JP3737369B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for controlling a discharge speed to an alignment tray of a sheet post-processing apparatus attached to an apparatus main body capable of adjusting a sheet conveyance speed according to a selected resolution.
[0002]
[Prior art]
When an image forming apparatus such as a copying machine, a printer, or a facsimile machine is provided with a paper post-processing device for performing post-processing such as stapling processing, the alignment tray (including the intermediate tray) has a paper consistency. A high stacking property that can be deposited well is required.
[0003]
The stacking property is closely related to the paper discharge speed to the alignment tray, and the stacking performance is lowered when the paper discharge speed varies. Normally, if the paper discharge speed is too fast, the paper tends to be scattered in the alignment tray, and if it is too slow, the rear edge of the paper remains on the paper discharge roller, and jamming easily occurs between the following paper. Therefore, conventionally, for example, stacking performance is improved by controlling the rotation speed of the paper discharge roller to an appropriate value.
[0004]
[Problems to be solved by the invention]
By the way, in the image forming apparatus in which the resolution can be selected (adjusted) on the user side, the sheet conveyance speed (process speed) in the image forming unit is closely related to the resolution. Switching takes place. For example, when obtaining a resolution of 1200 dpi, the paper conveyance speed is set to be ½ of the paper conveyance speed at a resolution of 600 dpi.
[0005]
As described above, in the model in which the process speed is switched, it is necessary to control the rotation speed of the paper discharge roller independently of the process speed as described above, and a complicated clutch, a reduction device, or the like is used. A paper discharge mechanism was adopted. Therefore, there is a problem that the configuration of the paper discharge mechanism becomes complicated.
[0006]
SUMMARY An advantage of some aspects of the invention is that it provides an image forming apparatus with a simple configuration capable of ensuring high stacking performance without requiring a complicated paper discharge mechanism.
[0007]
[Means for Solving the Problems]
In the present invention, means for solving the above-described problems are configured as follows.
[0008]
(1) for the paper transport speed of the apparatus body can be adjusted, in the image forming apparatus sheet post-processing apparatus is attached with a matching tray for performing postprocessing of the sheets,
A motor for driving a paper discharge roller for discharging paper to the alignment tray;
A body-side Desi detecting means for detecting that has passed through the conveyance rollers trailing end of the paper sheet is disposed nearest the apparatus main body side position before Symbol sheet finisher,
Control means for controlling the number of revolutions of the motor based on a detection signal output from the main body-side paper output detection means,
After pre-Symbol trailing edge of the sheet is detected that has passed through the conveyance roller in the main body side Desi detecting means, by said control means, rotational speed of the discharge roller is controlled to decrease, and the staple mode The sheet interval is set to a large value when is selected .
[0009]
In this configuration, by setting the paper interval to a large value, it is possible to sufficiently ensure the paper conveyance time after the speed change, and to substantially ensure the paper conveyance distance. Is possible.
[0012]
(2) The sheet conveyance speed to the alignment tray is determined by a control mode based on a frequently used sheet among a plurality of sheet conveyance speeds selected in the apparatus main body. .
[0013]
According to this configuration, since the sheet conveyance speed to the alignment tray is set in the control mode based on the frequently used one among the plurality of sheet conveyance speeds selected in the apparatus main body, It is easy to select and set the control mode (for improvement).
[0014]
(3) The transport time obtained by dividing the paper transport distance between the paper input detection means provided on the paper post-processing device side and the paper discharge roller by the paper transport speed before the change is the paper to the alignment tray This is characterized in that it is set to be longer than the time required for switching the conveyance speed.
[0015]
According to this configuration, by setting the paper transport time before the speed change to be longer than the time required for switching the paper transport speed, the control of the paper transport speed performed by the control unit can be prevented. it can.
[0016]
(4) When the paper transport distance cannot be properly secured, the paper discharge roller timing is controlled after detecting the passage of paper by another paper detection means provided upstream of the paper entry detection means. The sheet conveyance speed to the alignment tray is controlled to an appropriate value.
[0017]
According to this configuration, the paper transport distance is sufficiently controlled by controlling the timing of the paper discharge roller after detecting the passage of the paper by another paper detection means provided on the upstream side of the paper entry detection means. Thus, it is possible to sufficiently stabilize the paper conveyance speed after switching and control the paper conveyance speed to the alignment tray to an appropriate value.
