JP2022037553A - Sheet processing device - Google Patents

Abstract

To provide a sheet processing device capable of positioning a conveyance direction rear end of a preceding sheet and a conveyance direction front end of a subsequent sheet to each other.SOLUTION: A detection part 26 outputs first detection information in which ON information transitions to OFF information, when detecting that a conveyance direction rear end of a preceding sheet 50 passes. A clocking part 30 that clocks a predetermined time outputs first timing information indicating that the predetermined time elapses. Further, A conveyance control part 22 stops driving of an upstream side conveyance roller 24a and a downstream side conveyance roller 24b. The conveyance control part 22 conveys a subsequent sheet 52 by driving the upstream side conveyance roller 24. The detection part 26 outputs second detection information in which the OFF information transitions to the ON information, when detecting a conveyance direction front end of the subsequent sheet 52. The clocking part 30 that clocks the predetermined time outputs second timing information. Further, the conveyance control part 22 stops driving of the upstream side conveyance roller 24a.SELECTED DRAWING: Figure 3

Description

The present invention relates to a sheet processing apparatus.

Patent Document 1 discloses a splicing device that engages a rear end portion of a conventional continuous paper and a front end portion of a subsequent continuous paper and adheres them to each other.

Japanese Unexamined Patent Publication No. 4-94356

However, Patent Document 1 does not disclose a technique for accurately aligning the rear end portion of the conventional continuous paper with the front end portion of the subsequent continuous paper.

An object of the present invention is to provide a sheet processing apparatus capable of aligning a rear end in a transport direction of a preceding sheet and a tip in a transport direction of a succeeding sheet following the preceding sheet.

The sheet processing apparatus according to the present invention includes a transport unit, a transport control unit, a detection unit, and a timekeeping unit. The transport unit includes an upstream transport roller and a downstream transport roller that transports the preceding sheet or the succeeding sheet following the preceding sheet. The transport control unit controls the drive of the upstream transport roller and the downstream transport roller. When the detection unit detects that the rear end of the preceding sheet in the transport direction has passed, it outputs the first detection information in which the ON information has changed to the OFF information. The timekeeping unit measures a predetermined time based on the first detection information, and outputs the first timekeeping information indicating that the predetermined time has elapsed. Based on the first timekeeping information, the transfer control unit stops driving the upstream transfer roller and the downstream transfer roller, and drives the upstream transfer roller and the downstream transfer roller to drive the subsequent sheet. To be transported. When the detection unit detects the tip of the succeeding sheet in the transport direction, the detection unit outputs the second detection information in which the OFF information transitions to the ON information. The timekeeping unit measures a predetermined time based on the second detection information, and outputs the second timekeeping information indicating that the predetermined time has elapsed. The transfer control unit stops driving the upstream transfer roller based on the second timekeeping information.

According to the sheet processing apparatus of the present invention, the rear end in the transport direction of the preceding sheet and the tip in the transport direction of the succeeding sheet following the preceding sheet can be aligned.

It is a figure which shows the image forming apparatus which comprises the sheet processing apparatus which concerns on embodiment of this invention. It is a block diagram which shows the structure of the sheet processing apparatus which concerns on this embodiment. (A) to (e) are diagrams showing the operation of the sheet processing apparatus according to the first embodiment. (A)-(f) is a figure which shows the operation of the sheet processing apparatus which concerns on Embodiment 2 and Embodiment 3. (A) to (d) are diagrams showing the operation of the sheet processing apparatus according to the fourth embodiment. (A) and (b) are diagrams showing the operation of the sheet processing apparatus according to the fifth embodiment. Is the figure which shows the operation of the sheet processing apparatus which concerns on Embodiment 6. Is a flowchart showing information processing by the sheet processing apparatus according to the first embodiment and the sixth embodiment. Is a flowchart showing information processing by the sheet processing apparatus according to the second embodiment. Is a flowchart showing information processing by the sheet processing apparatus according to the third embodiment. Is a flowchart showing information processing by the sheet processing apparatus according to the fourth embodiment. Is a flowchart showing information processing by the sheet processing apparatus according to the fifth embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the figure, the same or corresponding parts are designated by the same reference numerals and the description is not repeated.

First, the image forming apparatus 1 will be described with reference to FIG. FIG. 1 is a diagram showing an image forming apparatus 1 according to an embodiment of the present invention.

In FIG. 1, the image forming apparatus 1 includes a sheet processing apparatus 10, a reading unit 11, an operation unit 13, and an image forming unit 16. Specific examples of the image forming apparatus 1 are a printer, a fax machine, and a multifunction device.

The sheet processing device 10 processes the sheet that has been image-formed and discharged to the discharge unit 18 described later. A specific example of the sheet processing apparatus 10 is a finisher. Although the sheet processing device 10 is arranged in the image forming apparatus 1, it may be a finisher externally connected to the image forming apparatus 1 independently of the image forming apparatus 1.

For example, the sheet processing device 10 may punch holes in the sheet discharged to the discharge unit 18. The sheet processing device 10 may bind the sheets discharged to the discharge unit 18.

Further, the sheet processing device 10 may join the sheets discharged to the discharge unit 18 to generate a continuous sheet. The process of joining the sheets to generate a continuous sheet will be described in detail in FIGS. 3 and 3 and later.

The reading unit 11 includes an automatic document feeding device (ADF: Auto Document Feeder) and a scanner.

The reading unit 11 further has a feeding tray 12. A document (sheet) (not shown) placed on the feed tray 12 is conveyed to a document reading surface (not shown) by a transfer mechanism (not shown) of the reading unit 11, read by a reading mechanism (not shown), and converted into image data. To.

The operation unit 13 has a display unit 14 and an input unit 15.

The operation unit 13 receives an operation from the user.

The display unit 14 displays information to the user, or outputs the information input by the user to the control unit 20 described with reference to FIG. The display unit 14 includes, for example, a display such as an LCD (Liquid Crystal Display), and displays various images. Further, the display has a touch panel function and may include a touch sensor. The display having the touch panel function constitutes a part of the input unit 15. The input unit 15 may include a plurality of hardware buttons capable of inputting information.

Numbers, symbols, etc. are attached to the input unit 15. The user can operate the input unit 15 to input numerical values, symbols, and the like.

The user can operate the display unit 14 to perform, for example, an image formation instruction, an image formation setting, a data transmission / reception instruction, a data transmission / reception setting, an image reading instruction, and an image reading setting.

The image forming unit 16 has a feeding unit 17 and a discharging unit 18.

