JP2005040890A - Sheet cutting device and image forming device equipped with this device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To cut a sheet in a small space by reducing size in the horizontal direction. <P>SOLUTION: This sheet cutting device 44 is provided with a sheet holding part 102 for holding a conveyed sheet or a sheet bundle, a sheet cutting part 103 for cutting a sheet held by the sheet holding part or one side of the sheet bundle, and a sheet holding rotary part 104 means for rotating a sheet or a sheet bundle to cut the sheet or the other side of the sheet bundle by the sheet cutting part 103. The sheet holding part holds a sheet or a sheet bundle vertically or obliquely. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sheet cutting device that cuts an end portion of a sheet or a sheet bundle, and an image forming device that includes the sheet cutting device in an apparatus main body and cuts an end portion of an image-formed sheet or sheet bundle by a sheet cutting device. And about.
[0002]
[Prior art]
In recent years, as an option of an image forming apparatus such as an electrophotographic copying machine, a laser beam printer, a facsimile machine, and a composite machine of these, or as one of the components installed in the main body of the image forming apparatus, an image-formed sheet is used. A sheet processing apparatus such as a sorter for sorting has been developed (see, for example, Patent Document 1).
[0003]
Some sheet processing apparatuses include not only a sorting function but also a stapling function for stacking and aligning sheets to staple the sheets, and a sheet punching function for punching files for punch holes. As described above, the sheet processing apparatus can cope with various sheet processing.
[0004]
In addition, when a sheet bundle is bound by a stapler having a stapling function, the sheet processing apparatus may cause misalignment of the sheets in the sheet bundle, resulting in uneven end surfaces of the sheet bundle. Therefore, the sheet processing apparatus may be provided with a sheet cutting device that uses a cutting blade to cut the ends of the uneven end faces of the sheet bundle to align the end faces of the sheet bundle.
[0005]
A conventional sheet cutting apparatus will be described. The sheet cutting device that is generally used is that the user manually moves the cutting blade back and forth, and cuts and aligns the edge of the uneven end face of the sheet bundle, or the edge of the sheet with a missing edge Are trimmed to trim the edges, or when the size of the sheet or sheet bundle is reduced, the sheet or sheet bundle is cut to a desired size. The sheet cutting waste generated by cutting the end portion of the sheet or sheet bundle has been removed by the user each time it is generated (see, for example, Patent Document 2).
[0006]
There is also a sheet cutting device that automatically moves the cutting blade. As shown in FIG. 16, for example, the sheet cutting apparatus 203 is installed in a sheet processing apparatus 202 that is installed as one of the components of the copying machine 200 in the apparatus main body 201 of the copying machine 200 that is an image forming apparatus. is there. The sheet cutting device 203 cuts the end portion of the sheet bundle conveyed by the introduction discharge roller 210 with a cutting blade 212 that can reciprocate along the movement guide shaft 211 so as to adjust the end surface of the sheet bundle. It has become. Then, as shown in FIG. 17, the sheet cutting apparatus 203 cuts the end portion Pa of the sheet bundle P with the cutting blade 212, and then rotates the seat 213 supporting the end portion Pa downward. The sheet cutting waste Pd on the seat 213 is dropped into the dust box 121 and collected.
[0007]
[Patent Document 1]
JP 2003-76086 A (FIG. 1)
[Patent Document 2]
Japanese Unexamined Patent Publication No. 9-123087 (FIG. 1)
[0008]
[Problems to be solved by the invention]
However, the conventional sheet cutting apparatus 203 that automatically moves the cutting blade has the following problems that must be solved.
[0009]
As described above, the conventional sheet cutting apparatus 203 uses the cutting blade 212 to remove the sheet cutting waste Pd generated by cutting the sheet bundle P with the cutting blade 212 from the sheet surface and the sheet holding table 214. After all the sheets have been cut by a plurality of slide cutting operations, the seat 213 portion is swung and removed. For this reason, the sheet cutting waste Pd that has been cut first and loaded on the surface of the sheet as it is may be caught, pushed out, or scattered by the cutting blade 212 that slides. Therefore, it does not necessarily fall into the dust box, but it becomes a defective removal and causes jamming.