[0018]
(5) The transport time at the switched paper transport speed is the time until the trailing edge of the paper surely passes the paper discharge roller, and immediately before the leading edge of the next paper reaches the paper discharge roller. The time is obtained by subtracting the time required to return to the original paper conveyance speed from the above time.
[0019]
According to this configuration, the rotation speed of the paper discharge roller is returned to the original paper transport speed by the time the next paper leading edge reaches the paper discharge roller, so that the main body side rotating at the original paper transport speed Therefore, the paper can be prevented from being torn or twisted.
[0020]
(6) The sheet conveyance speed is adjusted according to the selected resolution.
[0022]
(7) The sheet conveying system of the sheet post-processing apparatus is driven by a single motor, and controls the sheet conveying speed to the alignment tray by controlling the rotation speed of the motor.
[0023]
According to this configuration, since the drive source of the paper transport system of the paper post-processing apparatus is a single motor, the control contents can be simplified and the paper discharge mechanism can be simplified, and the apparatus can be provided at low cost. can do.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an image forming apparatus according to an embodiment of the present invention will be described with reference to the drawings.
[0025]
FIG. 1 is a schematic configuration diagram of an image forming apparatus. In the image forming apparatus, a finisher (paper post-processing apparatus) 2 is attached to an apparatus main body 1 in a separable (or integral) manner. 1 includes a document reading unit 3 that reads a document placed on a document table, an image forming unit 5 centered on a drum-shaped photoconductor 4 at an intermediate portion, and a sheet feeding unit in which sheets are stacked below. 6 is provided, and a main body tray 8 is provided on the downstream side of the first paper discharge conveyance path 7 of the image forming unit 5.
[0026]
On the other hand, the finisher 2 includes a first conveyance path 10 as an escape conveyance path connected to a second discharge conveyance path 9 of the apparatus main body 1, a second conveyance path 11 as an intermediate tray (staple tray, alignment tray), and a stapler. 12, a first paper stack tray 13 whose position is fixed, and a second paper stack tray 14 which is movable up and down.
[0027]
The document reading unit 3 described above includes, for example, an automatic reading mode in which a sheet-like document is automatically supplied by an automatic document feeder (not shown), and sequentially exposed and scanned one by one to read a document image, There is provided a manual reading mode in which an original or a sheet original that cannot be automatically supplied is set by manual operation and an original image is read.
[0028]
Then, the image of the document set on the transparent document placing table is exposed and scanned by the first scanning unit and the second scanning unit that move along the document placing table while maintaining a predetermined speed relationship with each other, The original image is converted into an electrical signal by being guided by an optical component such as a mirror or an imaging lens to form an image on a photoelectric conversion element (CCD), and then output to the image forming unit 5.
[0029]
In the image forming unit 5, the sheets separated and supplied one by one from the sheet feeding unit 6 are sequentially supplied between the photoconductor 4 functioning as an electrophotographic process unit and the transfer unit 21, and recorded and reproduced on the photoconductor 4. The transferred image is transferred to paper. The sheet on which the image has been transferred is heated and fixed by a fixing device 22 disposed downstream of the photosensitive member 4, and is conveyed to the first discharge conveyance path 7 or the second discharge conveyance path 9 by the first gate 23. (See FIG. 2).
[0030]
The paper conveyed to the first paper discharge conveyance path 7 is discharged to the main body tray 8. On the other hand, the sheet conveyed to the second paper discharge conveyance path 9 is further carried into the first conveyance path 10 or the intermediate tray 11 by the second gate 26. The paper carried into the first transport path 10 is further carried out to the first paper stack tray 13 or the second paper stack tray 14 by the third gate 27.
[0031]
The sheets carried into the intermediate tray 11 are pressed one by one by an alignment member (not shown), stacked in a state where the curls are stretched and aligned, and then stapled by the stapler 32 to be second. The paper is discharged to the paper stack tray 14. Each of the above-described transport paths can be appropriately selected by an instruction from an operation panel (not shown) of a control panel provided on the upper portion of the apparatus body 1 or an instruction from an externally connected terminal device (not shown). .
