JP2017097262A - Image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a printed matter in which images are formed in a desired order on a prescribed sheet even when an abnormal sheet is fed during continuous printing.SOLUTION: An image forming apparatus includes: a first conveyance path A which conveys printed sheets to a discharge part 30; a second conveyance path B which conveys the sheets to the discharge part 30 in a different route from the first conveyance path A; switching means 28 which switches the conveyance paths A, B; abnormality detection means SE1 which detects abnormality of the sheet during conveyance; and control means which interrupts printing to the following sheet at the detection of abnormality of the sheet, releases interruption when the abnormality is released and then resumes printing processing to the following sheet. The control means, when the abnormality of the sheet is detected during one-side continuous printing processing, moves the abnormal sheet to a position not interfering with the first conveyance path A and the discharge part 30 on the second conveyance path B, conveys the following sheet to the discharge part 30 through the first conveyance path A by performing printing processing to the following sheet after interruption release, and conveys the abnormal sheet to the discharge part 30 from the second conveyance path B after discharging the following sheet to the discharge part 30.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an image forming apparatus, and more particularly to an image forming apparatus such as an electrophotographic printer or copying machine.

  2. Description of the Related Art Conventionally, in an image forming apparatus such as an electrophotographic copying machine or printer, there is a problem in processing when a fed sheet is abnormal. The paper abnormality is when the supplied paper is different from the paper size selected by the operator, or when the paper is different, such as paper thickness or OHP paper. Japanese Patent Application Laid-Open No. 2004-133867 describes processing when a sheet is jammed.

  Regarding the paper size abnormality, the size error is determined by comparing the paper length measured from the on-time of the paper detection sensor installed on the transport path with the paper length selected by the operator. In such a case, there is known a control for conveying an abnormal sheet to a discharge unit without interrupting a printing process (sheet conveying process). When a size error occurs during the single-sided continuous printing process and abnormal paper is discharged, the abnormal paper is mixed in a normal bundle of paper. For this reason, when a printing process is performed on a succeeding sheet including reprinting of an image to be printed on the abnormal sheet (hereinafter referred to as recovery), one abnormal sheet is mixed in the sheet bundle.

  Even if the operator is prompted to remove the abnormal sheet before recovery, it cannot be determined whether the abnormal sheet has been actually removed. In any case, for example, it is not appropriate to perform stapling on a sheet bundle as post-processing, and post-processing cannot be performed correctly.

JP 2011-68418 A

  An object of the present invention is to obtain a printed matter in which images are formed on a predetermined sheet in a desired order without bothering an operator even when an abnormal sheet is fed in the middle of continuous printing. An object is to provide an image forming apparatus.

An image forming apparatus according to an aspect of the present invention is
In an image forming apparatus that prints an image on paper by an electrophotographic method,
A first transport path for transporting the printed paper to the discharge section;
A second transport path for transporting the printed paper to the discharge unit via a path different from the first transport path;
Switching means for switching between the first transport path and the second transport path;
An abnormality detecting means for detecting an abnormality of the paper being conveyed;
Control means for interrupting the printing process for the succeeding sheet when the abnormality of the sheet is detected by the abnormality detecting means, releasing the interruption when the abnormality is canceled, and restarting the printing process for the succeeding sheet after the cancellation of the interruption; ,
With
The control means includes
When a paper abnormality is detected during the single-sided continuous printing process, the abnormal paper is moved to a position on the second transport path so as not to interfere with the first transport path and the discharge unit,
After releasing the interruption, print processing is performed on the subsequent sheet and conveyed to the discharge unit through the first conveyance path,
Transporting the abnormal sheet from the second transport path to the discharge unit after discharging the subsequent sheet to the discharge unit;
It is characterized by.

  In the image forming apparatus, when a paper size error or the like occurs, the abnormal paper is not discharged to the discharge unit, and is moved to a position on the second transfer path so as not to interfere with the first transfer path and the discharge unit. Then, the subsequent image including the image to be printed on the abnormal sheet is printed on the subsequent sheet, and is conveyed to the discharge unit. Thereafter, the abnormal sheet is conveyed from the second conveyance path to the discharge unit.