[0010]
Further, when the sheet bundle P is cut with the cutting blade 212, as shown in the enlarged view of FIG. 18, when the sheet cutting waste Pd is caught in the sliding cutting blade 212 as described above, The cutting blade 212 may be bent and escape in the direction of the arrow H by the thickness of the sheet cutting waste Pd wound on the side surface 212a. It was.
[0011]
Further, for example, a sheet cutting apparatus capable of cutting three sides of a rectangular sheet bundle arranges the sheet bundle substantially horizontally and cuts the three sides of the sheet bundle, so that a space in which the sheet bundle can be rotated is required. The sheet cutting apparatus requires a large horizontal width, and the sheet processing apparatus 202 has a large horizontal width. In particular, the recent sheet processing apparatus 202 is preferred to be of a type having a small installation space even if the height is somewhat high.
[0012]
In the above description, the sheet bundle has been described. However, the same problem has occurred when cutting the edge of a sheet that lacks a portion of the edge, particularly when cutting the edge of a cardboard. .
[0013]
The present invention reliably removes sheet cutting waste generated when cutting a sheet or a sheet bundle, and the cutting blade during cutting moves smoothly without entraining the sheet cutting waste, so that the cut surface can be evenly arranged. An object of the present invention is to provide a sheet cutting apparatus which can be cut in a space-saving manner by reducing the size in the horizontal direction.
[0014]
The present invention provides an image forming apparatus that includes a sheet cutting device that reliably removes sheet cutting waste and that can supply an image-formed sheet or sheet bundle that has an end face adjusted by the sheet cutting device. It is aimed.
[0015]
[Means for Solving the Problems]
To achieve the above object, the sheet cutting apparatus of the present invention includes a holding unit that holds a conveyed sheet or sheet bundle, and a cutting unit that cuts one side of the sheet or sheet bundle held by the holding unit; Holding means for rotating the sheet or sheet bundle to cut the other side of the sheet or sheet bundle by the cutting means, and the holding means makes the sheet or sheet bundle vertical or oblique. It comes to hold.
[0016]
The cutting apparatus of the present invention further includes a position changing unit that performs at least one of an approaching operation for bringing the sheet or sheet bundle closer to the cutting unit and a separating operation for separating the sheet or sheet bundle from the cutting unit.
[0017]
In order to achieve the above object, the sheet cutting apparatus of the present invention includes a holding unit that holds a sheet or a sheet bundle, a cutting unit that cuts one side of the sheet or sheet bundle held by the holding unit, and the cutting unit. After the cut sheet or sheet bundle is held and held by the holding means is released, position changing means for changing the position of the sheet or sheet bundle, and the sheet or sheet bundle whose position has been changed by the position changing means Holding rotation means for rotating the other side to the cutting position of the cutting means by rotating the sheet or the sheet bundle after the holding by the position changing means is released. The sheet or sheet bundle is held vertically or obliquely.
[0018]
In order to achieve the above object, the sheet cutting apparatus of the present invention includes a holding unit that holds a sheet or a sheet bundle, a cutting unit that cuts one side of the sheet or sheet bundle held by the holding unit, and the cutting unit. Holding rotation means for holding the cut sheet or sheet bundle and releasing the holding by the holding means, and then rotating the sheet or sheet bundle so that the other side faces the cutting means; and the holding rotation means Position changing means for moving the other side of the sheet or sheet bundle to the cutting position of the cutting means after holding the sheet or sheet bundle rotated by and releasing the holding by the holding rotating means. The holding means is configured to hold the sheet or the sheet bundle vertically or obliquely.
