JP3809370B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus for forming an image in an image forming unit on a sheet conveyed on a sheet conveyance path.
[0002]
[Prior art]
In recent years, in image forming apparatuses such as printers and copiers, various devices have been made to increase the number of images formed per unit time. For example, a device that increases the image forming speed in an image forming unit, paper In order to increase the transport speed of the paper, and ingenuity to reduce the sheet interval between the preceding and succeeding sheets.
[0003]
In order to increase the image forming speed in the image forming section or increase the paper transport speed, it is necessary to increase the heat amount in the fixing section and the rotation speed of the paper transport motor, which reduces energy consumption. There is a problem that an increase in stress on the paper such as an increase in friction force, an increase in noise, and the like occur.
[0004]
On the other hand, when the interval between the preceding and succeeding sheets is reduced, the above problem does not occur, and it can be said that it is most effective for increasing the number of images formed per unit time. For this reason, the applicant of the present application switches the paper conveyance direction upstream and backward in the upstream direction of the image forming unit in order to reduce the sheet interval of the previous and subsequent sheets sent to the image forming unit. Japanese Patent Application Laid-Open No. 2001-130812 proposes an invention of an image forming apparatus that sends images to an image forming unit.
[0005]
[Problems to be solved by the invention]
In order to increase the number of images formed per unit time, it is effective to reduce the sheet interval between the preceding and succeeding sheets. However, as the sheet interval between the preceding and succeeding sheets decreases, it is provided on the upstream side of the image forming unit. In the registration mechanism unit, the preceding and succeeding sheets are superposed and may be sent to the image forming unit in the superposed state.
[0006]
If the preceding and succeeding sheets are fed to the image forming unit in a superimposed state, there are problems that an image is lost at the overlapping portion and that the image quality is deteriorated due to the irregularity of sheet conveyance caused by the overlapping.
[0007]
SUMMARY OF THE INVENTION An object of the present invention is to provide an image forming apparatus capable of preventing the preceding and succeeding sheets from being superimposed on the registration mechanism provided on the upstream side of the image forming section when the sheet interval between the preceding and succeeding sheets is reduced. That is.
[0008]
[Means for Solving the Problems]
An image forming apparatus according to a first aspect of the present invention includes a sheet conveying path through which a sheet is conveyed, an image forming unit that forms an image on the fed sheet by feeding the sheet conveyed on the sheet conveying path. Provided upstream of the image forming unit along the paper transport direction. A registration roller that is rotationally driven in a direction to convey the sheet to the image forming unit. And a resist mechanism part, A reverse roller for transmitting a reverse rotational driving force for returning the paper that has entered between the registration rollers to the upstream side in the transport direction, and a driving force interrupting means for interrupting transmission of the driving force to the reverse roller. Prepared Paper separation means In the resist mechanism It is provided.
[0009]
Therefore, if the leading edge of the succeeding paper reaches the registration mechanism before the trailing edge of the preceding paper passes through the registration mechanism, the paper separating means may cause the following paper to enter the registration mechanism. The registration mechanism unit prevents the preceding sheet and the succeeding sheet from being overlaid.
[0013]
In particular The driving force transmission to the reverse roller can be interrupted as necessary by the driving force interrupting means, and the leading edge of the sheet enters the registration mechanism and the leading edge of the sheet transports the sheet in the image forming unit. By stopping the transmission of the driving force to the reverse roller until it reaches the part where the paper is to be moved, it is possible to prevent the paper transport position from being shifted due to the return force acting on the paper from the reverse roller. Increases accuracy.
[0014]
Also After the leading edge of the paper reaches the portion where the paper is nipped in the image forming portion, even if a return force is applied to the paper from the reverse roller, the conveyance is applied from the nip portion of the image forming portion and the registration mechanism portion. The paper is smoothly conveyed by the force without being affected by the reverse roller.
[0015]
Moreover, an electromagnetic clutch etc. are suitable as a power interruption means.