  According to the present invention, even if abnormal paper is fed during continuous printing, a printed matter in which images are formed on a predetermined paper in a desired order can be obtained without bothering the operator. .

1 is a perspective view illustrating an appearance of an image forming apparatus according to an embodiment. FIG. 2 is a schematic diagram illustrating a sheet conveyance path in the image forming apparatus. FIG. 2 is a block diagram illustrating a control unit of the image forming apparatus. It is a flowchart figure which shows the control procedure in 1st Example. It is explanatory drawing which shows the paper conveyance state in 1st Example. It is explanatory drawing (continuation of FIG. 5A) which shows the paper conveyance state in 1st Example. FIG. 6 is an explanatory diagram (continuation of FIG. 5B) illustrating a sheet conveyance state in the first embodiment. It is explanatory drawing (continuation of FIG. 5C) which shows the paper conveyance state in 1st Example. It is explanatory drawing (continuation of FIG. 5D) which shows the paper conveyance state in 1st Example. It is a flowchart figure which shows the control procedure in 2nd Example. It is explanatory drawing which shows the paper conveyance state in 2nd Example. It is explanatory drawing (continuation of FIG. 7A) which shows the paper conveyance state in 2nd Example. It is explanatory drawing (continuation of FIG. 7B) which shows the paper conveyance state in 2nd Example. It is explanatory drawing (continuation of FIG. 7C) which shows the paper conveyance state in 2nd Example. It is explanatory drawing (continuation of FIG. 7D) which shows the paper conveyance state in 2nd Example. It is explanatory drawing (continuation of FIG. 7E) which shows the paper conveyance state in 2nd Example. It is explanatory drawing (continuation of FIG. 7F) which shows the paper conveyance state in 2nd Example. FIG. 7B is an explanatory diagram (continuation of FIG. 7G) showing a paper conveyance state in the second embodiment. It is a flowchart figure which shows the control procedure in 3rd Example.

  Embodiments of an image forming apparatus according to the present invention will be described below with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the same member and part in each figure, and the overlapping description is abbreviate | omitted.

(Schematic configuration of image forming apparatus, see FIG. 1)
As shown in FIG. 1, the image forming apparatus 1 is roughly configured by a printing main body unit 2, an image reading unit 5, and a post-processing device 30. The printing main body 2 includes an operation panel 3 and forms a color toner image on a sheet by a known electrophotographic method including the photosensitive drum 11 and the intermediate transfer belt 12 shown in FIG. On the operation panel 3, the operator performs settings necessary for paper size and type, post-processing such as stapling and shifting, and other printing.

  The image reading unit 5 is a so-called scanner, which optically reads a document image and transfers it as image data to the printing main unit 2. The printing main body 2 forms a toner image on the photosensitive drum 11 and the intermediate transfer belt 12 based on the transferred image data, transfers the toner image onto the fed paper, and the paper is processed by the post-processing device 30. To discharge. In the post-processing device 30, alignment, shift, stapling, etc. are performed on the sheets according to the post-processing mode set on the operation panel 3, and the sheet bundle is discharged onto the sheet discharge tray 31.

(Refer to Fig. 2 for the paper transport path in the printing main unit.)
As shown in FIG. 2, the print main body 2 includes tandem-type full-color image formation centered on four photosensitive drums 11 and intermediate transfer belts 12 that form images of Y, M, C, and K colors. ing. The full-color image forming process by the tandem method is well known, and the description thereof is omitted.

  The following roller groups are arranged for conveying the paper. That is, the sheet feeding roller 15 disposed in the first sheet feeding port, the sheet feeding roller 16 disposed in the second sheet feeding port, the sheet feeding roller 17 disposed in the manual sheet feeding port, the timing roller 20, and the secondary transfer. A roller 21, a toner heat fixing roller 22, a discharge roller 23, a reverse roller 24, double-sided conveyance rollers 25 and 26, and a refeed roller 27.

