JP3889348B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus such as a copying machine, a facsimile machine, a printer, and a composite machine of these, and more particularly to an image forming apparatus provided with a duplex printing unit.
[0002]
[Prior art]
As such an image forming apparatus, a sheet (for example, copy paper, plastic film, etc.) accommodated in a paper feed cassette is transported to an image forming section along a sheet transport path, and a toner image is formed on the sheet by the image forming section. Are widely configured so that the sheet on which the toner image is printed is conveyed to the fixing unit, and the sheet on which the toner image is fixed by the fixing unit is discharged onto the discharge tray by the sheet discharging unit. Are known. In such an image forming apparatus, a sheet may be curled, or a paper jam (jam) may occur in the sheet conveyance path or the like due to factors such as the size and thickness of the sheet being used are not necessarily constant. For this reason, a technique for facilitating processing (jam processing) for eliminating the paper jam has been developed.
[0003]
For example, an image forming apparatus disclosed in Patent Document 1 uses a part of a sheet conveyance path between a paper feeding cassette and an image forming unit as a switchback path, and when a jam occurs in a fixing unit, the image forming apparatus While stopping the operation, the sheet in the sheet conveyance path between the sheet feeding cassette and the switchback path is conveyed to the switchback path, thereby facilitating the jam processing.
[0004]
The image forming apparatus disclosed in Patent Document 2 includes a double-sided printing unit. When a jam occurs in the double-sided printing unit, the sheet in the sheet conveyance path on the upstream side in the sheet conveyance direction from the double-sided printing unit. Is discharged to the outside of the apparatus main body to facilitate the jam processing.
[0005]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 2001-39600 (see paragraph numbers 0033 and 0034 and FIGS. 3 and 5).
[Patent Document 2]
Japanese Patent No. 2779826 (see FIGS. 1 to 5)
[0006]
[Problems to be solved by the invention]
However, the image forming apparatus is not limited to the fixing unit, which is a problem in Patent Document 1, and the double-sided printing unit, which is a problem in Patent Document 2, but also a sheet discharge unit, and a post-processing unit connected to the sheet discharge unit ( Jam also occurs in post-processing such as stapling and punching. In addition, when a print job is executed in the duplex printing mode, the image forming apparatus including the duplex printing unit continuously conveys a plurality of sheets to the sheet conveyance path including the inside of the duplex printing unit at a predetermined interval. Thus, efficient processing of print jobs is achieved.
[0007]
As described above, the image forming apparatus having such a duplex printing unit is positioned in the sheet conveyance path on the upstream side in the sheet conveyance direction from the sheet discharge unit when a jam occurs in the sheet discharge unit or the post-processing unit. If a plurality of sheets to be collected are collected at one place and the plurality of sheets can be processed together, jam processing can be greatly facilitated.
[0008]
However, the prior art disclosed in Patent Document 1 is not related to an image forming apparatus including a double-sided printing unit, but is intended for jam processing of a fixing unit. It is not possible to easily perform jam processing of the sheet discharge unit or the post-processing unit during execution of a print job in the duplex printing mode of the apparatus. In addition, the conventional technique of Patent Document 1 is such that the sheet fed from the sheet feeding tray is conveyed to the image forming unit after passing through the switchback path, so that the sheet conveying speed is slow. have.
[0009]
The prior art of Patent Document 2 is an image forming apparatus provided with a double-sided printing unit, which is intended for jamming that occurs in the double-sided printing unit, and is jammed in a sheet discharging unit or a post-processing unit. Therefore, it is not possible to easily perform the jam processing of the sheet discharge unit or the post-processing unit during the execution of the print job of the image forming apparatus including the double-sided printing unit as described above.
[0010]
SUMMARY An advantage of some aspects of the invention is that it is possible to easily handle a jam generated in a sheet discharge unit or a post-processing unit during execution of a print job of an image forming apparatus including a duplex printing unit.