[0016]
Claim 2 The described invention is claimed. 1 In the mounted image forming apparatus, a stoppable transport unit capable of switching between transport of paper and transport stop is provided upstream of the registration mechanism in a direction along the transport direction of the paper. To do.
[0017]
Therefore, when the succeeding sheet once reaches the registration mechanism unit and is returned from the nip area of the registration mechanism unit by the sheet separation unit, the conveyance of the sheet is stopped by the stoppable conveyance unit, so that the registration mechanism unit Therefore, it is possible to prevent the sheet returned from the nip area from being immediately fed again to the registration mechanism unit, and to effectively prevent the preceding and succeeding sheets from being overlaid in the registration mechanism unit.
[0018]
In particular , Even when transmission of the driving force to the berth roller is cut off, by stopping the conveyance of the succeeding sheet by the stoppable conveying means, it is possible to reliably prevent the overlap of the preceding and succeeding sheets at the registration mechanism.
[0019]
Claim 3 The invention described in claim 1 to claim 1 2 In the image forming apparatus according to any one of the above, the sheet feeding speed “V of the registration mechanism unit” ₂ "Is the paper feed speed of the image forming unit" V ₁ "It is characterized by being set above.
[0020]
Accordingly, the sheet conveyed in a state straddling between the image forming unit and the registration mechanism unit is conveyed in a state in which a slack is generated between the image forming unit and the registration mechanism unit. This prevents the registration mechanism from applying a load to the paper that is being imaged in step 2. This increases the accuracy of the paper that is transported through the image forming unit, and the quality of the image formed on the paper. Becomes higher.
[0021]
Claim 4 The invention described in claim 1 to claim 1 3 In the image forming apparatus according to any one of the above, a conveying unit that conveys the sheet is provided on the upstream side of the registration mechanism in a direction along the sheet conveying direction, and a sheet feeding speed “V” of the conveying unit. ₃ "Is the paper feed speed of the registration mechanism" V ₂ "It is characterized by being set above.
[0022]
Therefore, when the succeeding sheet is conveyed by the conveying unit, the sheet is conveyed to the registration mechanism unit so as to close the distance from the preceding sheet, so that the sheet interval of the preceding and following sheets becomes smaller.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Image forming apparatus according to reference example Will be described with reference to FIGS. FIG. 1 is a schematic diagram showing the overall structure of an image forming apparatus having a digital electrophotographic image forming unit, FIG. 2 is a schematic diagram showing an enlarged registration mechanism unit, and FIG. 3 is for switching back a sheet to be conveyed. It is the schematic which expands and shows the structure of a paper inversion means.
[0024]
As shown in FIG. 1, in this image forming apparatus, image formation is performed on a sheet tray 1 which is a sheet storage unit in which sheets are stacked and held, a sheet fed from the sheet tray 1, or one side, and then fed again. An image forming unit 2 that forms an image on the other side of the paper that has been formed, and a paper discharge tray 3 that discharges the paper on which the image has been formed are provided.
[0025]
In addition, the image forming apparatus is provided with a sheet conveying path 4 through which a sheet is conveyed. The sheet conveying path 4 includes a sheet conveying path 4a, a portion from the sheet tray 1 to the image forming unit 2, The part from the image forming unit 2 to the paper discharge tray 3 is a direct paper discharge transport path 4b, and the part from the image forming unit 2 to the middle of the paper feed transport path 4a is a refeed paper transport path 4c. A part from the middle of the transport path 4c to the paper discharge tray 3 is a reverse paper discharge transport path 4d, and a part branched from the middle of the paper feed transport path 4a is a reverse transport path 4e.
[0026]
The paper tray 1 is detachably attached to the image forming apparatus, and in the vicinity of the mounting position of the paper tray 1 in the image forming apparatus, a pickup roller 5 that feeds out the sheets stacked and held in the paper tray 1, A separation sheet feeding unit 6 that separates and feeds the sheets fed by the pickup roller 5 one by one is provided. The separation paper feeding unit 6 includes a feed roller 7 that is rotationally driven in the paper feeding direction and a torque limiter (not shown), and a reverse roller that transmits a rotational driving force in a direction opposite to the paper feeding direction. 8 etc.