Inside the image forming unit 16, for example, a feeding mechanism, a conveying mechanism, an image forming mechanism, or a discharging mechanism is arranged as a printing mechanism (not shown).

The feeding unit 17 can be pulled out from the image forming unit 16, and a sheet (not shown) placed on the feeding unit 17 is fed by a feeding mechanism and a transporting mechanism.

For example, in the case of the electrophotographic method, the sheet fed by the feeding mechanism is image-formed with a colorant such as toner and a coloring material by the charging mechanism, the exposure mechanism, the developing mechanism, and the transfer mechanism of the image forming unit 16. , Transported to the discharge mechanism. For example, in the case of the inkjet method, the sheet is image-formed by the ink cartridge and the ink head of the image forming unit 16 with a colorant such as ink and a coloring material, and is conveyed to the ejection mechanism.

The sheet is discharged to the discharge unit 18 by the discharge mechanism.

(Embodiment 1)
Next, in addition to FIG. 1, the sheet processing apparatus 10 according to the first embodiment will be described in detail with reference to FIGS. 2 and 3.

The sheet processing device 10 according to the first embodiment includes a transport unit 24, a transport control unit 22, a detection unit 26, and a timekeeping unit 30. The transport unit 24 includes an upstream transport roller 24a and a downstream transport roller 24b that transport the preceding sheet 50 or the succeeding sheet 52 following the preceding sheet 50. The transport control unit 22 controls the drive of the upstream transport roller 24a and the downstream transport roller 24b. When the detection unit 26 detects that the rear end of the preceding sheet 50 in the transport direction has passed, it outputs the first detection information in which the ON information has changed to the OFF information. The timekeeping unit 30 measures the predetermined time t based on the first detection information, and outputs the first timekeeping information indicating that the predetermined time t has elapsed.

Further, the transport control unit 22 stops driving the upstream transport roller 24a and the downstream transport roller 24b based on the first timekeeping information, and drives the upstream transport roller 24a to transport the succeeding sheet 52. When the detection unit 26 detects the tip of the succeeding sheet 52 in the transport direction, the detection unit 26 outputs the second detection information in which the OFF information has changed to the ON information. The timekeeping unit 30 measures the predetermined time t based on the second detection information, and outputs the second timekeeping information indicating that the predetermined time t has elapsed. The transfer control unit 22 further stops driving the upstream transfer roller 24a based on the second timekeeping information.

As shown in FIG. 2, the sheet processing device 10 includes a control unit 20, a transfer control unit 22, a transfer unit 24, a detection unit 26, a storage unit 28, a timekeeping unit 30, and an upstream detection unit 32. , Downstream side detection unit 34, double feed detection unit 36, wave leakage detection unit 38, and connection unit 40.

However, the control unit 20, the transfer control unit 22, the detection unit 26, the storage unit 28, and the timekeeping unit 30 may be provided by the image forming device 1 or an external device instead of the sheet processing device 10.

The control unit 20 and the transfer control unit 22 include processors such as a CPU (Central Processing Unit) and a GPU (Graphics Processing Unit). The control unit 20 may be an integrated circuit such as a SoC (System-on-a-Chip) in which other components are integrated.

As will be described later in FIG. 3, the transport unit 24 includes an upstream transport roller 24a and a downstream transport roller 24b.

The detection unit 26, the upstream side detection unit 32, the downstream side detection unit 34, the double feed detection unit 36, and the leak detection unit 38 are realized by, for example, an ultrasonic transmitter and an ultrasonic receiver, respectively.

The timekeeping unit 30 is realized by, for example, an ASIC (Application Specific Integrated Circuit).

Specifically, the connection portion 40 is an adhesive supply device.

Hereinafter, the processing procedure will be described. The control unit 20 shown in FIG. 2 controls each unit of the sheet processing device 10.

The transport control unit 22 controls the drive of the transport unit 24 (upstream transport roller 24a, downstream transport roller 24b).

The transport unit 24 transports the sheet.

The transport unit 24 includes an upstream transport roller 24a and a downstream transport roller 24b.

That is, the transfer control unit 22 controls the drive of the upstream transfer roller 24a and the downstream transfer roller 24b.

As shown in FIG. 3A, the upstream transfer roller 24a and the downstream transfer roller 24b convey the preceding sheet 50.

The detection unit 26 detects the tip of the preceding sheet 50 in the transport direction and outputs the detection information.

When the detection unit 26 detects the preceding sheet 50 or the succeeding sheet 52 shown in FIG. 3D, it outputs detection information indicating ON information. If the detection unit 26 does not detect the preceding sheet 50 or the succeeding sheet 52, it outputs OFF information.

As shown in FIG. 3A, when the detection unit 26 detects the tip of the preceding sheet 50 in the transport direction, it outputs detection information indicating ON information.

As shown in FIG. 3B, when the detection unit 26 detects that the rear end of the preceding sheet 50 in the transport direction has passed, it outputs the first detection information in which the ON information has changed to the OFF information.

The storage unit 28 shown in FIG. 2 stores the transfer speed v of the sheet conveyed by the transfer unit 24 and the distance L from the detection unit 26 to the reference position, and stores a predetermined time t (= L / v). ..

The reference position is a position where the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 following the preceding sheet 50 are connected by the connecting portion 40 described later in FIG. 6A.

The timekeeping unit 30 measures the predetermined time t based on the first detection information in which the ON information has changed to the OFF information, and outputs the first timekeeping information indicating that the predetermined time t has elapsed.

That is, the timekeeping unit 30 measures the predetermined time t after the rear end of the preceding sheet 50 in the transport direction passes through the detection unit 26, and outputs the first timekeeping information.

As shown in FIG. 3C, the transport control unit 22 stops driving the transport unit 24 based on the first timekeeping information.

That is, the transfer control unit 22 stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the first timekeeping information.

The transport unit 24 stops transporting the preceding sheet 50.

That is, as shown in FIG. 3C, the upstream transfer roller 24a and the downstream transfer roller 24b stop the transfer of the preceding sheet 50.

At this time, as shown in FIG. 3C, the rear end of the preceding sheet 50 coincides with the reference position and stops.

Next, the transport control unit 22 drives the transport unit 24 in order to transport the succeeding sheet 52.

That is, the transfer control unit 22 drives the upstream transfer roller 24a to transfer the succeeding sheet 52.

As shown in FIG. 3D, the upstream transfer roller 24a conveys the succeeding sheet 52.