[0011]
[Means for Solving the Problems]
According to the first aspect of the present invention, a sheet conveyance path that guides the sheet fed from the sheet supply unit, an image forming unit that is arranged in the middle of the sheet conveyance path, and that prints on the sheet, and a downstream end of the sheet conveyance path. A sheet discharge unit that is disposed in the connected sheet discharge path and discharges the sheet fed from the sheet conveyance path to the sheet discharge path to the outside of the apparatus main body, and a downstream end of the sheet conveyance path via a branch path Connected, It is attached to the device main body so as to be able to be pulled out, A double-sided printing unit including a sheet having an image printed on one side thereof by the image forming unit and reversed to the sheet conveying path upstream of the image forming unit in the sheet conveying direction. is there. And this image forming apparatus (1) a paper feed sensor for detecting a sheet sent from the sheet supply unit to the sheet conveyance path; (2) a paper discharge sensor for detecting a sheet sent from the sheet conveyance path to the sheet discharge path; (3) a sheet detection sensor for detecting a sheet sent from the branch path to the duplex printing unit; (4) a detection unit for detecting that a jam has occurred in the post-processing unit; and (5) the sheet conveyance. A branch claw that selectively connects the path to the sheet discharge path or the branch path to switch the sheet conveyance path; and (6) even if a predetermined time has elapsed after the discharge sensor detects the leading edge of the sheet. If the paper discharge sensor cannot detect the passage of the trailing edge of the sheet detected at the leading edge, it is determined that a jam has occurred in the sheet discharge unit, or the post-processing is performed based on a detection signal of the detection means. When it is determined that a jam has occurred, the operation of the sheet discharge unit and the sheet supply unit is stopped, the sheet conveyance path and the sheet discharge path are blocked by the branch claw, and the sheet conveyance path and the branch path And the number of sheets (N) existing in the sheet conveyance path is calculated based on the sheet detection signals of the paper discharge sensor and the paper feed sensor, and the number of sheets detected by the sheet detection sensor is the number of sheets Control means for operating the image forming unit until (N) and conveying all sheets in the sheet conveyance path into the duplex printing unit. It is characterized by this. Here, the sheet discharge unit is not only a sheet discharge unit of the apparatus main body, but also a sheet post-processing apparatus when a sheet post-processing apparatus is attached to the apparatus main body to constitute an image forming apparatus as a whole. The sheet discharge portion is also included.
[0012]
According to a second aspect of the present invention, there is provided a sheet conveyance path that guides the sheet fed from the sheet supply means, an image forming unit that is arranged in the middle of the sheet conveyance path, and that prints on the sheet, and a downstream end of the sheet conveyance path. A sheet discharge unit that is disposed in the connected sheet discharge path and discharges the sheet fed from the sheet conveyance path to the sheet discharge path to the outside of the apparatus main body, and post-processes the sheet discharged from the sheet discharge section. The post-processing means to be applied, and connected to the downstream end of the sheet conveying path via a branch path; It is attached to the device main body so as to be able to be pulled out, The present invention relates to an image forming apparatus comprising: a double-sided printing unit that reverses a sheet on which an image is printed on one side by the image forming unit and returns the sheet to the sheet conveyance path upstream of the image forming unit in the sheet conveyance direction. . And this image forming apparatus (1) a paper feed sensor for detecting a sheet sent from the sheet supply unit to the sheet conveyance path; (2) a paper discharge sensor for detecting a sheet sent from the sheet conveyance path to the sheet discharge path; (3) a sheet detection sensor for detecting a sheet sent from the branch path to the duplex printing unit; (4) a detection unit for detecting that a jam has occurred in the post-processing unit; and (5) the sheet conveyance. A branch claw that selectively connects the path to the sheet discharge path or the branch path to switch the sheet conveyance path; and (6) even if a predetermined time has elapsed after the discharge sensor detects the leading edge of the sheet. If the paper discharge sensor cannot detect the passage of the trailing edge of the sheet detected at the leading edge, it is determined that a jam has occurred in the sheet discharge unit, or the post-processing is performed based on a detection signal of the detection means. When it is determined that a jam has occurred, the operation of the sheet discharge unit and the sheet supply unit is stopped, the sheet conveyance path and the sheet discharge path are blocked by the branch claw, and the sheet conveyance path and the branch path And the number of sheets (N) existing in the sheet conveyance path is calculated based on the sheet detection signals of the paper discharge sensor and the paper feed sensor, and the number of sheets detected by the sheet detection sensor is the number of sheets Control means for operating the image forming unit until (N) and conveying all sheets in the sheet conveyance path into the duplex printing unit. It is characterized by this.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