[0027]
The image forming unit 2 includes a photosensitive drum 9 on which an image is formed, a charger (not shown) for uniformly charging the surface of the photosensitive drum 9, and an electrostatic latent image on the photosensitive drum 9. Digital writing means (not shown) for writing, a developing device (not shown) for forming a toner image by attaching toner to the electrostatic latent image on the photosensitive drum 9, and transferring the developed toner image onto a sheet There are provided a transfer belt 10 to be fixed, a fixing device 11 for fixing the toner image transferred on the sheet to the sheet, and the like.
[0028]
The paper feed transport path 4a is a transport path through which the paper is transported toward the image forming unit 2. On the paper feed transport path 4a, a sensor 12, a gripper roller 13, a sensor 14, an entrance roller 15, A reverse branch claw 16, a sensor 17, a conveying roller pair 18 that is a conveying unit, a sensor 19, a registration mechanism unit 20, and the like are arranged. The registration mechanism unit 20 is provided with a sheet separating unit 21.
[0029]
The registration mechanism unit 20 is composed of a registration roller 22 and a reverse roller 23 that are arranged with a parallel rotation center and are in contact with the outer peripheral surface. The registration mechanism unit 20 is intermittently driven at a predetermined timing to carry a paper feed. The sheet conveyed through the path 4a is sent to the image forming unit 2.
[0030]
The sheet separating means 21 is a means for conveying only the preceding sheet toward the image forming section 2 and returning the succeeding sheet to the upstream side in the conveying direction when the first and second sheets enter the registration mechanism section 20. When the reverse roller 23 to which the rotational driving force is transmitted in the direction in which the paper is returned to the upstream side in the transport direction and the paper that has entered the registration mechanism unit 20 (between the registration roller 22 and the reverse roller 23) is one sheet The reverse roller 23 is allowed to be rotated by the registration roller 22 and is rotated in the reverse direction to return the reverse roller 23 to the upstream side in the paper transport direction when two sheets of paper have entered the registration mechanism 20. And a torque limiter 24 to be operated.
[0031]
The direct paper discharge transport path 4 b is a transport path through which the paper on which the image is formed in the image forming unit 2 is transported toward the paper discharge tray 3.
[0032]
The re-feeding conveyance path 4c is a conveyance in which a sheet on which an image is formed on one side in the image forming unit 2 is conveyed toward the middle of the sheet feeding conveyance path 4a for image formation on the other side. Road. After the image is formed on one surface, the sheet fed from the refeeding conveyance path 4c to the feeding conveyance path 4a is switched back in the reversal conveyance path 4e, whereby the image forming unit 2 In FIG. 5, the front and back sides are reversed so that the image is formed on the other side.
[0033]
In the reverse paper discharge conveyance path 4d, the paper once fed to the paper refeed conveyance path 4c after the image formation is performed in the image forming unit 2 is switched back, and the paper is discharged in the reverse direction. It is a conveyance path conveyed toward the tray 3 toward 4a. The paper discharged through the reverse paper discharge conveying path 4d is discharged in page order during single-sided printing.
[0034]
The reversing conveyance path 4e is a conveyance path in which a sheet conveyed along the sheet feeding conveyance path 4a toward the image forming unit 2 is switched back in the middle of the conveyance. On the reversing conveyance path 4e, the paper fed into the reversing conveyance path 4e is switched back and sent to the paper feeding conveyance path 4a, and the preceding state fed from the reversing conveyance path 4e. The sheet reversing means 25 that can be switched to an open state that allows at least a part of the sheet and the succeeding sheet fed to the reversing conveyance path 4e to overlap, and the skew of the sheet fed to the reversing conveyance path 4e A jogger 26 that performs correction is provided.
[0035]
Further, the entrance roller 15 and the reversing branching claw 16 described above are disposed at a connection portion between the reversing conveyance path 4e and the paper feeding conveyance path 4a. A plurality of ring-shaped groove portions (not shown) are formed on the outer peripheral portion of the entrance roller 15, and the tip of the reversing branching claw 16 facing the reversing conveyance path 4 e enters the ring-shaped groove portion.