  The paper transport path is configured as follows. First feed path A from the feed rollers 15, 16, 17 through the timing roller 20 to the secondary transfer roller 21, the first transport path A from the secondary transfer roller 21 through the fixing roller 22 to the discharge roller 23, the fixing roller 22 A second transport path B (also referred to as a switchback path) from the reverse roller 24 to the duplex transport rollers 25 and 26 and the refeed roller 27. The sheet can be transported from the first transport path A to the discharge unit (post-processing apparatus 30), and can also be transported from the second transport path B to the discharge unit (post-processing apparatus 30).

  A paper detection sensor SE1 is disposed in the paper feed path, a paper detection sensor SE2 is disposed in the first transport path A, a paper detection sensor SE3 is disposed in the second transport path B, and a switchback path. A paper detection sensor SE4 is arranged. Further, a switching gate 28 for switching between the first conveyance path A and the second conveyance path B is provided immediately after the conveyance direction of the fixing roller 22.

  In the case of single-sided printing processing, the sheet on which the image has been transferred is discharged from the fixing roller 22 through the first conveyance path A to the post-processing device 30 from the discharge roller 22. When printing is also performed on the second side, the paper printed on the first side is switched back by the reverse roller 24 and then returned to the timing roller 20 from the duplex conveying rollers 25 and 26 and the refeed roller 27. Then, a printing process is performed on the second surface. The sheet printed on the second surface is discharged from the discharge roller 22 to the post-processing device 30 via the fixing roller 22.

  The sheets conveyed through the respective conveyance paths are detected by sensors SE1, SE2, SE3, and SE4, and necessary control is executed. The size of the paper to be printed is selected in advance by the operator, and the size of the paper is detected by a value obtained by multiplying the time difference at which the leading edge and the trailing edge of the paper are detected by the sensor SE1 by the paper conveyance speed. If the size detected by the sensor SE1 does not match the size selected by the operator, it is determined that the paper is abnormal. Further, there are types of paper such as thin paper, thick paper, and OHP paper, and it is also determined that there is an abnormality when the actually fed type is different from the type selected by the operator. Such a sensor (paper thickness detection sensor) for detecting the type of paper is disposed in the vicinity of the timing roller 20.

(Control unit, see FIG. 3)
As shown in FIG. 3, the control unit of the image forming apparatus 1 is roughly divided into an engine unit 40 and a system controller unit 50. The engine unit 40 includes a CPU 41, a ROM 42, a RAM 43, and a nonvolatile memory 44. The CPU 41 reads out the program from the ROM 42 and controls each operation uniformly while measuring the timing, and for example, smoothly executes the printing process. The ROM 42 stores a control program for controlling the photosensitive drum 11 and the intermediate transfer belt 12 for image formation and paper conveyance. The RAM 43 is a volatile memory and is a work area when the CPU 41 executes a program. The nonvolatile memory 44 is a data storage area at the time of program execution.

  Main objects to be controlled by the CPU 41 are a motor 45 for driving the various rollers and a clutch for the rollers. Further, a drive motor 32 such as a stapler provided in the post-processing device 30 is also controlled. Detection signals from the sensors SE1 to SE4 are input to the CPU 41, and the length of the paper is detected in combination with a timer.

  The system controller unit 50 mainly includes a CPU 51 and an operation panel 3. When a parameter such as a printing process is input to the operation panel 3 by the operator, the CPU 51 outputs a paper size instruction, a print execution command, and the like to the CPU 41 of the engine unit 40. Further, the CPU 51 displays the state of the image forming apparatus 1 transferred from the CPU 41 on the operation panel 3.

(Outline of control)
If an abnormality in the sheet fed by the sensor SE1 is detected during the single-sided continuous printing process, the printing process for the subsequent sheet is interrupted. When the abnormality is canceled, for example, when the paper of the set size is set by changing the paper feed port, the interruption of the printing process is canceled. After this interruption is cancelled, the printing process for the subsequent sheet is resumed. Specifically, the abnormal sheet is moved to a position on the second conveyance path B so as not to interfere with the first conveyance path A and the discharge unit (post-processing device 30), and the abnormality is detected with respect to the subsequent sheet after the cancellation of the interruption. A subsequent image including an image to be printed on the paper is subjected to a printing process and conveyed to the discharge unit through the first conveyance path A. Then, after the succeeding sheet is discharged to the discharge unit, the abnormal sheet is transferred from the second transfer path B to the discharge unit. Such control will be described in detail below as a first embodiment with reference to FIGS. 4 to 5E.

