sample can be discharged at an appropriate timing.

In addition, according to the present embodiment, the control unit 20 acquires out-of-paper prediction information indicating that the paper in the paper feed tray that has been used will disappear in the next unit as the paper size related information, and the out-of-paper prediction information Is acquired, the paper feed tray is switched at the division of the copy of the job being executed, and the sample is discharged to the sub-tray 103 when the paper feed tray is switched.
For this reason, when the paper in the paper feed tray that has been used disappears in the next section, the sample can be discharged at an appropriate timing.

Further, according to the present embodiment, in the second sheet processing apparatus 200, the second sheet processing apparatus control unit 210 performs presetting related to predetermined sheet processing, accepts resetting of presetting, The set value is compared with the previous preset value, and if the difference is smaller than a preset predetermined value, the continuation of the predetermined job is determined.
Therefore, when the measurement value is input again to the second sheet processing apparatus 200 after the sample output, it can be determined whether or not to continue the job.

  In addition, it is possible to adopt an embodiment different from the above embodiment without departing from the present invention.

  For example, in the above-described embodiment, the configuration in which the user manually inputs the measurement value of the sample is described as an example. However, after it is determined that resetting is necessary, the paper size of the discharged sample is automatically set. The structure provided with the mechanism to measure may be sufficient.

  In the above-described embodiment, it has been described that the sample discharge mode is set to the manual mode or the automatic mode in advance. However, the manual discharge mode may be switched to the automatic mode according to a predetermined condition. The predetermined condition includes, for example, the number of samples and the like. Specifically, when the number of jobs is less than 50, the automatic mode is set, and when the number is higher, the manual mode is set. it can.

  In the above-described embodiment, the storage unit 214 of the second paper processing apparatus 200 stores advance information regarding the paper processing of the second paper processing apparatus 200, and when a measurement value is input, The configuration in which the second sheet processing apparatus control unit 210 compares the previous measurement value with the measurement value input this time has been described as an example, but prior information is stored in the storage unit 24 of the image forming apparatus 10. The control unit 20 may be configured to compare the previous measurement value with the measurement value input this time.

  In the above embodiment, the second determination process is executed, and the configuration for determining whether or not to discharge the part being output by comparing the previous measurement value with the measurement value input this time will be described as an example. However, it is also possible to employ a configuration in which all the output parts are discharged without executing the second determination process. In that case, the newly input measurement value is reflected, and the job is restarted from the beginning of the output part. Note that whether or not to execute such second determination processing (whether or not to discharge the part that has been output up to now regardless of the measurement value) is set by the operation display unit 13 of the image forming apparatus 10. Is possible.

  Further, the discharge unit for discharging the sample may not be the sub-tray 103 as long as it can discharge the sheet (sheet bundle) in the previous stage of sheet processing.

  Further, the configuration may be such that the second determination process is not performed and the internal sheet is requested to be discarded regardless of the difference.

DESCRIPTION OF SYMBOLS 1 Image forming system 10 Image forming apparatus 12 Paper feed part 13 Operation display part (selection part, display part)
G1 dialog G2 dialog 20 Control unit (acquisition means, resetting determination means, sample discharge means, switching means)
26 Temperature / humidity sensor 100 First paper processing device 110 First paper processing device controller 103 Sub-tray 200 Second paper processing device 210 Second paper processing device controller (setting means, comparison means)
206 Operation display unit 206a Operation unit 206b Display unit

Claims (13)

In an image forming apparatus connected to a paper processing apparatus that performs predetermined paper processing on a paper on which an image is formed based on a predetermined setting related to predetermined paper processing,
Obtaining means for obtaining paper size related information related to a change in paper size during a job for executing the predetermined paper processing;
Resetting determination means for determining whether or not resetting of the presetting is necessary based on the paper size related information acquired by the acquiring means;
If it is determined by the reset determining means that the resetting of the preset is necessary, the paper before the predetermined paper processing is discharged as a sample to the discharge unit in a state where the execution of the job is interrupted. Sample discharging means;
An image forming apparatus comprising: When it is determined that the resetting of the presetting is necessary by the resetting determination unit, the selection unit is configured to allow the user to select whether or not to discharge the sample,
The image forming apparatus according to claim 1, wherein the sample discharge unit causes the discharge unit to discharge the sample in accordance with an instruction given to the selection unit.   3. The image forming apparatus according to claim 1, further comprising a display unit configured to display a message prompting a user to reset the presetting after the sample is discharged to the discharge unit by the sample discharge unit. . The acquisition means includes
As the paper size-related information, paper feed tray opening information indicating that the used paper feed tray has been released or paper out information indicating that the paper in the used paper feed tray has been used is acquired. The image forming apparatus according to claim 1, wherein the image forming apparatus is an image forming apparatus. The acquisition means includes
5. The image formation according to claim 1, wherein environmental change information indicating that a change in at least one of temperature and humidity has exceeded a specified value is acquired as the paper size related information. apparatus. The acquisition means includes
A value obtained by weighting the temperature and humidity values with a predetermined weight is calculated, and the environment change information is acquired by determining whether the calculated value is equal to or greater than a predetermined value set in advance. The image forming apparatus according to claim 5. The acquisition means includes
The environment change information is acquired by determining whether the calculated value is equal to or greater than a predetermined value that is set in advance and the basis weight and type of the sheet satisfy a predetermined condition. 6. The image forming apparatus according to 6. The sample discharging means includes
The image forming apparatus according to claim 1, wherein the sample is discharged by the discharge unit at a section of the job portion being executed. The acquisition means acquires out-of-paper prediction information indicating that the paper in the paper feed tray that has been used will disappear in the next section as the paper size related information,
A switching means for switching a paper feed tray at a section of the job being executed when the paper out prediction information is acquired by the acquisition means;
The image forming apparatus according to claim 8, wherein the sample discharge unit causes the discharge unit to discharge the sample when the sheet feeding tray is switched by the switching unit. An image forming apparatus according to any one of claims 1 to 9,
A paper processing device that performs the predetermined paper processing on paper on which an image is formed by the image forming device;
In an image forming system comprising:
The paper processing apparatus includes:
An image forming system, comprising: a setting unit configured to perform advance setting related to the predetermined sheet processing. The setting means accepts resetting of the presetting;
The paper processing apparatus includes:
Comparing means for comparing the preset reset value received by the setting means with the previous value and determining the continuation of the job when the difference is smaller than a preset predetermined value. The image forming system according to claim 10. An image forming method performed in an image forming apparatus connected to a sheet processing apparatus that performs predetermined sheet processing on a sheet on which an image is formed based on a preset setting related to predetermined sheet processing,
An acquisition step of acquiring paper size related information related to a change in paper size during a job for executing the predetermined paper processing;
Based on the paper size related information acquired by the acquisition step, a reset determination step of determining whether or not resetting of the preset is necessary;
If it is determined in the reset determining step that the resetting of the preset is necessary, the sheet before the predetermined sheet processing is discharged to the discharge unit as a sample in a state where the execution of the job is interrupted. A sample discharge process;
An image forming method comprising: Computer
An acquisition means for acquiring paper size related information related to a change in paper size during a job for executing predetermined paper processing;
Resetting determination means for determining whether resetting of the presetting is necessary based on the paper size related information acquired by the acquiring means;
If it is determined by the reset determining means that the resetting of the preset is necessary, the paper before the predetermined paper processing is discharged as a sample to the discharge unit in a state where the execution of the job is interrupted. Sample discharging means,
A program characterized by functioning as

Images