[0036]
As shown in FIG. 3, the sheet reversing means 25 has a notched surface driving roller 29 in which a notched surface portion 27 is formed in a part of the outer peripheral portion in parallel with the axis and the other portion of the outer peripheral portion is a cylindrical surface portion 28. Are disposed at positions facing the notched surface driving roller 29 across the sheet fed into the reversing conveyance path 4e, and are brought into contact with the cylindrical surface portion 28 when the notched surface driving roller 29 rotates. And a driven roller 30 that stops the driven rotation when it is driven to rotate and faces the notch surface portion 27. The notched surface driving roller 29 is connected to a motor (not shown) that rotationally drives the notched surface driving roller 29.
[0037]
FIG. 3B shows a state in which the driven roller 30 is in contact with the cylindrical surface portion 28 of the drive roller 29 with a notched surface, and the driven roller 30 is rotated by being driven to rotate in the direction of the arrow. This is a delivery state in which the paper that is driven to rotate in the direction of the arrow and is sandwiched between the drive roller 29 with the notched surface and the driven roller 30 is sent out from the reverse conveyance path 4e toward the paper feed conveyance path 4a.
[0038]
FIG. 3A shows an open state in which the notch surface portion 27 of the notched surface driving roller 29 faces the driven roller 30 and a gap is generated between the notched surface driving roller 29 and the driven roller 30. In this open state, the sheet is fed into the reversing transport path 4e, and the preceding sheet fed from the reversing transport path 4e and the succeeding sheet fed to the reversing transport path 4e At least a part is overlapped between the drive roller 29 with the notched surface and the driven roller 30.
[0039]
In such a configuration, when the start key is pressed after the continuous image forming mode is set, the sheets are fed one after another from the sheet tray 1, and these sheets are fed on the feeding conveyance path 4a to the image forming unit. In the middle of this, it is sent to the reversing conveyance path 4e and switched back, and the front and back and the front and back are reversed. When the sheet switched back in the reverse conveyance path 4e is sent to the image forming unit 2, the image forming unit 2 forms an image on the sheet.
[0040]
The sheet fed into the reversing conveyance path 4e passes between the lower side of the reversing branch claw 16 and the entrance roller 15, and is fed so as to push up the reversing branch claw 16. The sheet switched back in the reversing conveyance path 4e passes through the top end of the reversing branch claw 16 and is sent out to the paper feeding conveyance path 4a.
[0041]
Here, when the paper is switched back in the reversing transport path 4e, the paper feeding speed to the reversing transport path 4e, the paper feeding speed from the reversing transport path 4e, and the paper feeding from the reversing transport path 4e. By controlling the timing and the like, it is possible to reduce the sheet interval of the preceding and subsequent sheets that are sent to the image forming unit 2 after being switched back.
[0042]
When the sheet interval between the preceding and following sheets conveyed through the sheet feeding conveyance path 4a is reduced, the leading edge of the succeeding sheet is passed before the trailing edge of the preceding sheet passes through the registration mechanism unit 20, as shown in FIG. May reach the resist mechanism 20. In such a case, the leading edge of the succeeding paper enters between the registration roller 22 and the reverse roller 23. More precisely, the leading edge of the succeeding sheet enters between the reverse roller 23 and the preceding sheet. A guide member (not shown) is provided on the upstream side of the registration mechanism unit 20 so that the leading edge of the paper entering the registration mechanism unit 20 faces the reverse roller 23 side. Intrusion between the roller 22 and the preceding sheet is prevented.