[First Embodiment]
(Configuration of image forming apparatus)
FIG. 1 is a schematic configuration diagram of an image forming apparatus 1 according to an embodiment of the present invention. The image forming apparatus 1 shown in FIG. 1 includes a plurality of sheet supply units 2, 3, 4 configured to stack sheets (copy paper, plastic film, etc.) S and a plurality of sheet supply units 2, 3, 4. 4, a sheet conveyance path 5 that guides the movement of the sheet S sent out from the sheet 4, an image forming unit 6 disposed in the middle of the sheet conveyance path 5, and a toner image transferred to the sheet S by the image forming unit 6. The fixing unit 7 that fixes the sheet S, the sheet discharge path 10 that guides the sheet S sent out from the fixing unit 7 onto the sheet discharge tray 8, and the downstream end of the sheet discharge path 10 in the sheet conveyance direction are disposed. A sheet discharge roller (sheet discharge unit) 11, a branch path 12 that branches and extends from the sheet discharge path 10, and a sheet S conveyed through the branch path 12 are reversed so that the sheet is more sealed than the image forming unit 6. A duplex unit 13 back to the sheet conveying path 5 on the upstream side in the transport direction, and a. Further, a control means (CPU) 15 for outputting a signal for driving and controlling the sheet supply means 2, 3, 4, the image forming section 6, the fixing section 7, the sheet discharge roller 11 and the like is installed in the apparatus main body 14. Has been.
[0015]
When the sheet S printed on one side is turned upside down and discharged onto the sheet discharge tray 8, the sheet discharged from the fixing unit 7 is fed to the sheet support unit of the duplex printing unit 13 via the branch path 12. Then, the sheet S is fed to the front / back reversing path 17 with the trailing edge of the sheet carried on the sheet support 16 as a leading edge, and the sheet S is returned from the front / back reversing path 17 to the sheet discharge path 10. As a result, the sheet S is discharged in a state where the sheet is reversed on the sheet discharge tray by the sheet discharge roller 11. In the following description, the downstream in the sheet conveying direction is simply abbreviated as downstream, and the upstream in the sheet conveying direction is simply abbreviated as upstream.
[0016]
In FIG. 1, the image forming unit 6 includes a drum-shaped photoconductor 18 and a charging device 20, an exposure device 21, a developing device 22, a transfer device 23, a cleaning device 24, and the like disposed around the photoconductor 18. It has. In the image forming unit 6 having such a configuration, the photosensitive member 18 is rotationally driven in the direction of arrow A at a predetermined process speed (circumferential speed) by a driving unit (not shown), and the surface thereof is set to a predetermined polarity and potential by the charging device 20. Uniformly charged. An electrostatic latent image is formed on the surface of the charged photoreceptor 18 by the exposure device 21. Here, the exposure device 21 applies laser light to the surface of the photoconductor 18 based on image information from a scanner unit (not shown) or other image forming apparatus, computer, scanner or the like connected by communication means such as a network. , And the electrostatic charge image corresponding to the image information is formed by removing the charge of the laser beam irradiated portion on the surface of the photoconductor 18. The electrostatic latent image formed on the surface of the photosensitive member 18 is developed as a toner image by electrostatically attaching a charged toner to the developing device 22. The toner image attached to the surface of the photoreceptor 18 is transferred to the sheet S by the transfer device 23.
[0017]
As shown in FIG. 1, a sheet feed sensor 25 is disposed at the upstream end of the sheet conveyance path 5 that guides the conveyance of the sheet S sent from each sheet supply means 2, 3, 4. A paper discharge sensor (detection means) 26 is disposed at the downstream end of the sheet. Further, the double-sided printing unit 13 is provided with a sheet detection sensor 27 that detects the sheet S sent from the branch path 12. A branch claw 28 is arranged at a branch portion between the sheet discharge path 10 and the branch path 12, and the branch claw 28 switches the conveyance path of the sheet S. That is, the sheet S sent out from the fixing unit 7 is guided to either the sheet discharge path 10 or the branch path 12 by the branch claw 28.