  In addition, when the sheet next to the abnormal sheet is being fed, the abnormal sheet is transported to the switchback path, and the next sheet is transported on the second transport path B along the first transport path A and the discharge unit (rear side). It is moved to a position where it does not interfere with the processing device 30). If the next paper is also an abnormal paper, after the paper feed slot is changed and the abnormality is canceled, the abnormal paper and the image to be printed on the next paper are printed on the subsequent paper. Then, the abnormal paper and the next paper are transported from the second transport path B to the discharge section through the first transport path A.

  On the other hand, if the next sheet already fed is not an abnormal sheet, after the abnormality is canceled, the image to be printed on the abnormal sheet is printed on the subsequent sheet and discharged through the first transport path A. Then, the next sheet moved on the second conveyance path B (normal image is printed on the normal sheet) is conveyed from the second conveyance path B to the discharge unit, and then the subsequent sheet. The subsequent image is subjected to a printing process and conveyed to the discharge unit through the first conveyance path A, and then the abnormal sheet conveyed to the switchback path is conveyed from the second conveyance path B to the discharge unit. Such control will be described in detail as a second embodiment with reference to FIGS.

(Refer 1st Example and FIGS. 4-5E)
During single-sided continuous printing (step S1), the sensor SE1 is used to detect whether or not the size of the fed paper is abnormal (step S2). If no abnormality has occurred with respect to a certain sheet 1 (NO in step S2), the sheet 1 is conveyed from the discharge roller 23 to the post-processing device 30 (step S3), and further discharged to the sheet discharge tray 31 (step S4). . If the sheet 1 is an abnormal size (YES in step S2), the switching gate 28 is operated to retract the sheet 1 to the second transport path B (step S5). That is, as shown in FIGS. 5A and 5B, the sheet 1 is guided to the reversing roller 24 and switched back in the second transport path (see FIG. 5C) and retreated in the switchback path (see FIG. 5D).

  Here, it waits for the abnormality to be canceled (step S6). In other words, until there is an abnormal recovery operation (YES in step S6), the printing process for subsequent sheets (here, not yet fed) is interrupted. The abnormal recovery operation means, for example, that a paper having a set size is set by changing the paper feed port. If there is an abnormal recovery operation (YES in step S6), recovery printing processing of the sheet 1 is performed on the next sheet 2 and the sheet is discharged (step S7). That is, as shown in FIG. 5D, the next sheet 2 is fed, an image to be printed on the sheet 1 is printed, and conveyed to the post-processing device 30.

  Thereafter, the subsequent sheets are sequentially fed to print the subsequent images, and are discharged to the post-processing device 30 (step S8). At the stage when the printing process and discharge on the succeeding sheet are completed, the abnormal sheet 1 is conveyed from the switchback path to the post-processing device 30 by the reverse roller 24 (see step S9, FIG. 5E). For discharging the abnormal paper 1 from the switchback path, the paper 1 may be transported from the refeed roller 27 to the timing roller 20 and then transported to the post-processing device 30 by the discharge roller 23.

  As in the first embodiment described above, the printed paper conveyed to the post-processing device 30 is obtained by printing specified images in order on a paper having a size set by the operator. Then, the abnormal sheet 1 is discharged behind the last sheet of the sheet bundle. It is also possible to execute post-processing such as stapling on the sheet bundle by the post-processing device 30 before discharging the paper 1.

(Refer 2nd Example and FIGS. 6-7H)
In FIG. 6, the processes in steps S1 to S4 are the same as in the first embodiment when no abnormality has occurred in the fed paper. If it is determined that the sheet 1 has an abnormal size (YES in step S2), the switching gate 28 is operated to retract the sheet 1 to the second transport path B (step S5) as in the first embodiment. However, in the second embodiment, it is determined here whether or not the subsequent sheet 2 has already been fed (step S10). If the sheet 2 has not yet been fed (NO in step S10), steps S6 to S9 are executed. The processing here is the same as in the first embodiment. However, the sheet 1 is retracted to the back side portion (portion where the sheet 1 is held by the rollers 26 and 27) of the switchback path (see FIG. 7D).