[0043]
When the succeeding sheet enters between the reverse roller 23 and the preceding sheet, the reverse roller 23 that has been rotated in the direction in which the preceding sheet is conveyed to the image forming unit 2 is moved backward by the action of the torque limiter 24. The sheet in the row is rotated in the reverse direction to return the sheet to the upstream side in the conveyance direction, and the sheet in the subsequent line is returned from the nip area between the registration roller 22 and the reverse roller 23 to the upstream side in the sheet conveyance direction. As a result, the registration mechanism unit 20 prevents the preceding sheet and the succeeding sheet from being superimposed, and the preceding and succeeding sheets that are superimposed in the registration mechanism unit 20 are sent directly to the image forming unit 2. Inconveniences caused by being fed into the image forming unit 2 in a superimposed state of two sheets of paper, for example, the occurrence of an image loss at the overlapping part, and the deterioration of image quality due to the paper conveyance disorder caused by the overlapping Etc. can be prevented.
[0044]
Next, the first of the present invention 1 The embodiment will be described with reference to FIG. In addition, Reference example The same parts as those described in FIG. 1 are denoted by the same reference numerals, and description thereof is also omitted (the same applies to the following embodiments).
[0045]
The basic structure of this embodiment is Reference example In this embodiment, Reference example On the other hand, an electromagnetic clutch 31 which is a driving force interrupting means for interrupting transmission of driving force to the reverse roller 23 (driving force for rotating the reverse roller 23 in a direction to return the sheet to the upstream side in the transport direction) is added.
[0046]
In such a configuration, when the electromagnetic clutch 31 is turned on, the driving force for rotating the reverse roller 23 in the reverse direction to return the sheet to the upstream side in the transport direction is transmitted to the reverse roller 23. On the other hand, when the electromagnetic clutch 31 is turned off, the transmission of the driving force for rotating the reverse roller 23 in the reverse direction to return the paper to the upstream side in the transport direction is cut off, and the reverse roller 23 is simply rotated around the registration roller 22. Is done.
[0047]
Accordingly, the electromagnetic clutch 31 is turned off after the leading edge of the sheet enters the registration mechanism unit 20 until the leading edge of the sheet reaches the nip portion between the photosensitive drum 9 and the transfer belt 10 in the image forming unit 2. Accordingly, the drive force transmitted to the reverse roller 23 is cut off, so that the return force acting on the paper from the reverse roller 23 is eliminated, and the return position from the reverse roller 23 prevents the paper transport position from shifting, and the image forming unit The sheet can be fed into the sheet 2 with high accuracy, and the accuracy of the image formation start position on the sheet is increased.
[0048]
Note that after the leading edge of the paper reaches the nip portion between the photosensitive drum 9 and the transfer belt 10 in the image forming unit 2, the electromagnetic clutch 31 is turned on and a return force is applied to the paper from the reverse roller 23. However, the sheet is smoothly conveyed without being affected by the return force of the reverse roller 23 due to the conveying force applied from the nip portion of the image forming unit 2 and the registration roller 22.
[0049]
Next, the first of the present invention 2 The embodiment will be described with reference to FIG. In the present embodiment, a transport unit that transports the paper and a stoppable transport unit that can switch between transport and stop of the paper upstream of the registration mechanism unit 20 in the direction along the transport direction of the paper. A certain conveyance roller pair 18a is provided.
[0050]
The conveyance roller pair 18a includes a driving roller and a driven roller, and the driving roller is driven by rotating the driving roller while the driving roller and the driven roller sandwich the paper. When switching the conveyance roller pair 18a to the conveyance stop state, the driven roller is moved to a position away from the driving roller.
[0051]
In such a configuration, the transport roller pair 18a is switched to the transport stop state when the subsequent sheet reaches the registration mechanism unit 20 and then is returned from the nip region of the registration mechanism unit 20 by the sheet separation unit 21. Accordingly, it is possible to prevent the sheet returned from the nip area of the registration mechanism unit 20 from being sent again to the registration mechanism unit 20 and effectively prevent the registration mechanism unit 20 from overlapping the preceding and succeeding sheets. be able to.