[0018]
FIG. 2 is a control block diagram of the image forming apparatus 1 according to the present embodiment. As shown in FIG. 2, the control unit 15 includes a motor 31, an image forming unit 6, and a fixing unit based on signals from a paper feed sensor 25, a paper discharge sensor 26, a sheet detection sensor 27, a start signal input unit 30, and the like. The unit 7 and the branch claw 28 are driven and controlled. The motor 31 is connected to the sheet feeding roller 32 and the sheet conveying roller 33 of the sheet supply means 2, 3, 4 via a power transmission mechanism (not shown), and discharges the sheet via a power transmission mechanism (not shown) and a clutch 34. It is connected to the roller 11. The branching claw 28 switches the conveyance path of the sheet S when the solenoid is energized, and connects the sheet conveyance path 5 and the sheet discharge path 10 when OFF, and branches from the sheet conveyance path 5 when ON. The path 12 is connected (see FIG. 1). The start signal input means 30 refers to a print start button disposed in an operation unit (not shown) of the image forming apparatus 1 or a print start key of a computer, a copier, a facsimile, or the like connected by a network or communication means. Shall. The control unit 15 controls the operation of the exposure device 21 of the image forming unit 6 based on image data read by a scanner unit (not shown) or image data received via a network or communication unit.
[0019]
(Single-sided printing operation)
Next, the single-sided printing operation of the image forming apparatus 1 according to the present embodiment will be described with reference to FIGS.
[0020]
Among the plurality of sheet supply units 2, 3, and 4, the sheet S is sent out from the sheet supply unit (2, 3, 4) in which the sheet S having a size that matches the printing conditions is accommodated, and the sheet S passes through the sheet conveyance path. 5 is conveyed to the registration roller 35. At this time, when printing on a plurality of sheets S, the sheets S are continuously sent out from the sheet supply means (2, 3, 4) at predetermined intervals. Will exist.
[0021]
The sheet S conveyed to the registration roller 35 is corrected in skew by the registration roller 35 and is sent out to the transfer position by the registration roller 35 at a predetermined timing for transferring the toner image on the photoconductor 18. The sheet S on which the toner image is transferred by the image forming unit 6 is sent to the fixing unit 7 and is heated and pressed by the fixing unit 7 to fix the toner image. The sheet S sent out from the fixing unit 7 is guided to the branch claw 28 in the OFF state, conveyed from the sheet conveying path 5 to the sheet discharging path 10, and discharged onto the sheet discharge tray 8 by the sheet discharging roller 11. Is done.
[0022]
After the discharge sensor 26 detects the leading edge of the sheet (step S1) and the discharge sensor 26 detects the trailing edge of the sheet after a predetermined time (step S2), the control unit 15 determines that the sheet S has been discharged normally. Then, the print job is continued until the count by the paper feed sensor 25 reaches a predetermined value (steps S3 and S6).
[0023]
Further, when the count number of the paper feed sensor 25 reaches a predetermined value (step S3), the control unit 15 stops the paper feed roller 32 (step S4), and the count number of the paper discharge sensor 26 is equal to that of the paper feed sensor 25. When the count number is met (step S5), the operations of the sheet conveying roller 33, the image forming unit 6, the fixing unit 7, the sheet discharge roller 11, and the like are stopped, and the print job is ended. If the count number of the paper discharge sensor 26 does not match the count number of the paper feed sensor 25 (step S5), the print job is executed until the count number of the paper discharge sensor 26 matches the count number of the paper feed sensor 25. Continue (step S6, steps S3 to S5).
[0024]
Next, an operation state when a paper jam (jam) occurs in the sheet discharge roller (sheet discharge unit) 11 during the one-side printing operation will be described with reference to FIGS.
[0025]
After the discharge sensor 26 detects the leading edge of the sheet (step S1), the control means 15 detects that the discharge sensor 26 cannot detect the passage of the trailing edge of the sheet (step S2) even after a predetermined time has elapsed (step S2). It is determined that a jam has occurred in the sheet discharge roller 11). Based on the determination result, the control unit 15 disengages the clutch 34, stops the sheet discharge roller 11, stops the paper feed roller 32, and turns on the branch claw 28 (step S10). Thereby, the communication between the sheet conveyance path 5 and the sheet discharge path 10 is blocked by the branch claw 28, and the sheet conveyance path 5 and the branch path 12 communicate with each other. The sheet S positioned in the sheet conveyance path 5 upstream of the branch claw 28 is guided to the branch path 12 after passing through the image forming unit 6 and the fixing unit 7, and the sheet conveyance roller disposed in the branch path 12. In 33, the sheet is fed into the sheet support portion 16 of the duplex printing unit 13. At this time, the control means 15 calculates the number of sheets (N) existing in the sheet conveyance path 5 upstream of the branching claw 28 based on the sheet detection signals from the paper discharge sensor 26 and the paper feed sensor 25. (Step S11), the print job is executed until the count number of the sheet detection sensor 27 of the duplex printing unit 13 reaches (N) (Steps S12 and S13), and the count number of the sheet detection sensor 27 of the duplex printing unit 13 is ( N) (step S12), the operation of the sheet conveying roller 33, the image forming unit 6, the fixing unit 7 and the branching claw 28 is stopped and the process ends.