As shown in FIG. 3D, when the detection unit 26 detects the tip of the succeeding sheet 52 in the transport direction, the detection unit 26 outputs the second detection information in which the OFF information is changed to the ON information.

The timekeeping unit 30 measures the predetermined time t based on the second detection information in which the OFF information has changed to the ON information, and outputs the second timekeeping information indicating that the predetermined time t has elapsed.

That is, the timekeeping unit 30 measures the predetermined time t after the tip of the succeeding sheet 52 in the transport direction passes through the detection unit 26, and outputs the second timekeeping information.

As shown in FIG. 3 (e), the transfer control unit 22 stops driving the upstream transfer roller 24a based on the second timekeeping information. That is, the transfer control unit 22 stops the upstream transfer roller 24a when a predetermined time t has elapsed since the tip of the subsequent sheet 52 in the transfer direction has passed the detection unit 26.

According to the instruction of the transfer control unit 22, the upstream transfer roller 24a stops the transfer of the succeeding sheet 52. At this time, the tip of the succeeding sheet 52 in the transport direction coincides with the reference position.

According to the first embodiment, the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 following the preceding sheet 50 can be aligned.

(Embodiment 2)
Next, in addition to FIGS. 1 and 2, the sheet processing apparatus 10 according to the second embodiment will be described with reference to FIG. The second embodiment shows an embodiment in which the rear end in the transport direction is finely adjusted to the reference position by reverse transporting the leading sheet 50 when the rear end in the transport direction of the preceding sheet 50 has passed the reference position and stopped.

In the sheet processing apparatus 10 according to the second embodiment, the detection unit 26 has the upstream side detection unit 32 arranged immediately before the upstream side in the transport direction of the reference position where the preceding sheet 50 and the succeeding sheet 52 are connected, and the reference position. Further includes a downstream side detection unit 34 arranged immediately after the downstream side in the transport direction. The upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the first upstream side detection information in which the ON information has changed to the OFF information. The downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the first downstream side detection information in which the ON information has changed to the OFF information.

The transfer control unit 22 reversely drives the downstream transfer roller 24b based on the first upstream side detection information and the first downstream side detection information. The downstream side detection unit 34 further detects the rear end of the preceding sheet 50 in the transport direction, and outputs the second downstream side detection information in which the OFF information has changed to the ON information. The upstream side detection unit 32 further outputs the second upstream side detection information that maintains the OFF information. The transfer control unit 22 stops the downstream transfer roller 24b based on the second upstream side detection information and the second downstream side detection information.

As shown in FIG. 2, the transfer control unit 22 controls the drive of the upstream transfer roller 24a and the downstream transfer roller 24b.

As shown in FIG. 4A, the upstream transfer roller 24a and the downstream transfer roller 24b convey the preceding sheet 50.

As shown in FIG. 4B, when the detection unit 26 detects that the rear end of the preceding sheet 50 in the transport direction has passed, it outputs the detection information in which the ON information has changed to the OFF information.

The timekeeping unit 30 measures the predetermined time t based on the detection information in which the ON information has changed to the OFF information, and outputs the timekeeping information indicating that the predetermined time t has elapsed. That is, after the rear end of the preceding sheet 50 in the transport direction passes through the detection unit 26, the time t is measured for a predetermined time, and the time measurement information is output.

As shown in FIG. 4C, the transfer control unit 22 stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the timekeeping information.

The upstream transfer roller 24a and the downstream transfer roller 24b stop the transfer of the preceding sheet 50. That is, the upstream transport roller 24a and the downstream transport roller 24b stop when a predetermined time t has elapsed after the rear end of the preceding sheet 50 in the transport direction has passed.

The detection unit 26 includes an upstream side detection unit 32 arranged immediately before the upstream side in the transport direction of the reference position to which the preceding sheet 50 and the succeeding sheet 52 are connected, and a downstream side detection unit arranged immediately after the downstream side in the transport direction. 34 and is further included.

As shown in FIG. 4C, even if the transport control unit 22 transports the transport unit 24 based on the timekeeping information, the preceding sheet 50 may pass through the reference position. As shown in FIG. 4C, the upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the first upstream side detection information in which the ON information has changed to the OFF information. do.

As shown in FIG. 4C, the downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the first downstream side detection information in which the ON information has changed to the OFF information. do.

As shown in FIG. 4D, the transfer control unit 22 reversely drives the downstream transfer roller 24b based on the first upstream side detection information and the first downstream side detection information.

The downstream transfer roller 24b reversely conveys the preceding sheet 50 according to the instruction of the transfer control unit 22.

As shown in FIG. 4D, the downstream side detection unit 34 detects the rear end of the preceding sheet 50 in the transport direction and outputs the second downstream side detection information in which the OFF information has changed to the ON information.

The upstream side detection unit 32 outputs the second upstream side detection information that maintains the OFF information.

As shown in FIG. 4D, the transfer control unit 22 stops the downstream transfer roller 24b based on the second upstream side detection information and the second downstream side detection information.

The downstream transfer roller 24b stops the reverse transfer of the preceding sheet 50 according to the instruction of the transfer control unit 22. At this time, the rear end of the preceding sheet 50 in the transport direction coincides with the reference position.

According to the sheet processing apparatus 10 according to the second embodiment, even if the rear end in the transport direction of the preceding sheet 50 passes through the reference position and stops, the downstream transport roller 24b finely adjusts the rear end in the transport direction of the preceding sheet 50. And it can be adjusted to the reference position.

(Embodiment 3)
Next, in addition to FIGS. 1 and 2, the sheet processing apparatus 10 according to the third embodiment will be described with reference to FIG. In the third embodiment, when the rear end of the leading sheet 50 in the transport direction does not reach the reference position and stops, the leading sheet 50 is further forward-rotated to finely adjust the rear end in the transport direction to the reference position. Is shown.

In the sheet processing apparatus 10 according to the third embodiment, the detection unit 26 is the upstream side detection unit 32 arranged immediately before the upstream side in the transport direction of the reference position where the preceding sheet 50 and the succeeding sheet 52 are connected, and the reference position. Further includes a downstream side detection unit 34 arranged immediately after the downstream side in the transport direction. The upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the third upstream side detection information that maintains the ON information. The downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the third downstream side detection information that maintains the ON information. The transport control unit 22 drives the downstream transport roller 24b to rotate forward based on the third upstream side detection information and the third downstream side detection information.

