JP5340007B2 - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sheet carrying device, an image forming device and an image reader capable of surely correcting a skew without depending on a kind of sheet (strength of stiffness). <P>SOLUTION: A curved part RA is arranged for turning a sheet deflected in the width direction toward a skew correcting part 50A while being deflected in advance along the sheet carrying direction, by carrying the sheet to the skew correcting part 50A by a paper ejecting roller 14 and a plurality of paper ejecting rollers 30 for deflecting and carrying the sheet in the width direction orthogonal to the sheet carrying direction. The sheet is deflected in the width direction by symmetrically inclining the plurality of paper ejecting rollers 30 so that the central side of the plurality of paper ejecting rollers 30 becomes the upstream side in the sheet carrying direction with the center in the width direction orthogonal to the sheet carrying direction as the center. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

The present invention relates to images formed equipment, more particularly those with skew correction unit that corrects a skew of the sheet.

  2. Description of the Related Art Conventionally, image forming apparatuses such as copying machines, printers, facsimiles, and image reading apparatuses are provided with a sheet conveying device that conveys a sheet such as a recording sheet or a document to the image forming unit or the image reading unit. Some sheet conveying apparatuses include a skew correction unit for correcting the skew of the sheet in order to adjust the posture and position of the sheet before the sheet is conveyed to the image forming unit or the image reading unit. .

  As such a skew correction unit, for example, the leading edge of the sheet is brought into contact with the stopped pair of registration rollers to form a loop on the sheet, and thereafter, the skew of the sheet is corrected by rotating the pair of registration rollers. There is a registration roller type. In addition, there is a method in which a sheet is abutted against an abutting member positioned perpendicular to the sheet conveying direction, and the skew of the sheet is corrected by causing the leading end of the sheet to follow the abutting surface of the abutting member (patent) Reference 1). In the skew feeding correction unit using the contact member, for example, the front end of the sheet is looped by abutting the front end of the sheet against a registration shutter (contact member) that applies a predetermined urging force upstream of the image forming unit in the sheet conveyance direction. This corrects the skew of the sheet. Thereafter, when the pressing force of the sheet against the registration shutter becomes greater than the urging force, the sheet is pressed by the sheet and the registration shutter is rotated toward the downstream side in the sheet conveyance direction, whereby the skew-corrected sheet is directed toward the image forming unit. Are transported.

  However, in the skew feeding correction portion having such a configuration, a loop is formed in the sheet by the biasing force of the registration shutter and the pressing force of the sheet, and the registration shutter is opened and closed. Limited. For example, when the sheet is thin paper with low stiffness (rigidity), even if a loop is formed, the registration shutter cannot be rotated after that, and there is a case where a paper jam occurs. Even in a high-humidity environment, the same phenomenon may occur because the apparent waist of the sheet decreases. Note that the same phenomenon may occur in the registration roller type skew correction unit.

  This event can be dealt with, for example, by reducing the biasing force of the resist shutter. However, if the biasing force of the resist shutter is weakened, and if the sheet is thick paper, the loop is not formed. The resist shutter may be rotated by being pressed by the sheet. Therefore, conventionally, for example, there is one in which a loop is formed in the width direction of a sheet by a guide that guides the sheet to a resist shutter (see Patent Document 2). By forming a loop in the width direction in this way, the apparent rigidity of the thin paper is increased and the transportability of the thin paper is improved.

JP-A-11-255378 JP 2005-263342 A

However, Oite the conventional images forming equipment to form a loop in the sheet, if the rigidity of the sheet is too large, the registration shutter is pressed by the sheet before the loop is formed even in thin rotates There is a case. That is, when a loop is formed in the width direction of the sheet to increase the rigidity, the registration shutter may be rotated by being pressed by the sheet before the loop is formed even for a sheet with a weak waist. For example, even if the shape of the guide guide is set so that the loop amount is suitable for thin paper, when conveying stiff thick paper, the loop in the width direction is formed to the same extent as when thin paper is used. . In this case, the rigidity of the thick paper becomes too large, and the registration shutter is rotated by being pressed by the sheet before the loop is formed, and the skew of the sheet cannot be corrected. Even in an apparatus that forms a loop on a sheet by abutting the leading edge of the sheet against a pair of resist rollers that are stopped, if the rigidity of the sheet is too high, the loop is difficult to form. Pierce through the nip. In this case, the skew of the sheet cannot be corrected.