[0026]
As a result, after the sheet S in which a paper jam has occurred in the sheet discharge unit (sheet discharge roller 11), all of the sheets S fed into the sheet conveyance path 5 are collected on the sheet support unit 16 of the duplex printing unit 13. It will be. Accordingly, the sheet S in which a paper jam has occurred in the sheet discharge unit (sheet discharge roller 11) is removed, the duplex printing unit 13 is pulled out from the apparatus main body 14, and the sheets S stacked on the sheet support unit 16 of the duplex printing unit 13 are removed. If you remove them all together, the jam process is complete.
[0027]
(Double-sided printing operation)
Next, a double-sided printing operation of the image forming apparatus 1 according to the present embodiment will be described with reference to FIGS.
[0028]
When the duplex printing mode is selected by an operation unit or the like (not shown) and the duplex printing mode selection signal is input to the control unit 15, the branch claw 28 is turned on by the control unit 15, and the sheet conveyance path 5, the branch path 12, Is communicated. Then, the sheet S sent out from any one of the plurality of sheet supply units 2, 3, 4 is conveyed along the sheet conveyance path 5 and is fed into the image forming unit 6 through the registration roller 35. The sheet S sent to the image forming unit 6 is conveyed to the fixing unit 7 after the toner image is transferred to one side. The sheet S sent to the fixing unit 7 is heated and pressurized by the fixing unit 7 to fix the toner image, and is guided by the branching claws 28 and sent to the branching path 12. The sheet S sent to the branch path 12 is sent to the duplex printing unit 13 and enters the sheet support portion 16 of the duplex printing unit 13 from the front end side. Then, the sheet S sent to the sheet support unit 16 of the duplex printing unit 13 is sent out to the reflux path 37 by the switchback roller 36 with the rear end side as the leading end. The reflux path 37 of the duplex printing unit 13 is connected to the sheet conveyance path 5 on the upstream side of the image forming unit 6, and the sheet conveyance path 5 with the sheet S sent out from the sheet support unit 16 turned upside down. Return to.
[0029]
In order to perform efficient double-sided printing at the time of executing double-sided printing, a plurality of sheets are included in a loop-shaped conveyance path formed by the branch path 12, the sheet support unit 16, the reflux path 37, and the sheet conveyance path 5. (M sheets) of sheets S are continuously conveyed at a predetermined interval. The duplex unit 13 is provided with a drive motor (not shown) whose operation is controlled by the control means 15. The rollers (36, 38, 40) are rotated by the drive motor.
[0030]
The sheet S returned from the double-sided printing unit 13 to the sheet conveyance path 5 is sent again to the image forming unit 6 by the registration roller 35, and the toner image is transferred by the image forming unit 6 to the other side not yet printed. Thereafter, the toner image is fixed by the fixing unit 7. As a result, printing is performed on both sides of the sheet S. Here, the branching claw 28 is turned OFF at the timing when the M-th sheet S on which single-sided printing has been passed, interrupts the communication between the sheet conveyance path 5 and the branch path 12, and the sheet conveyance path 5 and the sheet discharge path 10. To communicate. Therefore, when the double-side printed sheet S is sent out from the fixing unit 7, the branching claw 28 is in an OFF state.
[0031]
The double-side printed sheet S sent out from the fixing unit 7 is guided by the branching claw 28, conveyed through the sheet discharge path 10 from the sheet conveyance path 5, and discharged onto the discharge tray 8 by the sheet discharge roller 11.