[0032]
As shown in FIG. 2, a sensor (main body side paper output detection) detects that the second paper discharge transport path 9 has passed a transport roller 34 disposed at a position on the apparatus main body 1 side closest to the finisher 2. Means) S2 and a sensor S1 are provided on the upstream side thereof, and a sensor S3 is provided at the entrance of the paper transport path 28 of the finisher 2 connected to the downstream side of the second paper discharge transport path 9. In addition, a paper discharge roller 36 is provided immediately before the intermediate tray 11.
[0033]
In FIG. 2, C1 is a contact point between the sheet and the contact of the sensor S1, C2 is a contact point (engagement point) between the sheet and the transport roller 34, and C3 is a rear end of the sheet that is separated from the contact of the sensor S2. Point (off position at the rear end of the sheet), C4 is a point at which the front end of the sheet is detached from the contact of the sensor S3 (off position at the front end of the sheet), and C5 is a contact point (engagement point) between the sheet and the transport roller 36. Each is shown.
[0034]
FIG. 3 shows a drive control system for the transport roller 34 and the paper discharge roller 36. Sensors S1, S2, S3 are provided on the input side of a control means (controller) 41 comprising a CPU 141 for performing various calculations and a ROM 142 and a RAM 143 having a storage function. Are connected, and motors 52 and 62 are connected to the output side via drivers (circuits) 51 and 61, respectively.
[0035]
By such two control drive systems on the apparatus main body 1 side and the finisher 2 side, a roller on the apparatus main body 1 side such as the transport roller 34 is simply set in accordance with a control program set and stored in the ROM 142 in advance. A single motor 52 controls and drives rollers on the finisher 2 side such as the paper discharge roller 36 by a single motor 62.
[0036]
FIG. 4 is a time chart showing a preferred example of timing control of the paper discharge roller 36, in which the paper conveyance speed is set on the vertical axis and the time is set on the horizontal axis. The sheet conveyance speed v ₁ is a speed corresponding to 600 dpi, v ₂ is a speed corresponding to 1200 dpi, t _k1 is a time until the speed _drops (after speed switching), t _k2 is a time until the speed rises, and t ₁ is time sheet transport speed required to stabilize, t ₂ is the time immediately before the leading end of the next sheet reaches the C5 point.
[0037]
In this case, image formation is performed at a normal resolution of 600 dpi, and both the transport roller 34 and the paper discharge roller 36 rotate at the same paper transport speed v ₁ . From this state, when the trailing edge of the paper passes through the point C2 and leaves the point C3, a paper-off signal is sent from the sensor S2 to the controller 41, and a speed switching command is output from the controller 41 to the motor 62. rotational speed of the paper roller 36 is lowered to v _2.
[0038]
At the time of this speed switching, a part of the paper (first half) is already caught in the paper discharge roller 36, but the rear end of the paper is completely separated from the transport roller 34 of the apparatus main body 1. Therefore, the speed of the sheet gradually decreases without any interference with the conveyance roller 34 (rotating at the speed v ₁ ), and the rotational speed of the paper discharge roller 36 becomes v 2 after t _k1 hours, and after t ₁ hours. The sheet is stabilized, and the sheet is discharged into the intermediate tray 11 at that speed.
[0039]
Then, after t ₂ hours just before the leading edge of the next sheet reaches the C5, speed switching command is outputted from the controller 41 to the motor 62, the sheet discharge roller 36 after lapse of the rotation speed is increased t _k2 hours v reached the _1, waiting for the arrival of the next sheet. The motor 52 of the apparatus main body 1 always drives the transport roller 34 at a constant paper transport speed v ₁ .
[0040]
The speed switching timing of the paper discharge roller 36 is set when a timer set in the memory area MA of the RAM 143 is activated in response to an off-position detection signal at the trailing edge of the paper output from the sensor S2. Then, the timing control of the paper discharge roller 36 is sequentially performed in the same pattern, and the paper on which the image has been formed is discharged into the intermediate tray 11 at a low paper conveyance speed v ₂ , and high stackability can be ensured. .
[0041]
In such timing control of the paper discharge roller 36, t ₁ > from time t _k1 until the speed drops (from the speed switching point) and time t ₁ required for the speed to stabilize. The relation of t _k1 must be satisfied. In other words, at least, until the trailing edge of the sheet is released from C5-point, the rotational speed of the discharge roller 36 is v ₂ must be stabilized. If it is not stabilized, the paper discharge speed varies and the stacking property cannot be secured.