The present invention has been made in view of such circumstances, to provide images form equipment that can the be corrected reliably skew irrespective of the type of sheet (the stiffness) It is for the purpose.

The present invention provides an image forming unit that forms an image on a sheet, and a sheet on which an image is formed by the image forming unit by rotating forward in response to a driving force from a driving source, and discharging the sheet to a paper discharge tray. A sheet discharge roller for reversing the sheet to form an image on the second surface of the sheet on which the image is formed on the first surface by the image forming unit by rotating in reverse upon receiving the driving force from the source; A roller which is provided in plural along the width direction of the sheet and is in pressure contact with the roller, and a leading end of the sheet conveyed by the reverse rotation of the sheet discharge roller comes into contact with each other to correct the skew of the sheet. In the image forming apparatus having a line correction unit, and a sheet conveyance path between the paper discharge roller and the skew correction unit, the plurality of rollers are configured to move the sheet when the sheet is reversed and conveyed. In order to bend in the width direction of the sheet, The sheet conveyance path is arranged so as to be inclined with respect to the center of the direction, and the sheet is deflected in the width direction of the sheet by the plurality of rollers before the front end of the sheet contacts the skew feeding correction unit. A pair of conveyance guides having a curved shape for bending toward the second surface side along the conveyance direction of the sheet, and the leading end of the sheet is inclined to the downstream of the curved shape in the conveyance direction; The sheet has a loop forming space for forming a bend on the first surface side along the conveyance direction after contacting the row correction unit .

  As in the present invention, the plurality of rotating bodies are bent in the width direction by being inclined symmetrically so that the center side of the plurality of rotating bodies is the upstream side in the sheet conveying direction with the center in the width direction of the sheet as the center. As a result, the skew feeding can be reliably corrected regardless of the type of the sheet.

1 is a diagram illustrating a schematic configuration of an image forming apparatus according to a first embodiment of the present invention. The principal part enlarged view of the said image forming apparatus. 2 is a diagram illustrating a configuration of a paper discharge unit of the image forming apparatus. FIG. FIG. 4 is a diagram illustrating a state of a sheet conveyed by a paper discharge roller of the paper discharge unit. FIG. 5 is a diagram illustrating a state of a sheet that is reversed and conveyed by a discharge roller of the discharge unit. FIG. 3 is a diagram illustrating a configuration of a double-sided conveyance roller provided in the image forming apparatus. FIG. 4 is a diagram illustrating a state when a sheet of the image forming apparatus passes through a reverse conveyance path. FIG. 6 is a diagram illustrating a schematic configuration in the vicinity of an image forming unit of an image forming apparatus according to a second embodiment of the present invention. 1 is a diagram illustrating a schematic configuration of an image reading apparatus according to a reference example of the present invention.

  Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram illustrating a schematic configuration of an electrophotographic printer which is an example of an image forming apparatus including a sheet conveying device according to a first embodiment of the present invention. In FIG. 1, 1 is an electrophotographic printer, 1A is a printer main body, 1B is provided in the printer main body 1A, an image forming unit for forming an image by an electrophotographic method, and 1C feeds a sheet P to the image forming unit 1B. This is a sheet feeding unit. Reference numeral 17 denotes a laser exposure apparatus that emits and scans laser light, and 1D denotes a fixing unit that includes a fixing heater unit 12 and a pressure roller 13 that faces the fixing heater unit 12. Reference numeral 1E denotes a paper discharge unit which is a sheet discharge unit for discharging the sheet P to the paper discharge tray 15 after fixing. The paper discharge unit 1E is a paper discharge roller 14 which can be rotated in the forward / reverse direction with a friction member disposed on the surface layer. It has. 1G is a re-conveying unit for re-conveying a sheet with an image formed on one side to the image forming unit 1B. The re-conveying unit 1G inverts the sheet P on which the image is formed and forms an image again. The reversal conveyance path R which is a re-conveyance path conveyed to the part 1B is provided.

  The image forming unit 1B includes a photosensitive drum 10a for forming a toner image, a charging roller 10c, and the like. The process cartridge 10 that is detachably attached to the printer main body 1A, and the toner image formed on the photosensitive drum 10a on a sheet P A transfer roller 11 for transferring is provided. The sheet feeding unit 1C is provided in the printer main body 1A, and includes a sheet feeding roller 4 that is a sheet feeding member that feeds the sheet P stored in the middle plate 3a and the sheet tray 3 that can be opened and closed, and a sheet feeding roller. 4 is provided with a separation pad 5 that is in pressure contact with 4. Reference numeral 2 denotes a side regulating plate that regulates the position in the width direction orthogonal to the sheet conveying direction of the sheet P set on the sheet feeding tray 3 and the intermediate plate 3a.