[0032]
In the case where double-sided printing is continuously performed on the (M + 1) th and subsequent sheets S, a predetermined distance from the M-th sheet S returned from the reflux path 37 of the double-sided printing unit 13 to the sheet conveyance path 5 exists. As will be apparent, the (M + 1) th and subsequent sheets S are sent out from any one of the sheet supply means 2, 3 and 4.
[0033]
Next, an operation state when a paper jam (jam) occurs in the sheet discharge roller (sheet discharge unit) 11 during the double-sided printing operation will be described with reference to FIGS.
[0034]
After the discharge sensor 26 detects the leading edge of the sheet (step S1), the control means 15 detects that the discharge sensor 26 cannot detect the passage of the trailing edge of the sheet (step S2) even after a predetermined time has elapsed (step S2). It is determined that a jam has occurred in the sheet discharge roller 11). Based on the determination result, the control unit 15 disengages the clutch 34, stops the sheet discharge roller 11, stops the paper feed roller 32, and turns on the branch claw 28 (step S10). Thereby, the communication between the sheet conveyance path 5 and the sheet discharge path 10 is blocked by the branch claw 28, and the sheet conveyance path 5 and the branch path 12 communicate with each other. The sheet S positioned in the sheet conveyance path 5 upstream of the branch claw 28 is guided to the branch path 12 after passing through the image forming unit 6 and the fixing unit 7, and the sheet conveyance roller disposed in the branch path 12. At 33, the sheet is fed onto the sheet support portion 12 of the duplex printing unit 13. At this time, the control means 15 calculates the number of sheets (N) existing in the sheet conveyance path 5 upstream of the branching claw 28 based on the sheet detection signals from the paper discharge sensor 26 and the paper feed sensor 25. (Step S11), the print job is executed until the count number of the sheet detection sensor 27 of the duplex printing unit 13 reaches (N) (Steps S12 and S13), and the count number of the sheet detection sensor 27 of the duplex printing unit 13 is ( N) (step S12), the operation of the sheet conveying roller 33, the image forming unit 6, the fixing unit 7 and the branching claw 28 is stopped and the process ends.
[0035]
As a result, after the sheet S in which a paper jam has occurred in the sheet discharge unit (sheet discharge roller 11), all of the sheets S fed into the sheet conveyance path 5 are collected on the sheet support unit 16 of the duplex printing unit 13. It will be. Accordingly, the sheet S in which the paper jam has occurred in the sheet ejection unit (sheet ejection roller 11) is removed, the duplex printing unit 13 is pulled out from the apparatus main body 14, and the sheet S stacked on the sheet support unit 16 of the duplex printing unit 13 is removed. If you remove them all together, the jam process is complete.
[0036]
(Effect of this embodiment)
As described above, in the image forming apparatus 1 according to the present embodiment, when a jam occurs in the sheet discharge unit (sheet discharge roller 11), the sheet supply unit (2, 3) is placed after the sheet S that caused the jam. , 4) all of the sheets S sent to the sheet conveyance path 5 are collected on the sheet support portion 16 of the duplex printing unit 13, and the duplex printing unit 13 is pulled out from the apparatus main body 14 and the duplex printing unit 13 is pulled out. Since the sheets S collected on the 13 sheet support portions 16 can be taken out collectively, the jam handling operation is facilitated as compared with the case where the plurality of sheets S scattered in the sheet conveying path 5 are individually removed. In addition, the jam processing time can be shortened. Therefore, the stop time (down time) of the image forming apparatus due to the occurrence of jam can be reduced.
[0037]
Further, in the image forming apparatus 1 according to the present embodiment, the double-sided printing unit 13 is a place where the sheet S sent to the sheet conveyance path 5 after the jammed sheet S is stacked, and is upstream of the image forming unit 6. Since the sheets S are not stacked in the middle of the sheet conveying path 5 on the side (not as in Patent Document 1), the printing speed during normal one-side printing is not reduced.
[0038]
Further, as described above, the image forming apparatus 1 according to the present embodiment includes the sheet conveyance path (the reflux path 37, the sheet conveyance path) among the sheets S fed from the sheet supply unit (2, 3, 4). 5) The sheets S in the sheet are collected on the sheet support portion 16 of the duplex printing unit 13, so that the sheets S are not scattered in the reflux path 37 and the sheet transport path 5, and a plurality of sheets S are provided. Since the sheet S is not located between the members, when removing the sheet S from the apparatus main body 14, the sheet S is not torn and left on any member side, and the jam processing is surely performed. be able to.