  On the other hand, if the sheet 2 has already been fed (YES in step S10, see FIG. 7A), the sheet 2 is also retracted to the second transport path B (step S11). That is, the sheet 2 is guided to the reversing roller 24 and switched back by the second transport path B (see FIG. 7D). At this time, the size of the paper 2 is detected by the sensor SE1.

  Here, it waits for the abnormality to be canceled, and when the abnormality recovery operation is confirmed (YES in step S12), it is determined whether or not the size of the paper 2 already fed is abnormal (step S13). . If the sheet 2 is also abnormal (YES in step S13), the recovery printing process for the sheets 1 and 2 is performed on the next sheet waiting at the sheet feed port while the sheet 2 is retracted by the second transport path B. It is discharged (conveyed to the post-processing device 30) (step S14). Thereafter, the subsequent sheets are sequentially fed, the subsequent image is printed, and conveyed to the post-processing device 30 (see step S15).

  When the printing process and discharge on the succeeding sheet are completed, the abnormal sheet 2 and the abnormal sheet 1 are conveyed from the second conveying path to the post-processing device 30 by the reverse roller 24 in that order (see step S16, FIG. 7E). . The abnormal sheets 1 and 2 may be discharged from the switchback path by conveying the sheets 1 and 2 from the refeed roller 27 to the timing roller 20 and then by the discharge roller 23 to the post-processing device 30.

  On the other hand, if the sheet 2 is not abnormal (NO in step S13), if the recovery printing process is performed, the normal sheet 2 on which a predetermined image is printed is wasted. Therefore, the subsequent paper 3 is subjected to recovery printing processing of the paper 1 and discharged (see step S17, FIG. 7F). At this time, the recovery printing process of the sheet 2 is not performed, and after the sheet 3 on which the recovery printing process of the sheet 1 is performed is discharged, the normal sheet 2 is discharged from the second transport path B by the reverse roller 24. (See step S18, FIG. 7G). Thereafter, the subsequent sheets are sequentially fed to print the subsequent image, and are discharged to the post-processing device 30 (step S19). When the printing process on the succeeding sheet is completed, the abnormal sheet 1 is conveyed from the switchback path to the post-processing device 30 by the reverse roller 24 (see step S20, FIG. 7H).

(Refer to the third embodiment, FIG. 8)
In the first and second embodiments, the conveyance paths A and B are switched after the sheet abnormality is detected. In addition, when a sheet is fed in advance under a specific condition with a high possibility of abnormality, the sheet may be transported to the second transport path B. The specific condition with a high possibility of abnormality is, for example, a case where the first sheet is fed from a selected sheet feeding port.

  Specifically, it is determined whether or not paper feeding with a high possibility of abnormality has been performed (step S31). If not, normal printing processing is performed and the paper is conveyed to the post-processing device 30 (step S32). Further, the paper is discharged to the paper discharge tray 31 (step S33). When a sheet having a high possibility of abnormality is fed on a certain sheet 1 (YES in step S31), the switching gate 28 is operated to convey the sheet 1 to the second conveyance path B (step S34). Then, it is determined whether or not an abnormality has occurred in the paper 1 (step S35). If no abnormality has occurred, the normal paper 1 on which a predetermined image has been printed is transferred by the reversing roller 24 to the second transport path. B is discharged from B and conveyed to the post-processing apparatus 30 (step S36).

  If the sheet 1 is abnormal (YES in step S35), it waits for the abnormality to be cleared (step S38) while the sheet 1 is kept waiting on the second transport path B (step S37). The abnormal recovery operation means, for example, that a paper having a set size is set by changing the paper feed port. If there is an abnormal return operation (YES in step S38), recovery printing processing of the paper 1 is performed on the next paper 2 and discharged (step S39). That is, the next sheet is fed, an image to be printed on the sheet 1 is printed, and conveyed to the post-processing device 30.

  Thereafter, the subsequent sheets are sequentially fed to print the subsequent images, and are discharged to the post-processing device 30 (step S40). When the printing process and discharge on the succeeding sheet are completed, the abnormal sheet 1 is conveyed from the switchback path to the post-processing device 30 by the reverse roller 24 (step S41).