  Next, an image forming operation in the printer 1 having such a configuration will be described. After the sheet P is set on the sheet feed tray 3 and the middle plate 3a, the motor 16 rotates when a print start command is input from a computer, an image reader or the like (not shown). As a result, the paper feed roller 4, the transport roller 8, the photosensitive drum 10a of the process cartridge 10, the pressure roller 13, and the paper discharge roller 14 are driven. In the present embodiment, the paper feed roller 4 is provided with a paper feed cam (not shown) coaxially, and after receiving a paper feed start signal from a control board (not shown), one rotation control (not shown) is performed. By means, the sheet P is fed by one rotation. As a result, when a paper feed start signal is received and the paper feed roller 4 rotates in the direction of the arrow, the paper feed cam provided coaxially with the paper feed roller 4 also rotates, and the intermediate plate 3a is linked to this paper feed cam. By rotating upward, the sheet P is pressed against the paper feed roller 4. Thereafter, when the paper feed roller 4 is rotated, the sheet P is fed out by the paper feed roller 4 while being guided by the side regulating plate 2 in the width direction.

  On the other hand, simultaneously with the rotation of the sheet feed roller 4, the bundle of sheets P is separated by the separation pad 5 pressed by the separation pad spring 7, and the uppermost sheet P1 is fed. Note that immediately before the end of one rotation of the paper feed roller 4, the paper feed cam provided on the same axis as the paper feed roller 4 again pushes down the intermediate plate 3a to the paper feed standby position. Then, the sheet P1 fed by one rotation of the sheet feeding roller 4 is conveyed by the conveying roller 8, and the sheet leading edge detection flag 9 is rotated. Here, when the sheet leading edge detection flag 9 rotates in this way, a photo sensor (not shown) is turned on, and the leading edge position of the sheet P is detected. When the front end position of the sheet is detected by the photosensor, the laser exposure device 17 irradiates the photosensitive drum 10a with laser light after a predetermined time.

  By this laser light irradiation, the surface is uniformly charged by a charging roller 10c fed from a high voltage power supply (not shown) and an electrostatic latent image is formed on the photosensitive drum 10a rotating in the direction of the arrow. The Thereafter, as the developing sleeve 10d rotates, an appropriate amount of toner filled in the toner container 10b is appropriately charged, and then supplied onto the photosensitive drum 10a to adhere to the electrostatic latent image. The electrostatic latent image is developed and visualized as a toner image. Next, the visualized toner image on the photosensitive drum 10 a is transferred onto the sheet P by the transfer roller 11. The untransferred toner remaining on the photosensitive drum 10a without being transferred is stored in the waste toner container 10f by the cleaning blade 10e, and the photosensitive drum 10a whose surface has been cleaned repeatedly enters the next image forming process.

  Next, the sheet P to which the toner image is transferred is conveyed to the fixing unit 1D. Here, as shown in FIG. 2, the pressure roller 13 constituting the fixing unit 1D is always rotating in the direction of arrow N in the figure. The fixing heater unit 12 includes a fixed heater 12a and an endless film 12b supported so as to surround the heater 12a. The endless film 12b follows the rotation of the pressure roller 13 and the conveyance of the sheet P. To rotate.

  Thus, when passing through the fixing unit 1D, the toner image is permanently fixed on the sheet P by the heat from the heater 12a and the pressure from the pressure roller 13. Thereafter, the sheet P on which the toner image is fixed is conveyed to the sheet discharge roller 14 through a conveyance path formed by the sheet discharge upper guide 25 and the sheet discharge lower guide 19 provided downstream in the conveyance direction of the fixing unit 1D. Here, when the sheet P having an image formed on one side is discharged from a driving unit (not shown), the discharge roller 14 that can be rotated in the forward and reverse directions is rotated in the direction of the arrow M1. Thus, when the sheet P having an image formed on one side is discharged, the sheet is discharged out of the printer main body by the paper discharge roller 14 and stacked on a paper discharge tray 15 provided on the upper surface of the printer main body.