[0039]
[Second Embodiment]
FIG. 4 shows an image forming apparatus 1 according to the second embodiment of the present invention. In the image forming apparatus shown in FIG. 4, the same components as those of the image forming apparatus 1 shown in FIG. 1 are denoted by the same reference numerals, and a description overlapping the description of the image forming apparatus 1 shown in FIG. Omitted.
[0040]
The image forming apparatus 1 according to the present embodiment shown in FIG. 4 has a sheet post-processing device 41 attached in place of the paper discharge tray 8 of the image forming apparatus 1 according to the first embodiment. The sheet post-processing apparatus 41 is configured to connect the post-processing conveyance path 42 to the sheet discharge path 10 in the apparatus main body 14, and post-processing means (for example, punching means, staples) disposed in the post-processing conveyance path 42. The sheet S is post-processed by means 43), and the processed sheet S is discharged onto the discharge tray 45 by the discharge roller 44. A sheet detection sensor (detection means) 46 that detects a paper jam in the post-processing means 43 is disposed in the post-processing conveyance path 42, and a detection signal of the sheet detection sensor 46 is output to the control means 15. It has become so. The operation of the sheet post-processing device 41 is controlled by the control unit 15, and the operations of the transport roller 47, the post-processing unit 43 and the paper discharge roller 44 disposed in the post-processing transport path 42 are controlled by the control unit. 15 is controlled.
[0041]
When the control unit 15 determines that a jam has occurred in the sheet discharge roller (sheet discharge unit) 11 or the post-processing unit 43 based on the sheet detection signal from the sheet discharge sensor 26 or the sheet detection sensor 46, the sheet post-processing device 41, and the operation of the image forming unit 6, the fixing unit 7, the branch claw 28, the motor 31 and the like are controlled in the same manner as in the first embodiment, and the sheet conveyance path after the jammed sheet S. All the sheets S sent to 5 are collected on the sheet support portion 16 of the duplex printing unit 13.
[0042]
Therefore, the image forming apparatus 1 of the present embodiment can obtain the same effects as those of the first embodiment. In the present embodiment, the sheet post-processing device 41 is attached to the apparatus main body 14 and constitutes the image forming apparatus 1 as a whole. A paper discharge sensor may be arranged to detect a jam at the paper discharge roller (sheet discharge unit) 44, and the above-described jam processing may be performed based on the detection result.
[0043]
[Other embodiments]
In each of the above embodiments, an electrophotographic image forming apparatus has been exemplified. However, the present invention is not limited to this, and the image forming unit 6 and the fixing unit 7 of each of the above embodiments may be combined with an inkjet printing unit ( It may be replaced with another image forming unit).
[0044]
In each of the above embodiments, the transfer device 23 uses a transfer corotron and a separation corotron. However, instead of these, a transfer roller or a transfer belt may be used.
[0045]
Further, in each of the above embodiments, an example in which the sheet S in the sheet conveyance path 5 or the like is collected on the sheet support portion 16 of the double-sided printing unit 13 when a jam occurs has been illustrated. As much as possible, it may be collected in a place other than the sheet support part 16 of the duplex printing unit 13 (for example, the reflux path 37).
[0046]
【The invention's effect】
As described above, according to the present invention, when a jam occurs in the sheet discharge unit, all of the sheets fed from the sheet supply unit to the sheet conveyance path after the sheet causing the jam are collected in the duplex printing unit. The double-sided printing unit can be pulled out from the main body of the apparatus, and the sheets collected in the double-sided printing unit can be taken out together. Therefore, a plurality of sheets scattered in the sheet conveyance path are individually removed. Compared to the case, the jam processing work can be facilitated and the jam processing work time can be shortened. Therefore, according to the present invention, it is possible to reduce the stop time (downtime) of the image forming apparatus due to the occurrence of a jam.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an image forming apparatus according to a first embodiment of the present invention.
FIG. 2 is a control block diagram of the image forming apparatus in FIG.
FIG. 3 is a flowchart illustrating an operation state of the image forming apparatus in FIG.