The upstream side detection unit 32 further detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the fourth upstream side detection information that transitions the ON information to the OFF information. The downstream side detection unit 34 further detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the fourth downstream side detection information that maintains the ON information. The transfer control unit 22 stops the downstream transfer roller 24b based on the fourth upstream side detection information and the fourth downstream side detection information.

As shown in FIG. 4 (e), even if the transport control unit 22 transports the transport unit 24 based on the timekeeping information, the preceding sheet 50 may not reach the reference position. As shown in FIG. 4 (e), the upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the third upstream side detection information that maintains the ON information. ..

As shown in FIG. 4 (e), the downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the third downstream side detection information that maintains the ON information. ..

As shown in FIG. 4 (e), the transfer control unit 22 drives the downstream transfer roller 24b to rotate forward based on the third upstream side detection information and the third downstream side detection information.

The downstream transfer roller 24b transports the preceding sheet 50 in the forward direction according to the instruction of the transfer control unit 22.

As shown in FIG. 4 (f), the upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the fourth upstream side detection information that transitions the ON information to the OFF information. do.

As shown in FIG. 4 (f), the downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the fourth downstream side detection information that maintains the ON information. ..

As shown in FIG. 4 (f), the transfer control unit 22 stops the downstream transfer roller 24b based on the fourth upstream side detection information and the fourth downstream side detection information.

The downstream side transfer roller 24b stops the forward rotation transfer of the preceding sheet 50 according to the instruction of the transfer control unit 22. At this time, the rear end of the preceding sheet 50 in the transport direction coincides with the reference position.

According to the sheet processing apparatus 10 according to the third embodiment, when the rear end of the leading sheet 50 in the transport direction does not reach the reference position and stops, the leading sheet 50 is further forward-rotated and thus the rear end in the transport direction. Can be fine-tuned to the reference position.

(Embodiment 4)
Next, in addition to FIGS. 1 and 2, the sheet processing apparatus 10 according to the fourth embodiment will be described with reference to FIGS. 5A to 5D. In the fourth embodiment, when the preceding sheet 50 and the succeeding sheet 52 overlap each other in the vicinity of the reference position and stop (when double feeding occurs), the succeeding sheet 52 is reversely conveyed to eliminate the double feeding. An embodiment in which the tip of the succeeding sheet 52 in the transport direction is finely adjusted to a reference position is shown.

The sheet processing device 10 according to the fourth embodiment further includes a double feed detection unit 36. The double feed detection unit 36 is arranged immediately after the downstream side in the transport direction of the reference position, and detects double feed between the preceding sheet 50 and the succeeding sheet 52.

Further, when the upstream side detection unit 32 detects that the tip of the succeeding sheet 52 in the transport direction has passed, it outputs the fifth detection information in which the OFF information has changed to the ON information. The double feed detection unit 36 detects that the rear end of the preceding sheet 50 in the transport direction and the tip of the succeeding sheet 52 in the transport direction overlap, and outputs the first double feed detection information in which the OFF information transitions to the ON information. do. The transport control unit 22 reversely drives the upstream transport roller 24a based on the first double feed detection information.

Further, when the double feed detection unit 36 detects that the tip of the succeeding sheet 52 in the transport direction has passed and the double feed is canceled, the double feed detection unit 36 outputs the second double feed detection information in which the ON information transitions to the OFF information. The upstream side detection unit 32 further detects the preceding sheet 50 and outputs the sixth upstream side detection information that maintains the ON information. The transport control unit 22 stops the upstream transport roller 24a based on the sixth upstream side detection information and the second double feed detection information.

The rear end of the leading sheet 50 in the transport direction is stopped at the reference position. As shown in FIG. 5B, the transfer control unit 22 drives the upstream transfer roller 24a.

As shown in FIG. 5B, the upstream transfer roller 24a conveys the succeeding sheet 52.

The double feed detection unit 36 is arranged immediately after the transport direction of the reference position, and detects double feed between the preceding sheet 50 and the succeeding sheet 52.

As shown in FIG. 5B, the double feed detection unit 36 outputs OFF information indicating that double feed has not occurred while detecting only the rear end of the preceding sheet 50 in the transport direction. An example of the double feed detection unit 36 is an ultrasonic transmitter / receiver.

As shown in FIG. 5B, when the detection unit 26 detects that the tip of the succeeding sheet 52 in the transport direction has passed, it outputs the second detection information in which the OFF information has changed to the ON information.

The timekeeping unit 30 measures the predetermined time t based on the second detection information in which the OFF information has changed to the ON information, and outputs the timekeeping information indicating that the predetermined time t has elapsed.
That is, the timekeeping unit 30 measures the time t for a predetermined time after the tip of the succeeding sheet 52 in the transport direction passes through the detection unit 26, and outputs the timekeeping information.

As shown in FIG. 5C, the transfer control unit 22 stops driving the upstream transfer roller 24a based on the timekeeping information.

The upstream transfer roller 24a stops the transfer of the succeeding sheet 52.

As shown in FIG. 5C, when the upstream side detection unit 32 detects that the tip of the succeeding sheet 52 in the transport direction has passed, it outputs the fifth detection information in which the OFF information has changed to the ON information.

Here, even if the transfer control unit 22 drives the upstream transfer roller 24a based on the timekeeping information, as shown in FIG. 5 (c), the succeeding sheet 52 passes through the reference position and the transfer direction of the preceding sheet 50. The succeeding sheet 52 may stop at a position where the rear end and the tip of the succeeding sheet 52 in the transport direction overlap.

As shown in FIG. 5C, the double feed detection unit 36 detects that the rear end of the preceding sheet 50 in the transport direction and the tip of the succeeding sheet 52 in the transport direction overlap, and the OFF information becomes ON information. The transitioning first double feed detection information is output.

Specifically, the double feed detection unit 36 receives the reflected ultrasonic wave at a louder volume than the reflected ultrasonic wave when only the preceding sheet 50 is detected, so that the double feed detecting unit 36 and the rear end of the preceding sheet 50 in the transport direction are received. , Detects that the tip of the succeeding sheet 52 overlaps with the tip in the transport direction, and outputs the first double feed detection information.

As shown in FIG. 5C, the transfer control unit 22 reversely drives the upstream transfer roller 24a based on the first double feed detection information.

The upstream transfer roller 24a reversely conveys the succeeding sheet 52 according to the instruction of the transfer control unit 22.

As shown in FIG. 5D, when the double feed detection unit 36 detects that the tip of the succeeding sheet 52 in the transport direction has passed and the double feed has been eliminated, the ON information transitions to the OFF information. Outputs transmission detection information.