  On the other hand, when images are formed on both sides of the sheet, the sheet discharge roller 14 is moved to the unillustrated timing when the reverse sensor 18 provided on the conveyance path detects the trailing edge of the sheet P and then passes through the sheet discharge upper guide 25. The rotation is reversed by the switching means and rotated in the direction of the arrow M2. In the present embodiment, the reversing sensor 18 determines the timing at the time of the switchback operation, and also detects the leading and trailing edges of the sheet P to monitor the conveyance state of the sheet P and the paper jam. Then, by rotating the paper discharge roller 14 in the direction of the arrow M2 as described above, the sheet P is guided to the reverse conveyance path R formed by the reverse lower guide 20, the duplex conveyance guide 21, and the reverse upper guide 24. Thereafter, the sheet P is guided again to the conveyance roller 8 by the double-side conveyance roller 41 provided in the reverse conveyance path R. Thereafter, the sheet P guided to the transport roller 8 is discharged from the apparatus through the paper discharge roller 14 through image formation similar to that for single-sided printing, and is stacked on the paper discharge tray 15.

  By the way, in this embodiment, as shown in FIG. 3, the paper discharge roller 14 is composed of a rotating shaft 14a and a plurality of roller bodies 14b fixed to the rotating shaft 14a. The rotating shaft 14a is supported by a bearing 49, and a gear 14c for driving transmission is fixed to one end of the rotating shaft 14a. Further, a plurality of rotatable paper discharge rollers 30 are pressed against the paper discharge roller 14 as a driving roller with a predetermined pressure. Here, in the present embodiment, the discharge rollers 30 that are a plurality of rotating bodies that are in pressure contact with the discharge rollers 14 are centered on the conveyance center line (center) in the width direction, and the center side of the discharge rollers 30 is an arrow. Are supported by being inclined symmetrically toward the upstream side in the sheet conveying direction during reverse conveyance shown in FIG. In other words, each of the paper discharge rollers 30 is inclined at a predetermined angle θ such that the shaft end far from the conveyance center line is directed downstream in the sheet conveyance direction, that is, toward the double-sided conveyance roller 41. Yes.

  FIG. 4A is a diagram illustrating a state of the sheet conveyed by the sheet discharge roller 14 that constitutes a sheet conveyance unit together with the sheet discharge roller 30 when the sheet discharge roller 30 is in pressure contact. In this case, when the discharge roller 14 rotates in the direction of the arrow M1, the sheet receives a force that is spread toward the sheet side surface indicated by the arrow H1 by the inclination angle θ of the discharge roller 30 with respect to the sheet conveyance direction. FIG. 4B is a diagram illustrating a state in which the rotation direction of the paper discharge roller 14 is reversed by a driving unit (not illustrated) and the sheet P is conveyed in reverse. In this case, when the paper discharge roller 14 rotates in the direction of the arrow M2, the sheet P receives a force for moving the sheet P toward the sheet conveyance center indicated by the arrow H2 by the inclination angle θ of the paper discharge roller 30. When such a force is received, as shown in FIG. 5, the central portion in the width direction of the sheet swells upward, thereby increasing the stiffness (rigidity) of the sheet P.

  On the other hand, as shown in FIGS. 6A and 6B, the double-sided conveyance roller 41 provided in the reverse conveyance path R has a rotating shaft 41a and a friction member on the surface layer, and is fixed to the rotating shaft 41a. The two roller main bodies 41b and a gear 41c that transmits driving are configured. Further, the double-sided conveyance roller 41 is rotatably supported by the bearing 51 and is always driven to rotate in the CCW (counterclockwise) direction in the drawing. A double-sided conveyance roller 42 that contacts the double-sided conveyance roller 41 and rotates following the rotation of the double-sided conveyance roller 41 is held on the roller shaft 43 so as to be rotatable. The roller shaft 43 is held by a roller bearing 44 slidably provided on the double-sided conveyance roller side by a frame (not shown). The roller bearing 44 is pressed by the compression spring 45 toward the double-sided conveyance roller side. Yes.

  Here, in FIG. 6, reference numeral 50 </ b> A denotes a skew correction unit that corrects the skew of the sheet by forming the sheet in the sheet conveyance direction. The skew feeding correcting portion 50A corrects the skew feeding of the sheet by looping the front end portion of the sheet with the double-sided conveyance roller 41 and the double-sided conveyance roller 42 which are the pair of rotating bodies having the above-described configuration. A resist shutter 50 as a contact member is provided. Then, as shown in FIG. 6B, the resist shutter 50 is swingably supported by the two roller bearings 44 by fitting sleeves 50c provided at both ends with the outer peripheral portions of the roller bearings 44. Has been. Further, the resist shutter 50 receives a biasing force in the direction opposite to the sheet conveying direction indicated by the arrow in FIG.