  As described above, the third embodiment is effective when a sheet abnormality cannot be detected before the conveyance path is switched by the switching gate 28.

(Other examples)
Note that the image forming apparatus according to the present invention is not limited to the above-described embodiment, and can be variously modified within the scope of the gist thereof.

  In particular, the basic configuration of the printing main body, the detailed configuration of the paper conveyance path, and the configuration of the abnormality detection means are arbitrary. Whether or not an image reading device or a post-processing device is installed is also arbitrary.

  As described above, the present invention is useful for an image forming apparatus. In particular, even when an abnormal sheet is fed in the middle of continuous printing, a desired sheet can be formed on a predetermined sheet without bothering the operator. It is excellent in that a printed matter on which images are formed in order can be obtained.

DESCRIPTION OF SYMBOLS 1 ... Image forming apparatus 2 ... Printing main-body part 3 ... Operation panel 11 ... Photoconductor drum 12 ... Intermediate transfer belt 15, 16, 17 ... Paper feed roller 23 ... Discharge roller 24 ... Reverse roller 25, 26 ... Double-sided conveyance roller 27 ... Re-feed roller 28 ... switching gate 30 ... post-processing device 31 ... paper discharge tray 41, 51 ... CPU
A ... 1st conveyance path B ... 2nd conveyance path SE1, SE2, SE3, SE4 ... Paper detection sensor

Claims (6)

In an image forming apparatus that prints an image on paper by an electrophotographic method,
A first transport path for transporting the printed paper to the discharge section;
A second transport path for transporting the printed paper to the discharge unit via a path different from the first transport path;
Switching means for switching between the first transport path and the second transport path;
An abnormality detecting means for detecting an abnormality of the paper being conveyed;
Control means for interrupting the printing process for the succeeding sheet when the abnormality of the sheet is detected by the abnormality detecting means, releasing the interruption when the abnormality is canceled, and restarting the printing process for the succeeding sheet after the cancellation of the interruption; ,
With
The control means includes
When a paper abnormality is detected during the single-sided continuous printing process, the abnormal paper is moved to a position on the second transport path so as not to interfere with the first transport path and the discharge unit,
After releasing the interruption, print processing is performed on the subsequent sheet and conveyed to the discharge unit through the first conveyance path,
Transporting the abnormal sheet from the second transport path to the discharge unit after discharging the subsequent sheet to the discharge unit;
An image forming apparatus.   The image forming apparatus according to claim 1, wherein the second transport path includes a switchback path for duplex printing.   The image forming apparatus according to claim 1, wherein the abnormality of the sheet being conveyed includes a case where the length of the sheet measured on the conveyance path is different from the length of the sheet selected by the operator.   The image forming apparatus according to claim 1, wherein the abnormality of the sheet being conveyed includes a case where the type of the sheet detected on the conveyance path is different from the type of the sheet selected by the operator. The control means includes
When the abnormality detection unit detects a sheet abnormality and the next sheet of the abnormal sheet is being fed, the abnormal sheet is transported to the switchback path, and the next sheet is placed on the second transport path. 1 move to a position that does not interfere with the transport path and the discharge section,
After the abnormality is canceled, the subsequent image including the image to be printed on the abnormal sheet and the next sheet is subjected to a printing process on the subsequent sheet and conveyed to the discharge unit through the first conveyance path, and then the Conveying the abnormal sheet and the next sheet from the second conveyance path to the discharge unit;
The image forming apparatus according to claim 2. The control means includes
When the next sheet is not an abnormal sheet, after the abnormality is canceled, an image to be printed on the abnormal sheet is subjected to a printing process on a subsequent sheet and conveyed to the discharge unit through the first conveyance path, and then The next sheet moved on the second transport path is transported from the second transport path to the discharge unit;
Thereafter, the subsequent image is printed on the subsequent sheet and conveyed to the discharge unit through the first conveyance path,
Thereafter, the abnormal sheet being transported to the switchback path is transported from the second transport path to the discharge unit;
The image forming apparatus according to claim 5.

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