That is, when the double feed detection unit 36 detects only the preceding sheet 50, the volume of the reflected ultrasonic wave when the rear end of the preceding sheet 50 in the conveying direction and the tip of the succeeding sheet 52 in the conveying direction overlap each other. Detects that the volume of the reflected ultrasonic wave has changed, and outputs the second double feed detection information.

As shown in FIG. 5D, the upstream side detection unit 32 detects the preceding sheet 50 and outputs the sixth upstream side detection information that maintains the ON information.

As shown in FIG. 5D, the transport control unit 22 stops the upstream transport roller 24a based on the sixth upstream side detection information and the second double feed detection information.

The upstream transfer roller 24a stops the reverse transfer of the succeeding sheet 52 according to the instruction of the transfer control unit 22. At this time, the double feeding between the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 is eliminated, and the tip in the transport direction of the succeeding sheet 52 coincides with the reference position.

According to the sheet processing apparatus 10 according to the fourth embodiment, even if the preceding sheet 50 and the succeeding sheet 52 overlap each other and stop in the vicinity of the reference position, the succeeding sheet 52 is reversely conveyed to eliminate the double feeding, and the succeeding sheet 52 is eliminated. The tip of the sheet 52 in the transport direction can be finely adjusted to the reference position.

(Embodiment 5)
Next, in addition to FIGS. 1 and 2, the sheet processing apparatus 10 according to the fifth embodiment will be described with reference to FIGS. 6 (a) and 6 (b). In the fifth embodiment, when the preceding sheet 50 and the succeeding sheet 52 are slightly displaced from the reference position and stopped, the preceding sheet 50 is inverted and conveyed, and the following sheet 52 is conveyed in the normal direction to convey the preceding sheet 50. An embodiment is shown in which the rear end in the direction and the front end in the transport direction of the succeeding sheet 52 are finely adjusted to the reference positions.

The sheet processing device 10 according to the fifth embodiment further includes a wave leakage detecting unit 38. The leak detection unit 38 is arranged to face the upstream side detection unit 32 and the downstream side detection unit 34 with the transport path through which the preceding sheet 50 and the succeeding sheet 52 are conveyed, and is arranged to face the upstream side detection unit 32 or the downstream side detection unit 32 or the downstream side. The ultrasonic wave emitted from the detection unit 34 and passing between the preceding sheet 50 and the succeeding sheet 52 is detected, and the detection information is output.

The leak detection unit 38 further detects the upstream side detection unit 32 or the downstream side when at least one of the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 is not at the reference position. The ultrasonic wave emitted from the unit 34 is received as a leak, and the seventh detection information indicating the ON information is output. The transfer control unit 22 causes the upstream transfer roller 24a to be forward-rotated and conveyed based on the seventh detection information, or causes the downstream transfer roller 24b to be inverted and conveyed based on the seventh detection information.

The leak detection unit 38 further outputs the eighth detection information that transitions from the ON information to the OFF information when the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 are at the reference positions. The transfer control unit 22 further stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the eighth detection information.

The sheet processing device 10 according to the fifth embodiment further includes a wave leakage detecting unit 38. The leak detection unit 38 is arranged so as to face the upstream side detection unit 32 and the double feed detection unit 36 with the transport path through which the preceding sheet 50 and the succeeding sheet 52 are conveyed, and the upstream side detection unit 32 or the double feed detection unit 32 or the double feed detection unit 38 is arranged. The ultrasonic wave emitted from the detection unit 36 and passing between the preceding sheet 50 and the succeeding sheet 52 is detected, and the detection information is output.

Further, when at least one of the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 is not at the reference position, the leak detection unit 38 is the upstream side detection unit 32 or the double feed detection unit 38. The ultrasonic wave emitted from the unit 36 is received as a leak, and the seventh detection information indicating the ON information is output. The transfer control unit 22 causes the upstream transfer roller 24a to be forward-rotated and conveyed based on the seventh detection information, or causes the downstream transfer roller 24b to be inverted and conveyed based on the seventh detection information.

The leak detection unit 38 further outputs the eighth detection information that transitions from the ON information to the OFF information when the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 are at the reference positions. The transfer control unit 22 further stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the eighth detection information.

As shown in FIGS. 2 and 6A, the leak detection unit 38 faces the upstream side detection unit 32 and the downstream side detection unit 34 with the transport path through which the preceding sheet 50 and the succeeding sheet 52 are conveyed. The ultrasonic waves that are emitted from the upstream side detection unit 32 or the downstream side detection unit 34 and pass between the rear end of the preceding sheet 50 in the transport direction and the tip of the succeeding sheet 52 in the transport direction are detected.

The leak detection unit 38 receives the ultrasonic waves emitted from the upstream side detection unit 32, the downstream side detection unit 34, and the double feed detection unit 36, and outputs the seventh detection information indicating ON information.

The leak detection unit 38 outputs the eighth detection information that transitions from ON information to OFF information when the ultrasonic waves emitted from the upstream side detection unit 32, the downstream side detection unit 34, and the double feed detection unit 36 are no longer received. do.

As shown in FIG. 6A, when at least one of the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 is slightly deviated from the reference position, the wave leakage detection unit 38 Receives ultrasonic waves emitted from the upstream side detection unit 32, the downstream side detection unit 34, and the double feed detection unit 36, and outputs the seventh detection information indicating ON information.

As shown in FIG. 6A, the transport control unit 22 drives the upstream transport roller 24a and the downstream transport roller 24b based on the seventh detection information.

That is, as shown in FIG. 6A, the transport control unit 22 transports the upstream transport roller 24a in the forward rotation based on the seventh detection information.

The transport control unit 22 detects the seventh detection information indicating that the energy (volume) of the wave leakage on the upstream side in the transport direction is larger than the energy (volume) of the wave leak on the downstream side in the transport direction, and detects the seventh detection information indicating that the energy (volume) is larger on the upstream side of the transport direction. 24a may be transported in the forward direction.

As shown in FIG. 6A, the transport control unit 22 reversely transports the downstream transport roller 24b based on the seventh detection information.

The transport control unit 22 detects the seventh detection information indicating that the energy (volume) of the wave leakage on the downstream side in the transport direction is larger than the energy (volume) of the leak on the upstream side in the transport direction, and detects the seventh detection information indicating that the energy (volume) of the leak on the downstream side in the transport direction is larger than the energy (volume) of the leak on the downstream side in the transport direction. 24b may be inverted and conveyed.