  Further, the registration shutter 50 includes an alignment surface 50a that abuts the leading end of the sheet and a guide surface 50b that is set to be the same or concave as the outer peripheral surface of the double-sided conveyance roller 42. Here, the alignment surface 50a is a part of a surface passing through the approximate center of the double-sided conveyance roller 42, and alignment of the sheet leading edge is performed at an intersection C between the double-sided conveyance roller 42 and the alignment surface 50a. This intersection C is set upstream of the nip D point between the double-sided conveyance roller 41 and the double-sided conveyance roller 42. The alignment surface 50a is set at a position that is substantially symmetrical with respect to the conveyance center, and is urged by a torsion coil spring 46, which is urging means, with a predetermined urging force in the direction of the arrow.

  Here, when the sheet conveyed while being inclined comes into contact with the registration shutter 50, the sheet first forms a loop along the sheet conveying direction. Then, when the sheet presses the resist shutter 50 by the restoring force when the waist of the sheet and the front end of the sheet form a loop, and the pressing force of the sheet overcomes the biasing force of the resist shutter 50, the resist shutter 50 is biased. Swing while resisting. When the registration shutter 50 swings as described above, the sheet P is guided to the nip D between the double-sided conveyance roller 41 and the double-sided conveyance roller 42. That is, the front end of the sheet is nipped by the double-sided conveyance roller 41 and the double-sided conveyance roller 42 while the sheet is moving the registration shutter 50 with the front end of the sheet in contact with the alignment surface 50a.

  Incidentally, as described above, in the present embodiment, the sheet discharge roller 30 that presses against the sheet discharge roller 14 is tilted, so that the central portion in the width direction of the sheet is expanded upward to increase the stiffness (rigidity) of the sheet. doing. However, when the sheet becomes stiff, the portion between the paper discharge roller 14 and the resist shutter 50 in the reverse conveyance path R is a straight line indicated by the broken line in FIG. In some cases, the resist shutter 50 is rotated by being pressed by the sheet before the film is formed.

  Therefore, in the present embodiment, as shown in FIG. 2, a curved portion RA is formed in a portion constituting a part of the reverse conveyance path R between the paper discharge roller 14 and the registration shutter 50 in the reverse conveyance path R. ing. Here, by forming such a curved portion RA, when the sheet P reversely conveyed by the paper discharge roller 14 passes through the curved portion RA during double-sided printing, the sheet P is curved along the sheet conveying direction. .

  FIG. 7 is a diagram illustrating a state after the sheet having the central portion in the width direction expanded upward passes through the curved portion RA of the reverse conveyance path R. When the sheet P conveyed while forming a loop in the width direction passes through the curved portion RA, the sheet P is bent along the sheet conveyance direction, and due to this influence, a loop (PK1) in the width direction of the sheet P that has been formed so far. ) Becomes smaller. In the present embodiment, since the first non-printing surface of the sheet P is in pressure contact with the reversing upper guide 24, when the sheet is conveyed while the sheet P is bent by the bending portion RA, the image is rubbed against the image. And image peeling does not occur.

  Further, when the sheet P passes through the curved portion RA, the loop of the sheet P becomes small, and when the sheet P comes into contact with the registration shutter 50 thereafter, a loop (PK2) along the sheet conveyance direction is easily formed. . In the present embodiment, after the sheet P abuts on the registration shutter 50 upstream of the registration shutter 50 in the sheet conveyance direction, a loop formation space RB is provided to facilitate the formation of a loop along the sheet conveyance direction. ing.

  As described above, in the present embodiment, the curved portion RA is provided between the paper discharge roller 14 and the skew feeding correction portion 50A in the reverse conveyance path R, and a sheet bent in the width direction by the paper discharge roller 14 is conveyed to the sheet. It is made to go to the skew feeding correction | amendment part 50A in the state bent beforehand along the direction. As a result, alignment by the registration shutter 50 can be performed in a state in which the waist of the sheet is maintained, and skew correction can be reliably corrected even for a sheet with a weak waist. Here, in the case of a stiff sheet such as thick paper, it is difficult to bend in the width direction by the paper discharge roller 30, but there is no problem in alignment performance because there is sufficient waist originally.