[0052]
In addition, the switch to the conveyance stop state of the conveyance roller pair 18a and the switch to the conveyance state are provided on the downstream side of the sensor (not shown) that detects the rotation direction of the reverse roller 23 and the registration mechanism unit 20. The detection can be performed according to the detection result of a paper detection sensor (not shown). For example, when the reverse roller 23 rotates in the reverse direction (when the succeeding sheet is returned to the upstream side from the registration mechanism unit 20), it is switched to the conveyance stop state, and then the sheet detection sensor detects the trailing edge of the sheet. In this case (when the trailing edge of the preceding sheet has passed the registration mechanism unit 20), the state is switched to the transport state.
[0053]
Next, the first of the present invention 3 The embodiment will be described with reference to FIG. In the present embodiment, the sheet feeding speed in the image forming unit 2 is “V”. ₁ “The sheet feed speed of the registration mechanism 20 is“ V ”. ₂ "The paper feed speed of the conveying roller pair 18a is" V ₃ "The paper feed speed of the paper reversing means 25 is" V ₄ "In addition, the sheet feeding speed of the registration mechanism 20" V ₂ “Is the paper feed speed of the image forming unit 2” V ₁ "It is set above. Also, the paper feed speed of the conveying roller pair 18a" V ₃ "But paper feed speed of registration mechanism 20" V ₂ “It is set above. Also, the paper feed speed of the paper reversing means 25 is“ V ”. ₄ "But paper feed speed of registration mechanism 20" V ₂ "It is set more than.
[0054]
In such a configuration, the sheet conveyed in a state straddling between the image forming unit 2 and the registration mechanism unit 20, that is, the leading end side enters the image forming unit 2 and the trailing end side is conveyed by the registration mechanism unit 20. The sheet being fed is the sheet feed speed “V” of the registration mechanism 20. ₂ "Is the sheet feeding speed" V of the image forming unit 2 ". ₁ Since it is set as described above, as shown in FIG. 6, the sheet is transported in a state where slack is generated between the image forming unit 2 and the registration mechanism unit 20. A load is not applied from the registration mechanism unit 20 to the paper being formed, the conveyance accuracy of the paper conveyed through the image forming unit 2 is increased, and the quality of the image formed on the paper is increased. Becomes higher.
[0055]
Further, the sheet feeding speed “V” of the conveying roller pair 18a. ₃ "Is the sheet feeding speed" V of the registration mechanism 20 ". ₂ Therefore, when the succeeding sheet is transported by the transport roller pair 18a, the succeeding sheet is transported to the registration mechanism unit 20 so as to be close to the preceding sheet. As a result, the sheet interval between the preceding and succeeding sheets can be further reduced, which can contribute to an increase in the number of images formed per unit time.
[0056]
Further, the sheet feeding speed of the sheet reversing means 25 is “V”. ₄ "And the sheet feed speed of the conveying roller pair 18a" V ₃ "Is the sheet feed speed of the registration mechanism 20" V ₂ Since it is set above, when the succeeding sheet is transported by the sheet reversing means 25, the succeeding sheet is transported to the registration mechanism unit 20 so as to close the distance from the preceding sheet. As a result, the interval between the preceding and succeeding sheets can be further reduced, thereby contributing to an increase in the number of images formed per unit time.
[0057]
【The invention's effect】
According to the image forming apparatus of the first aspect, when the leading edge of the succeeding paper reaches the registration mechanism before the trailing edge of the preceding paper passes through the registration mechanism, the succeeding paper Can be prevented from entering the registration mechanism by the sheet separating means, and the registration mechanism can prevent the preceding sheet and the succeeding sheet from being superimposed, and the preceding sheet remains superimposed. It is possible to prevent image loss due to superimposition caused by being sent to the image forming unit, and deterioration of image quality due to paper conveyance turbulence caused by the superimposition.
[0059]
Also The driving force transmission to the reverse roller can be interrupted as necessary by the driving force interrupting means, and the leading edge of the sheet enters the registration mechanism and the leading edge of the sheet transports the sheet in the image forming unit. By stopping the transmission of the driving force to the reverse roller until it reaches the area where the image is transferred, it is possible to prevent the paper transfer position from being shifted due to the return force acting on the paper from the reverse roller. Accuracy can be increased.