As shown in FIG. 6A, the upstream transfer roller 24a transports the succeeding sheet 52 in the forward direction to the downstream side in the transport direction.

As shown in FIG. 6A, the downstream transfer roller 24b reversely conveys the preceding sheet 50 to the upstream side in the transfer direction.

As shown in FIG. 6B, when the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 are at the reference positions, the leak detection unit 38 is on the upstream side detection unit 32 and the downstream side. Since the ultrasonic waves emitted from the detection unit 34 and the double feed detection unit 36 are no longer received as leaks, the eighth detection information transitioned from the ON information to the OFF information is output.

As shown in FIG. 6B, the transport control unit 22 stops driving the upstream transport roller 24a and the downstream transport roller 24b based on the eighth detection information.

The upstream transfer roller 24a and the downstream transfer roller 24b stop the transfer of the preceding sheet 50 and the succeeding sheet 52.

At this time, the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 coincide with each other at the reference position.

According to the sheet processing apparatus 10 according to the fifth embodiment, when the preceding sheet 50 and the succeeding sheet 52 are slightly displaced from the reference position and stopped, the preceding sheet 50 is reversely conveyed and the succeeding sheet 52 is forward-rotated. Thereby, the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 can be finely adjusted to the reference positions.

(Embodiment 6)
Next, in addition to FIGS. 1 and 2, the sheet processing apparatus 10 according to the sixth embodiment will be described with reference to FIG. 7. The sixth embodiment shows an embodiment in which the connecting portion 40 connects the rear end of the preceding sheet 50 at the reference position in the transport direction and the tip end of the succeeding sheet 52 at the reference position in the transport direction to create a continuous sheet.

The sheet processing device 10 according to the seventh embodiment further includes a connecting portion 40. The connecting portion 40 is arranged at the reference position, stores the adhesive, and when the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 are in the reference position, the connecting portion 40 and the rear end in the transport direction of the preceding sheet 50. The tip of the succeeding sheet 52 in the transport direction is connected with an adhesive.

As shown in FIG. 7, the connecting portion 40 is arranged above or below the reference position of the transport path. The connection portion 40 stores the adhesive. When the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 are in the reference position, the connecting portion 40 attaches the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 with an adhesive. Connecting.

An example of an adhesive is a glue for a booklet, an adhesive toner, or an adhesive ink.

According to the sheet processing apparatus 10 according to the seventh embodiment, the connecting portion 40 connects the rear end in the transport direction of the preceding sheet 50 at the reference position and the tip in the transport direction of the succeeding sheet 52 at the reference position, and is a continuous sheet. Can be created.

Next, information processing by the sheet processing apparatus 10 according to the present embodiment will be described with reference to FIGS. 8 to 12. First, FIG. 8 is a flowchart showing information processing by the sheet processing apparatus 10 according to the first and sixth embodiments.

As shown in FIG. 8, the flowchart includes steps S10 to S28. Specifically, it is as follows.

In step S10, the upstream transfer roller 24a and the downstream transfer roller 24b convey the preceding sheet 50. The process proceeds to step S12.

In step S12, the detection unit 26 detects the preceding sheet 50 and outputs the detection information indicating the ON information. The process proceeds to step S14.

In step S14, when the detection unit 26 detects that the rear end of the preceding sheet 50 in the transport direction has passed, it outputs the first detection information in which the ON information has changed to the OFF information. The process proceeds to step S16.

In step S16, the timekeeping unit 30 measures the predetermined time t based on the first detection information in which the ON information has changed to the OFF information, and outputs the first timekeeping information indicating that the predetermined time t has elapsed. The process proceeds to step S18.

In step S18, the transfer control unit 22 stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the first timekeeping information. The process proceeds to step S20.

In step S20, the transfer control unit 22 drives the upstream transfer roller 24a to transfer the succeeding sheet 52. The process proceeds to step S22.

In step S22, when the detection unit 26 detects the tip of the succeeding sheet 52 in the transport direction, the detection unit 26 outputs the second detection information in which the OFF information has changed to the ON information. The process proceeds to step S24.

In step S24, the timekeeping unit 30 measures the predetermined time t based on the second detection information in which the OFF information has changed to the ON information, and outputs the second timekeeping information indicating that the predetermined time t has elapsed. The process proceeds to step S26.

In step S26, the transfer control unit 22 stops driving the upstream transfer roller 24a based on the second timekeeping information. The process proceeds to step S28.

In step S28, the connecting portion 40 adheres the rear end of the leading sheet 50 in the transport direction and the tip of the succeeding sheet 52 in the transport direction to connect the leading sheet 50 and the succeeding sheet 52. Then, the process ends.

Next, information processing by the sheet processing apparatus 10 according to the second embodiment will be described with reference to FIG. 9. FIG. 9 is a flowchart showing information processing by the sheet processing device 10 according to the second embodiment.

As shown in FIG. 9, the flowchart includes steps S30 to S48. Specifically, it is as follows.

In step S30, the upstream transfer roller 24a and the downstream transfer roller 24b convey the preceding sheet 50. The process proceeds to step S32.

In step S32, when the detection unit 26 detects that the rear end of the preceding sheet 50 in the transport direction has passed, it outputs the detection information in which the ON information has changed to the OFF information. The process proceeds to step S34.

In step S34, the timekeeping unit 30 measures the predetermined time t based on the detection information in which the ON information has changed to the OFF information, and outputs the timekeeping information indicating that the predetermined time t has elapsed. The process proceeds to step S36.

In step S36, the transfer control unit 22 stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the timekeeping information. The process proceeds to step S38.

In step S38, the upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the first upstream side detection information in which the ON information has changed to the OFF information. The process proceeds to step S40.

In step S40, the downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the first downstream side detection information in which the ON information has changed to the OFF information. The process proceeds to step S42.

In step S42, the transfer control unit 22 reversely drives the downstream transfer roller 24b based on the first upstream side detection information and the first downstream side detection information. The process proceeds to step S44.

In step S44, the downstream side detection unit 34 detects the rear end of the preceding sheet 50 in the transport direction and outputs the second downstream side detection information in which the OFF information has changed to the ON information. The process proceeds to step S46.

In step S46, the upstream side detection unit 32 outputs the second upstream side detection information that maintains the OFF information. The process proceeds to step S48.

In step S48, the transfer control unit 22 stops the downstream transfer roller 24b based on the second upstream side detection information and the second downstream side detection information. Then, the process ends.