  That is, in other words, in the case of a sheet with low stiffness, the sheet discharge roller 30 forms a deflection in the width direction so as to obtain the rigidity necessary to rotate the registration shutter 50. On the other hand, in the case of a stiff sheet, even if the sheet discharge roller 30 does or does not form a bending (loop) in the width direction, the degree is small. For this reason, in the case of a stiff sheet, it becomes easy to bend along the sheet conveyance direction in the region between the paper discharge roller 30 and the registration shutter 50. Accordingly, even when the conveyed sheet is strong, the registration shutter 50 is less likely to be moved before the skew correction is performed due to the leading end abutting against the registration shutter 50, so that the skew is corrected more reliably. be able to. In this way, skew correction can be reliably performed regardless of the strength of the seat waist.

  Further, as in the present embodiment, by tilting the paper discharge roller 30 that is pressed against the double-sided conveyance roller 41, a loop can be formed without rubbing the image surface on the guide member. The sheet rigidity can be increased while maintaining it. In addition, since it is possible to increase the rigidity of the low-stiff sheet, it is possible to increase the biasing force of the registration shutter 30, and it is also possible to improve the skew correction capability during the conveyance of thick paper. Further, in the present embodiment, the configuration in which the paper discharge roller 14 reverses the sheet is shown, but it goes without saying that the functions may be shared by different rollers.

  Next, a second embodiment of the present invention will be described. FIG. 8 is a diagram showing a schematic configuration in the vicinity of the image forming unit of the image forming apparatus according to the present embodiment. In FIG. 8, reference numeral 100 denotes a conveyance roller connected to a drive source (not shown), and 101 denotes a conveyance roller roller that is brought into pressure contact with the conveyance roller 100 with a predetermined pressure by a compression spring or a tension spring (not shown). The transport roller roller 101 is looped in the width direction of the sheet P with respect to the transport roller 100, similarly to the paper discharge roller 30 that is in pressure contact with the paper discharge roller 14 of the first embodiment shown in FIG. The rotation axis is inclined so as to form PK3).

  A registration roller pair 107 including a registration roller 106 and a registration roller roller 105 is disposed downstream of the conveyance roller 100. On the same axis as the registration roller roller 105, a registration shutter 104 urged at a predetermined size toward the upstream in the sheet conveying direction by an urging means (not shown) is rotatably supported. In this embodiment, the registration roller pair 107 and the registration shutter 104 constitute a skew correction unit 108. By the action of the registration shutter 104, a loop (PK4) is formed along the sheet conveyance direction on the sheet conveyed by the conveyance roller 100, and the posture of the leading edge of the sheet P is adjusted. Thereafter, the sheet P whose posture has been adjusted is guided by the pre-transfer guide 112 and the transfer roller 111 to which a high-voltage transfer voltage for transferring the toner image to the sheet P is applied. Is guided to a transfer portion.

  By the way, in the present embodiment, a sheet conveyance path R <b> 1 configured by the pre-registration upper guide 102 and the pre-registration lower guide 103 is provided between the conveyance roller 100 and the registration shutter 104. Further, a curved portion A1 is formed in the sheet conveying path R1, and the curved portion A1 is configured to bend the sheet P conveyed by the conveying roller 100 along the sheet conveying direction. Here, by providing the curved portion A1 in the sheet conveyance path R1 in this way, when the sheet P conveyed while forming a loop in the width direction by the conveyance roller 100 and the conveyance roller roller 101 passes through the curved portion R1, Curve along the sheet conveyance direction. Due to this influence, the loop (PK3) in the width direction of the sheet P that has been formed is reduced. Further, when the sheet P passes through the curved portion R1, the loop of the sheet P becomes small, and when the sheet P comes into contact with the registration shutter 104 thereafter, a loop (PK4) along the sheet conveyance direction is easily formed. .

  As described above, in the present exemplary embodiment, the sheet conveyance unit including the curved portion A1, the inclined conveyance roller roller 101, and the conveyance roller 100 is provided upstream of the skew feeding correction unit 108. Accordingly, the sheet P can be formed to form a loop in the width direction even in thin paper with a low stiffness or in a high humidity environment, and can be directed to the skew correction unit 108 in a state of being bent in advance along the sheet conveyance direction. As a result, it is possible to reliably correct the skew even with a low-back seat.