[0060]
Claim 2 According to the described invention, the claims 1 In the mounted image forming apparatus, a stoppable transport unit capable of switching between transport of paper and transport stop is provided upstream of the registration mechanism in a direction along the transport direction of the paper. Therefore, when the succeeding paper once arrives at the registration mechanism portion and is returned from the nip area of the registration mechanism portion by the paper separation means, the conveyance of the paper is stopped by the stopable conveyance means, thereby the registration mechanism Therefore, it is possible to prevent the sheet returned from the nip area of the section from being immediately fed again to the registration mechanism unit, and to effectively prevent the preceding sheet from being superimposed on the registration mechanism unit.
[0061]
Claim 3 According to the described invention, claims 1 to 2 In the image forming apparatus according to any one of the above, the sheet feeding speed “V of the registration mechanism unit” ₂ "Is the paper feed speed of the image forming unit" V ₁ “Because it is set as described above, the sheet conveyed while straddling between the image forming unit and the registration mechanism unit is loosened between the image forming unit and the registration mechanism unit. The paper is being transported in the state, and the load is not applied from the registration mechanism to the paper that is being imaged by the image forming unit, and the transport accuracy of the paper that is transported through the image forming unit And the quality of the image formed on the paper can be improved.
[0062]
Claim 4 According to the described invention, claims 1 to 3 In the image forming apparatus according to any one of the above, a conveying unit that conveys the sheet is provided on the upstream side of the registration mechanism in a direction along the sheet conveying direction, and a sheet feeding speed “V” of the conveying unit. ₃ "Is the paper feed speed of the registration mechanism" V ₂ "Because it is set as described above, when the succeeding sheet is transported by the transport means, it is transported to the registration mechanism section so as to be spaced from the preceding sheet. The sheet interval can be further reduced, which contributes to an increase in the number of images formed per unit time.
[Brief description of the drawings]
[Figure 1] Reference example 1 is a schematic diagram showing the overall structure of the image forming apparatus of FIG.
FIG. 2 is an enlarged schematic view showing a resist mechanism.
FIG. 3 is an enlarged schematic view showing the structure of a sheet reversing unit that switches back the sheet.
FIG. 4 shows the first aspect of the present invention. 1 It is a front view which shows a part of embodiment.
FIG. 5 shows the first of the present invention. 2 It is the schematic which shows a part of embodiment.
FIG. 6 shows the first of the present invention. 3 It is the schematic which shows a part of embodiment.
[Explanation of symbols]
2 Image forming unit
4 Paper transport path
18 Transport means
18a Conveying means, stopable conveying means
20 resist mechanism
21 Paper separation means
23 Reverse Roller
31 Driving force intermittent means

Claims (4)

A paper transport path through which paper is transported, and
An image forming unit that feeds the paper transported on the paper transport path and forms an image on the fed paper;
A registration mechanism provided with a registration roller provided on the upstream side of the image forming unit along the conveyance direction of the paper and driven to rotate in a direction of conveying the paper to the image forming unit ,
A reverse roller for transmitting a reverse rotational driving force for returning the paper that has entered between the registration rollers to the upstream side in the transport direction, and a driving force interrupting means for interrupting transmission of the driving force to the reverse roller. An image forming apparatus comprising: a sheet separating unit provided in the registration mechanism .   2. The image according to claim 1, further comprising a stoppable transport unit capable of switching between transport of paper and transport stop upstream of the registration mechanism in a direction along the transport direction of the paper. Forming equipment. 3. The image forming apparatus according to claim 1, wherein a sheet feeding speed “V ₂ ” of the registration mechanism unit is set to be equal to or higher than a sheet feeding speed “V ₁ ” of the image forming unit. Conveying means for conveying the paper is provided upstream of the registration mechanism in the direction along the paper conveyance direction, and the paper feeding speed “V ₃ ” of the conveying means is the paper feeding speed “V ₂ ” of the registration mechanism. the image forming apparatus as claimed in 3 claims 1, characterized in that it is set above.

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