Next, information processing by the sheet processing apparatus 10 according to the third embodiment will be described with reference to FIG. FIG. 10 is a flowchart showing information processing by the sheet processing device 10 according to the third embodiment.

As shown in FIG. 10, the flowchart includes steps S50 to S60. Specifically, it is as follows.

In step S50, the upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the third upstream side detection information that maintains the ON information. The process proceeds to step S52.

In step S52, the downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the third downstream side detection information that maintains the ON information. The process proceeds to step S54.

In step S54, the transfer control unit 22 drives the downstream transfer roller 24b to rotate forward based on the third upstream side detection information and the third downstream side detection information. The process proceeds to step S56.

In step S56, the upstream side detection unit 32 detects that the rear end of the preceding sheet 50 in the transport direction has passed, and outputs the fourth upstream side detection information that transitions the ON information to the OFF information. The process proceeds to step S58.

In step S58, the downstream side detection unit 34 detects that the rear end of the preceding sheet 50 in the transport direction has not passed, and outputs the fourth downstream side detection information that maintains the ON information. The process proceeds to step S60.

In step S60, the transfer control unit 22 stops the downstream transfer roller 24b based on the fourth upstream side detection information and the fourth downstream side detection information. Then, the process ends.

Next, information processing by the sheet processing apparatus 10 according to the fourth embodiment will be described with reference to FIG. FIG. 11 is a flowchart showing information processing by the sheet processing apparatus 10 according to the fourth embodiment.

As shown in FIG. 11, the flowchart includes steps S70 to S90. Specifically, it is as follows.

In step S70, the transfer control unit 22 drives the upstream transfer roller 24a. The process proceeds to step S72.

In step S72, the double feed detection unit 36 outputs OFF information indicating that double feed has not occurred while detecting only the rear end of the preceding sheet 50 in the transport direction. The process proceeds to step S74.

In step S74, when the detection unit 26 detects that the tip of the succeeding sheet 52 in the transport direction has passed, it outputs the second detection information in which the OFF information has changed to the ON information. The process proceeds to step S76.

In step S76, the timekeeping unit 30 measures the predetermined time t based on the second detection information in which the OFF information has changed to the ON information, and outputs the timekeeping information indicating that the predetermined time t has elapsed. The process proceeds to step S78.

In step S78, the transfer control unit 22 stops driving the upstream transfer roller 24a based on the timekeeping information. The process proceeds to step S80.

In step S80, when the upstream side detection unit 32 detects that the tip of the succeeding sheet 52 in the transport direction has passed, it outputs the fifth detection information in which the OFF information has changed to the ON information. The process proceeds to step S82.

In step S82, the double feed detection unit 36 detects that the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 overlap, and the OFF information transitions to the ON information in the first double feed. Output the detection information. The process proceeds to step S84.

In step S84, the transfer control unit 22 reversely drives the upstream transfer roller 24a based on the first double feed detection information. The process proceeds to step S86.

In step S86, when the double feed detection unit 36 detects that the tip of the succeeding sheet 52 in the transport direction has passed and the double feed has been canceled, the double feed detection unit 36 outputs the second double feed detection information in which the ON information transitions to the OFF information. .. The process proceeds to step S88.

In step S88, the upstream side detection unit 32 detects the preceding sheet 50 and outputs the sixth upstream side detection information that maintains the ON information. The process proceeds to step S90.

In step S90, the transport control unit 22 stops the upstream transport roller 24a based on the sixth upstream side detection information and the second double feed detection information. Then, the process ends.

Next, information processing by the sheet processing apparatus 10 according to the fifth embodiment will be described with reference to FIG. 12. FIG. 12 is a flowchart showing information processing by the sheet processing apparatus 10 according to the fifth embodiment.

As shown in FIG. 12, the flowchart includes steps S100 to S110. Specifically, it is as follows.

In step S100, when at least one of the rear end in the transport direction of the preceding sheet 50 and the tip in the transport direction of the succeeding sheet 52 is not at the reference position, the leak detection unit 38 detects the upstream side detection unit 32 and the downstream side. Since the ultrasonic waves emitted from the unit 34 and the double feed detection unit 36 are received as leaks, the seventh detection information indicating ON information is output. The process proceeds to step S102.

In step S102, the transport control unit 22 transports the upstream transport roller 24a in the forward rotation based on the seventh detection information. The process proceeds to step S104.

In step S104, the transfer control unit 22 reversely transfers the downstream transfer roller 24b based on the seventh detection information. The process proceeds to step S106.

In step S106, when the rear end in the transport direction of the preceding sheet 50 and the front end in the transport direction of the succeeding sheet 52 are at the reference positions, the leak detection unit 38 outputs the eighth detection information in which the ON information is changed to the OFF information. do. The process proceeds to step S108.

In step S108, the transfer control unit 22 stops driving the upstream transfer roller 24a and the downstream transfer roller 24b based on the eighth detection information. Then, the process ends.

The embodiments of the present invention have been described above with reference to the drawings. However, the present invention is not limited to the above embodiment, and can be implemented in various embodiments without departing from the gist thereof. The drawings are schematically shown mainly for each component for easy understanding, and the thickness, length, number, etc. of each of the illustrated components are different from the actual ones for the convenience of drawing creation. .. Further, the material, shape, dimensions, etc. of each component shown in the above embodiment are merely examples, and are not particularly limited, and various changes can be made without substantially deviating from the effects of the present invention. be.

The present invention can be used in the field of sheet processing equipment.

1 Image forming device 10 Sheet processing device 11 Reading unit 12 Feeding tray 13 Operation unit 14 Display unit 15 Input unit 16 Image forming unit 17 Feeding unit 18 Discharge unit 20 Control unit 22 Transport control unit 24 Transport unit 24a Upstream transport roller 24b Downstream transport roller 26 Detection unit 28 Storage unit 30 Timekeeping unit 32 Upstream side detection unit 34 Downstream side detection unit 36 Double feed detection unit 38 Leakage detection unit 40 Connection unit 50 Leading sheet 52 Subsequent sheet

Claims (7)