Next, reference examples of the present invention will be described. FIG. 9 is a diagram showing a schematic configuration of an image reading apparatus according to this reference example . In FIG. 9, reference numeral 200 denotes an image reading apparatus. The image reading apparatus 200 includes a paper feed tray 201 for stacking a plurality of sheets P, and a pickup roller 202 for feeding the sheets P on the paper feed tray. . The image reading apparatus 200 includes a feed roller 203 and a retard roller 204 that is pressed against the feed roller 203, and includes a retard roller pair 230 that separates the uppermost sheet P1 among the sheets P on the sheet feeding tray. Yes. The feed roller 203 always rotates in the CW direction, and the retard roller 204 is returned to the CW direction by a torque limiter (not shown) and is brought into pressure contact with the feed roller 203 with a predetermined pressure.

  Further, downstream of the retard roller pair 230, a conveyance roller pair which is a sheet conveyance unit including a conveyance roller 206 and a conveyance roller roller 207 which is pressed against the conveyance roller 206 with a predetermined pressing force by a compression spring or a tension spring (not illustrated). 231 is provided. The conveyance roller roller 207 is looped in the width direction of the sheet P with respect to the conveyance roller 206 in the same manner as the sheet discharge roller 30 in pressure contact with the sheet discharge roller 14 of the first embodiment shown in FIG. The rotation axis is inclined so as to form PK5).

Further, the image reading apparatus 200 includes a registration roller pair 232 including a registration roller 213 and a registration roller roller 212. A registration shutter 211 urged by a biasing means (not shown) with a predetermined size toward the upstream in the sheet conveying direction is rotatably supported on the same axis as the registration roller roller 212. In this reference example , the registration roller pair 232 and the registration shutter 211 constitute a skew correction unit 233. The image reading apparatus 200 is a contact image sensor (hereinafter referred to as CIS) that constitutes an image reading unit including an illuminating device that illuminates a sheet conveyed by the registration roller pair 232 and a line sensor that reads an image on the sheet perpendicular to the conveying direction. 217. In FIG. 9, reference numeral 205 denotes an arm that is rotatably supported coaxially with the rotation shaft of the feed roller 203, and a pickup roller 202 is rotatably held at the rotating end of the arm 205. The arm 205 moves up and down by a solenoid (not shown) at a predetermined paper feed timing to move the pickup roller 202 to the paper feed position and the retreat position. Reference numeral 218 denotes a pressure roller for bringing the sheet into contact with the CIS 217.

  In the image reading apparatus 200 having such a configuration, when reading an image of a sheet, the sheet P stacked on the paper feed tray 201 is conveyed to the retard roller pair 230 by the pickup roller 202. When passing through the nip between the feed roller 203 and the retard roller 204 of the retard roller pair 230, the uppermost sheet P1 is separated by the retard roller 204. Thereafter, the sheet P1 conveyed by the feed roller 206 is conveyed by the conveyance roller pair 231 in a widthwise loop (PK5), and comes into contact with the registration shutter 211. By the action of the registration shutter 211, a loop (PK6) is formed along the sheet conveyance direction on the sheet conveyed by the conveyance roller pair 231 and the leading edge of the sheet P is adjusted.

  Next, the adjusted sheet P1 is guided to a conveyance path formed by the sensor front guide 214 and the discharge inner guide 216, and then the image on the sheet is read with a predetermined resolution by the CIS 217. The image information read by the CIS 217 is subjected to predetermined processing such as image correction, image data compression, and encoding by a controller (not shown), and then transmitted to a predetermined image forming apparatus, server, and the like. Further, the sheet on which the image has been read passes through a conveyance path formed by the outer discharge guide 215 and the inner discharge guide 216, and is then rotatably supported by a discharge roller 219 and a spring (not shown). The paper is conveyed to the nip with the paper discharge roller 220 to which a predetermined pressure is applied. Thereafter, the sheet is discharged by a discharge roller 219 to a discharge tray 221 provided outside the image reading apparatus 200.

By the way, in the present reference example , a sheet conveyance path R <b> 2 configured by a pre-registration upper guide 209 and a pre-registration lower guide 210 is provided between the conveyance roller pair 231 and the registration shutter 211. Further, a curved portion A2 is formed in the sheet conveying path R2, and the curved portion A2 curves the sheet P1 conveyed by the conveying roller pair 231 along the sheet conveying direction.