[0042]
By the way, when the resolution is set high, for example, when the resolution is set to 1200 dpi, the sheet conveyance speed is v ₂ , so that high stacking performance can be achieved without deliberately reducing the rotation speed of the discharge roller 36. Therefore, it is not necessary to change the rotation speed of the paper discharge roller 36.
[0043]
Therefore, the control mode of the paper discharge roller 36 is preferably set as appropriate (different contents) in accordance with the selected resolution (or paper transport speed). In addition, the paper transport speed to the alignment tray 11 is determined in a control mode based on a frequently used resolution (or paper transport speed) selected in the apparatus main body 1. Also good.
[0044]
For example, when the frequency of use of the resolution of 600 dpi is high, the timing control of the paper discharge roller 36 may be performed in the control mode as shown in FIG. 4 described above, and when the frequency of use of 1200 dpi is high (selected). A control mode or the like that sets the rotation speed of the paper discharge roller 36 to v ₂ (or lower) at least when the trailing edge of the paper leaves the C3 (regardless of the resolution) may be employed.
[0045]
Further, the conveyance time obtained by dividing the sheet conveyance distance between the sensor S3 provided on the finisher 2 side and the sheet discharge roller 36 disposed immediately before the alignment tray (intermediate tray) 11 by the sheet conveyance speed before the change. the time required for the conveyance speed switching of the sheet to the intermediate tray 11, and therefore the speed must be set longer than the time until stabilization (t ₂ h of FIG. 4). This is because if the paper is discharged while the paper conveyance speed is not stabilized, high stacking performance cannot be obtained.
[0046]
In this regard, if the paper transport distance between the sensor S3 and the paper discharge roller 36 cannot be adequately (sufficiently) secured, another paper detection means provided sufficiently upstream of the sensor S3, for example, by performing the timing control of the discharge roller 36 after detecting the passage of the sheet by the sensor S1, it is possible to sufficiently secure the sheet conveyance distance in the switched paper conveying speed v _2, to ensure a high stacking property be able to.
[0047]
In the control mode of FIG. 4, the transport time at the switched paper transport speed v ₂ is the time until the trailing edge of the paper surely passes the paper discharge roller 36, and the leading edge of the next paper It is preferable to set a time obtained by subtracting a time t _k2 required to return to the original paper transport speed v ₁ from a time immediately before the paper reaches the paper discharge roller 36.
[0048]
In this way, by reliably ensuring the time t _k2 required to return to the original paper transport speed v ₁ , the transport roller 34 of the apparatus main body 1 rotating the paper discharge roller 36 at the paper transport speed v _1. It is possible to prevent the paper from being torn or twisted.
[0049]
If the above timing control is not possible due to the configuration of the apparatus, the paper feed timing is controlled to set a large paper interval only when the staple mode (which requires high stacking property) is selected. Thus, the timing control of the paper discharge roller 36 may be performed.
[0050]
Further, since the drive source of the paper conveying system of the finisher 2 is the single motor 62, the control contents (program) and the paper discharge mechanism can be simplified, and the apparatus can be provided at low cost. Can do. In addition to the paper discharge roller 36, the rollers driven by the motor 62 are arranged in front of the conveyance rollers 37 arranged in the first conveyance path 10 and the first sheet stack tray 13 as shown in FIG. There are a paper discharge roller 38 disposed, a paper discharge roller 39 disposed in front of the second paper stack tray 14, and the like.
[0051]
The sheet discharge roller that is the target of timing control in the present invention is not limited to the sheet discharge roller 36 disposed in the preceding stage of the intermediate tray 11, and discharges the sheet to the alignment tray that requires at least stacking performance. For example, the above-described paper discharge rollers 38 and 39 are also included.
[0052]
Therefore, when the stapling process is not performed, timing control according to the paper discharge roller 36 described in the present embodiment is performed on the paper discharge rollers 38 and 39 as well. The stacking property of the two-sheet stack tray 14 can be improved.
[0053]
【The invention's effect】
As apparent from the above description, the present invention has the following effects.
[0054]
According to the first aspect of the present invention, by setting the sheet interval to be large, it is possible to sufficiently ensure the sheet conveyance time after the speed change, and to substantially ensure the sheet conveyance distance. Is possible.