A transport unit including an upstream transport roller and a downstream transport roller that transports the preceding sheet or the succeeding sheet following the preceding sheet.
A transport control unit that controls the drive of the upstream transport roller and the downstream transport roller,
When it is detected that the rear end of the preceding sheet in the transport direction has passed, the detection unit that outputs the first detection information in which the ON information has transitioned to the OFF information.
It is provided with a timekeeping unit that measures a predetermined time based on the first detection information and outputs the first timekeeping information indicating that the predetermined time has elapsed.
Based on the first timekeeping information, the transport control unit stops driving the upstream transport roller and the downstream transport roller, and drives the upstream transport roller to transport the succeeding sheet.
When the detection unit detects the tip of the succeeding sheet in the transport direction, the detection unit outputs the second detection information in which the OFF information transitions to the ON information.
The timekeeping unit measures the predetermined time based on the second detection information, and outputs the second timekeeping information indicating that the predetermined time has elapsed.
The transfer control unit is a sheet processing device that stops driving the upstream transfer roller based on the second timekeeping information. The detection unit includes an upstream detection unit arranged immediately before the upstream side in the transport direction of the reference position where the preceding sheet and the succeeding sheet are connected, and a downstream side arranged immediately after the downstream side in the transport direction of the reference position. Including the detector
The upstream side detection unit detects that the rear end of the preceding sheet in the transport direction has passed, and outputs the first upstream side detection information in which the ON information has changed to the OFF information.
The downstream side detection unit detects that the rear end of the preceding sheet in the transport direction has passed, and outputs the first downstream side detection information in which the ON information has changed to the OFF information.
The transport control unit reversely drives the downstream transport roller based on the first upstream detection information and the first downstream detection information.
The downstream side detection unit further detects the rear end of the preceding sheet in the transport direction, and outputs the second downstream side detection information in which the OFF information has transitioned to the ON information.
The upstream side detection unit further outputs the second upstream side detection information that maintains the OFF information.
The sheet processing device according to claim 1, wherein the transport control unit stops the downstream transport roller based on the second upstream detection information and the second downstream detection information. The detection unit includes an upstream detection unit arranged immediately before the upstream side in the transport direction of the reference position where the preceding sheet and the succeeding sheet are connected, and a downstream side arranged immediately after the downstream side in the transport direction of the reference position. Including the detector
The upstream side detection unit detects that the rear end of the preceding sheet in the transport direction has not passed, and outputs the third upstream side detection information that maintains the ON information.
The downstream side detection unit detects that the rear end of the preceding sheet in the transport direction has not passed, and outputs the third downstream side detection information for maintaining ON information.
The transport control unit drives the downstream transport roller to rotate forward based on the third upstream side detection information and the third downstream side detection information.
The upstream side detection unit further detects that the rear end of the preceding sheet in the transport direction has passed, and outputs the fourth upstream side detection information that transitions the ON information to OFF information.
The downstream side detection unit further detects that the rear end of the preceding sheet in the transport direction has not passed, and outputs the fourth downstream side detection information for maintaining the ON information.
The sheet processing device according to claim 1, wherein the transfer control unit stops the downstream transfer roller based on the fourth upstream side detection information and the fourth downstream side detection information. It is further provided with a double feed detection unit which is arranged immediately after the downstream side in the transport direction of the reference position and detects double feed between the preceding sheet and the succeeding sheet.
When the upstream detection unit detects that the tip of the succeeding sheet in the transport direction has passed, it outputs the fifth detection information in which the OFF information has changed to the ON information.
The double feed detection unit detects that the rear end of the preceding sheet in the transport direction overlaps with the tip of the succeeding sheet in the transport direction, and the OFF information transitions to ON information. Is output,
The transport control unit reversely drives the upstream transport roller based on the first double feed detection information.
When the double feed detection unit further detects that the tip of the subsequent sheet in the transport direction has passed and the double feed has been canceled, the double feed detection unit transmits the second double feed detection information in which the ON information transitions to the OFF information. Output and
The upstream side detection unit further detects the preceding sheet and outputs the sixth upstream side detection information that maintains the ON information.
The sheet processing device according to claim 2 or 3, wherein the transfer control unit stops the upstream transfer roller based on the sixth upstream side detection information and the second double feed detection information. The preceding sheet and the succeeding sheet are arranged so as to face the upstream detection unit and the downstream detection unit across the transport path to which the succeeding sheet is conveyed, and are ejected from the upstream detection unit or the downstream detection unit. Further provided with a wave leakage detection unit that detects ultrasonic waves passing between the preceding sheet and the succeeding sheet and outputs the detection information.
When at least one of the rear end of the preceding sheet in the transport direction or the tip of the succeeding sheet in the transport direction is not at the reference position, the leak detection unit is the upstream detection unit or the downstream. The ultrasonic wave emitted from the side detection unit is received as a leak, and the seventh detection information indicating ON information is output.
Based on the 7th detection information, the transfer control unit causes the upstream transfer roller to perform forward rotation transfer, or based on the 7th detection information, causes the downstream transfer roller to reversely convey.
The wave leakage detection unit outputs the eighth detection information that transitions from the ON information to the OFF information when the rear end of the preceding sheet in the transport direction and the tip of the succeeding sheet in the transport direction are at the reference position. death,
The sheet processing apparatus according to claim 2 or 3, wherein the transfer control unit further stops driving the upstream transfer roller and the downstream transfer roller based on the eighth detection information. The preceding sheet and the succeeding sheet are arranged so as to face the upstream side detection unit and the double feed detection unit with the transport path to which the succeeding sheet is conveyed, and are ejected from the upstream side detection unit or the double feed detection unit. Further provided with a wave leakage detection unit that detects ultrasonic waves passing between the preceding sheet and the succeeding sheet and outputs the detection information.
When at least one of the rear end of the preceding sheet in the transport direction or the tip of the succeeding sheet in the transport direction is not at the reference position, the leak detection unit is the upstream detection unit or the weight. The ultrasonic wave emitted from the feed detection unit is received as a leak, and the seventh detection information indicating ON information is output.
Based on the 7th detection information, the transfer control unit causes the upstream transfer roller to perform forward rotation transfer, or based on the 7th detection information, causes the downstream transfer roller to reversely convey.
The wave leakage detection unit outputs the eighth detection information that transitions from the ON information to the OFF information when the rear end of the preceding sheet in the transport direction and the tip of the succeeding sheet in the transport direction are at the reference position. death,
The sheet processing device according to claim 4, wherein the transfer control unit further stops driving the upstream transfer roller and the downstream transfer roller based on the eighth detection information. When the preceding sheet is arranged at the reference position, the adhesive is stored, and the rear end of the preceding sheet in the transport direction and the tip of the succeeding sheet in the transport direction are in the reference position, the rear end of the preceding sheet in the transport direction and the rear end in the transport direction. The sheet processing apparatus according to any one of claims 2 to 6, further comprising a connecting portion for connecting the tip of the succeeding sheet in the transport direction with the adhesive.

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