  Here, by providing the curved portion A2 in the sheet conveyance path R2, the sheet P1 conveyed while forming a loop in the width direction by the conveyance roller pair 231 passes through the curved portion R2 in the sheet conveyance direction. Curve along. Due to this influence, the loop (PK5) in the width direction of the sheet P that has been formed is reduced. Further, when the sheet P passes through the curved portion R2, the loop of the sheet P becomes small, and when the sheet P comes into contact with the registration shutter 211 thereafter, a loop (PK6) along the sheet conveyance direction is easily formed. .

As described above, as in the present reference example , the present invention can also be implemented in the image reading apparatus 200, and can be passed through even a thin sheet (original) by being mounted on the image reading apparatus 200. Become. Further, the skew reading area is not required, and the CIS, which is an expensive component, can be downsized. Further, since jaggies such as ruled lines on the document due to the oblique reading of the sheet can be suppressed, an image of good quality can be read without performing special image processing.

Needless to say, the present invention can be mounted on a sheet processing apparatus that performs stapling, sorting, and the like on a sheet in the same manner as the image reading apparatus, and can handle thin paper. Furthermore, in the first and second embodiments and the reference examples described so far, the skew feeding correction unit is configured to correct the skew feeding of the sheet by the registration shutter, but the present invention is not limited thereto. Not exclusively. For example, a rotating body pair that conveys a sheet is provided, and when the sheet is conveyed by the sheet conveying unit, the rotating body pair is brought into contact with the nip portion of the rotating body pair in a stopped state to bring the sheet into the sheet conveying direction. Needless to say, the present invention is also effective in a resist roller system for forming a bend.

DESCRIPTION OF SYMBOLS 1 ... Printer, 1A ... Printer main body, 1B ... Image forming part, 1E ... Paper discharge part, 1G ... Re-carrying part, 14 ... Paper discharge roller, 30 ... Paper discharge roller, 41 ... Double-sided conveyance roller, 42 ... Double-sided conveyance roller , 50A ... skew feeding correction unit, 50 ... registration shutter, 100 ... transport roller, 101 ... transport roller roller, 104 ... registration shutter roller, 105 ... registration roller roller, 106 ... registration roller, 107 ... registration roller pair, 108 ... skew correction 200, image reading device, 206, transport roller, 207, transport roller roller, 211, registration shutter, 212, registration roller roller, 213, registration roller, 217, contact image sensor (CIS), 231, transport roller pair, 232 ... Registration roller pair, 233 ... Skew correction part, A1 ... Bending part, A2 ... Bending part, P ... Sheet, ... reverse conveying path, RA ... curved portion, R1 ... sheet conveying path, R2 ... sheet conveying path

Claims (3)

An image forming unit for forming an image on a sheet;
A sheet on which an image is formed by the image forming unit is discharged to a discharge tray by receiving a driving force from a driving source to rotate forward, and a reverse rotation by receiving the driving force from the driving source. A paper discharge roller that reverses the sheet to form an image on the second surface of the sheet on which the image is formed on the first surface by the image forming unit;
A plurality of rollers provided along the width direction of the sheet and pressed against the roller;
A skew correction unit that corrects skew of the sheet by contacting the leading edge of the sheet conveyed by the reverse rotation of the paper discharge roller;
A sheet conveyance path between the paper discharge roller and the skew feeding correction unit;
In an image forming apparatus having
The plurality of rollers are arranged inclined at the center in the width direction in order to bend the sheet in the width direction of the sheet when the sheet is conveyed while being reversed,
The sheet conveyance path is configured such that the sheet deflected in the width direction of the sheet by the plurality of rollers is disposed on the second surface side along the sheet conveyance direction before the leading end of the sheet contacts the skew feeding correction unit. A pair of conveyance guides having a curved shape for bending the sheet, and the sheet is conveyed in the conveyance direction after the leading end of the sheet abuts the skew feeding correction unit downstream of the curved shape in the conveyance direction. An image forming apparatus having a loop forming space for forming a bend on the first surface side along the line. The skew correction unit includes a pair of rotating bodies that convey a sheet,
The image forming apparatus according to claim 1 , wherein the sheet is brought into contact with a nip portion of the pair of rotating bodies in a state where the sheet is stopped by the discharge roller . The skew feeding correction unit is urged in a direction opposite to the sheet conveying direction with the pair of rotating bodies that convey the sheet,
After correcting the skew of the sheet by contacting the sheet toward the pair of rotating bodies upstream in the sheet conveying direction of the pair of rotating bodies, the skew is pressed by the corrected sheet and swings against the urging force. The image forming apparatus according to claim 1, further comprising a contact member.

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