FIG. 4 is a schematic configuration diagram of an image forming apparatus according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image forming apparatus, 2, 3, 4 ... Sheet supply means, 5 ... Sheet conveyance path, 6 ... Image forming part, 10 ... Sheet discharge path, 11 ... Sheet discharge roller (sheet discharge part) , 12... Branch path, 13... Double-sided printing unit, 14... Main body, 26... Paper discharge sensor (detection means), 43. …… Sheet

Claims (2)

A sheet conveyance path for guiding the sheet fed from the sheet supply means;
An image forming unit that is arranged in the middle of the sheet conveyance path and prints on the sheet;
A sheet discharge section disposed in a sheet discharge path connected to a downstream end of the sheet conveyance path, and discharges the sheet sent from the sheet conveyance path to the sheet discharge path to the outside of the apparatus main body;
Connected to the downstream end of the sheet conveying path via a branch path, is attached to the apparatus main body so that it can be pulled out, and the image forming unit reverses the front and back of the sheet to form the image. A duplex printing unit that returns to the sheet conveyance path upstream of the unit in the sheet conveyance direction;
In an image forming apparatus comprising:
A paper feed sensor for detecting a sheet sent from the sheet supply means to the sheet conveyance path;
A paper discharge sensor that detects a sheet sent from the sheet conveyance path to the sheet discharge path;
A sheet detection sensor for detecting a sheet sent from the branch path to the duplex printing unit;
A branch claw that selectively connects the sheet transport path to the sheet discharge path or the branch path to switch the sheet transport path;
If the paper discharge sensor cannot detect the passage of the trailing edge of the sheet detected after the predetermined time has elapsed after the paper discharge sensor detects the front edge of the sheet, a jam has occurred in the sheet discharge unit. Determining, stopping the operation of the sheet discharge unit and the sheet supply means, blocking the sheet conveyance path and the sheet discharge path by the branch claw, and connecting the sheet conveyance path and the branch path, and the sheet conveyance The number of sheets (N) existing on the path is calculated based on the sheet detection signals of the paper discharge sensor and the paper feed sensor, and the number of sheets detected by the sheet detection sensor becomes the number of sheets (N). A control unit that operates the image forming unit and conveys all the sheets in the sheet conveyance path into the duplex printing unit;
An image forming apparatus comprising: A sheet conveyance path for guiding the sheet fed from the sheet supply means;
An image forming unit that is arranged in the middle of the sheet conveyance path and prints on the sheet;
A sheet discharge section disposed in a sheet discharge path connected to a downstream end of the sheet conveyance path, and discharges the sheet sent from the sheet conveyance path to the sheet discharge path to the outside of the apparatus main body;
Post-processing means for performing post-processing on the sheet discharged from the sheet discharge section;
Connected to the downstream end of the sheet conveying path via a branch path, is attached to the apparatus main body so that it can be pulled out, and the image forming unit reverses the front and back of the sheet to form the image. A duplex printing unit for returning to the sheet conveyance path upstream of the sheet conveyance direction,
In an image forming apparatus comprising:
A paper feed sensor for detecting a sheet sent from the sheet supply means to the sheet conveyance path;
A paper discharge sensor that detects a sheet sent from the sheet conveyance path to the sheet discharge path;
A sheet detection sensor for detecting a sheet sent from the branch path to the duplex printing unit;
Detection means for detecting the occurrence of jam in the post-processing means;
A branch claw that selectively connects the sheet transport path to the sheet discharge path or the branch path to switch the sheet transport path;
After the paper discharge sensor detects the leading edge of the sheet, the trailing edge the sheet discharge sensor the passage of the sheet was also the leading edge detection by a lapse of a predetermined time can not be detected, the jam has occurred in the sheet discharge portion Or if it is determined that a jam has occurred in the post-processing means based on the detection signal of the detection means, the operation of the sheet discharge section and the sheet supply means is stopped, and the sheet conveyance is performed by the branching claw. The sheet discharge path and the sheet discharge path are shut off, the sheet conveyance path and the branch path are connected, and the number of sheets (N) existing in the sheet conveyance path is determined by the sheet detection signal of the sheet discharge sensor and the sheet feed sensor. The image forming unit is operated until the number of sheets detected by the sheet detection sensor reaches the number of sheets (N), and all the sheets in the sheet conveyance path are And control means for conveying to the printing unit,
An image forming apparatus comprising:

Images