[0055]
According to the second aspect, since the sheet conveyance speed to the alignment tray is set in a control mode based on a frequently used sheet conveyance speed selected from the plurality of sheet conveyance speeds in the apparatus main body, stacking performance is improved. It becomes easy to select and set a control mode for improvement.
[0056]
According to the third aspect, by setting the paper conveyance time before the speed change to be longer than the time required for switching the paper conveyance speed, the switching of the paper conveyance speed performed by the control unit can be made without any trouble. Can do.
[0057]
According to the fourth aspect of the present invention, the sheet conveyance roller timing control is performed after the passage of the sheet is detected by another sheet detection unit provided on the upstream side of the sheet input detection unit, thereby sufficiently securing the sheet conveyance distance. Thus, the sheet conveyance speed after switching can be sufficiently stabilized, and the sheet conveyance speed to the alignment tray can be controlled to an appropriate value.
[0058]
According to the fifth aspect, the rotation speed of the paper discharge roller is returned to the original paper transport speed before the leading edge of the next paper reaches the paper discharge roller, so that the apparatus main body is rotated at the original paper transport speed. Therefore, it is possible to prevent the paper from being torn or twisted.
[0059]
According to the sixth aspect, when the paper leaves the paper transport system on the main body side, a complex driving force changing mechanism such as a clutch or a speed reducer is controlled by controlling the rotation speed of the motor of the paper post-processing device. It is not necessary to ensure high stacking properties, and the paper discharge mechanism can be simplified. In addition, the control content can be simplified.
[0060]
According to the seventh aspect of the present invention, since the drive source of the paper transport system of the paper post-processing apparatus is a single motor, the control contents can be simplified and the paper discharge mechanism can be simplified, and the apparatus can be made inexpensive. Can be provided.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an image forming apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged view of the main part.
FIG. 3 is a control system diagram of the paper transport system.
FIG. 4 is a time chart showing a preferred example of timing control of the paper discharge roller.
[Explanation of symbols]
1-apparatus main body 2-paper post-processing device 11-alignment tray 34-conveying roller 36-discharge roller 41-control means 62-motor S1-another paper detection means S2-main body side paper output detection means S3-paper entry detection means

Claims (7)

In the paper conveying speed of the apparatus body can be adjusted, in the image forming apparatus sheet post-processing apparatus is attached with a matching tray for performing postprocessing of the sheets,
A motor for driving a paper discharge roller for discharging paper to the alignment tray;
A body-side Desi detecting means for detecting that has passed through the conveyance rollers trailing end of the paper sheet is disposed nearest the apparatus main body side position before Symbol sheet finisher,
Control means for controlling the number of rotations of the motor based on a detection signal output from the main body-side sheet output detection means,
After pre-Symbol trailing edge of the sheet is detected that has passed through the conveyance roller in the main body side Desi detecting means, by said control means, rotational speed of the discharge roller is controlled to decrease, and the staple mode An image forming apparatus characterized in that the sheet interval is set to a large value when selecting .   2. The sheet conveyance speed to the alignment tray is determined by a control mode based on a frequently used sheet among a plurality of sheet conveyance speeds selected in the apparatus main body. The image forming apparatus described in 1.   The conveyance time obtained by dividing the paper conveyance distance between the paper entry detection means provided on the paper post-processing apparatus side and the paper discharge roller by the paper conveyance speed before the change is the paper conveyance speed to the alignment tray. The image forming apparatus according to claim 1, wherein the image forming apparatus is set to be longer than a time required for switching.   When the paper transport distance cannot be properly secured, the alignment control is performed by performing timing control of the paper discharge roller after detecting the passage of paper by another paper detection means provided on the upstream side of the paper input detection means. The image forming apparatus according to claim 1, wherein the sheet conveyance speed to the tray is controlled to an appropriate value.   The transport time at the switched paper transport speed is the time until the trailing edge of the paper surely passes the paper discharge roller, and from the time immediately before the leading edge of the next paper reaches the paper discharge roller. The image forming apparatus according to claim 1, wherein the time is a time obtained by subtracting a time required to return to the original paper conveyance speed. 6. The image forming apparatus according to claim 1, wherein the sheet conveyance speed is adjusted according to the selected resolution. Paper transport system of the sheet post-processing device is driven by a single motor, the claims by the this to control the rotational speed of the motor, and performs control of the sheet conveying speed to the matching tray The image forming apparatus according to any one of 1 to 6.

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