[0019]
In order to achieve the above object, a sheet cutting apparatus according to the present invention includes a holding unit that holds a sheet or a sheet bundle, a cutting unit that cuts one side of the sheet or sheet bundle held by the holding unit, and the cutting unit. After the cut sheet or sheet bundle is held and held by the holding means is released, position changing means for changing the position of the sheet or sheet bundle, and the sheet or sheet bundle whose position has been changed by the position changing means Holding rotation means for rotating the sheet or sheet bundle so that the other side faces the cutting means after the holding by the position changing means is released, and the position changing means includes the position changing means, After holding the sheet or sheet bundle rotated by the holding rotation means and releasing the holding by the holding rotation means, the sheet or sheet bundle is And moving to move the other side to the cutting position of the cutting means, said holding means is adapted to hold the sheet or the sheet bundle in the vertical or oblique.
[0020]
In the sheet cutting apparatus of the present invention, the holding rotation means holds the center or the vicinity of the center of the sheet or sheet bundle.
[0021]
In the sheet cutting apparatus according to the present invention, an angle at which the holding unit holds the sheet or the sheet bundle obliquely is set within a range of about 60 degrees on the left and right with respect to the vertical line.
[0022]
In the sheet cutting apparatus according to the present invention, the holding means includes a receiving plate that receives the sheet or the sheet bundle, and a pressing member that presses the sheet or the sheet bundle against a sheet receiving surface of the receiving plate, The plane is located within a range of about 60 degrees to the left and right with respect to the vertical line.
[0023]
In the sheet cutting apparatus of the present invention, the cutting means includes a cutting blade that moves in a direction parallel to the surface of the sheet or sheet bundle to cut the sheet or sheet bundle.
[0024]
In the sheet cutting apparatus of the present invention, the cutting blade has blades on both sides in the moving direction and is capable of reciprocating.
[0025]
In the sheet cutting apparatus of the present invention, the cutting means includes a rotary blade that moves in a direction parallel to the surface of the sheet or sheet bundle while rotating to cut the sheet or sheet bundle.
[0026]
In the sheet cutting apparatus of the present invention, the rotation direction of the rotary blade is set to a direction in which the sheet or the sheet bundle is pressed into the receiving plate according to claim 8.
[0027]
In the sheet cutting apparatus of the present invention, the cutting means includes a cutting blade that moves in a direction intersecting the surface of the sheet or sheet bundle to cut the sheet or sheet bundle.
[0028]
In the sheet cutting apparatus of the present invention, the holding and rotating means includes a rotating member that receives and rotates a sheet or sheet bundle, and a pressing member that presses the sheet or sheet bundle against the rotating member.
[0029]
In the sheet cutting apparatus of the present invention, there is provided a removing unit that removes sheet cutting waste generated when the sheet or sheet bundle is cut in a direction away from the sheet or sheet bundle.
[0030]
In order to achieve the above object, an image forming apparatus according to the present invention includes an image forming unit that forms an image on a sheet, and a sheet cutting device that cuts an end of a sheet or sheet bundle on which an image is formed by the image forming unit. The sheet cutting means is any one of the above sheet cutting apparatuses.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a sheet cutting apparatus according to an embodiment of the present invention and a copying machine which is an example of an image forming apparatus including the sheet cutting apparatus in an apparatus body will be described with reference to the drawings. The sheet cutting apparatus is provided in a finisher as a sheet processing apparatus. The sheet cutting device is capable of cutting a sheet and a sheet bundle, and the cutting operation is the same for both the sheet and the sheet bundle. In the following description, the operation for cutting the sheet bundle is described, and the sheet is cut. The description of the operation for cutting is omitted.
[0032]
(Image forming device)
FIG. 1 is a cross-sectional view of an image forming apparatus, for example, a copier, and is a cross-sectional view of the copier along the sheet conveying direction.
[0033]
The copying machine 100 includes an apparatus main body 1, a document feeder 2, and a finisher 19 that is a sheet processing apparatus. A sheet cutting device 44 is installed in the finisher 19.
[0034]
A document feeding device 2 for feeding the document D to the reading position 7 is provided on the upper part of the copying machine main body 1 so as to be freely opened and closed. The document feeder 2 is not necessarily required. Since the user can cause the apparatus main body 1 to read the originals by placing the originals one by one at a reading position 7 to be described later, the original feeding device 2 is not necessarily required.
[0035]
The document D is placed on the document placing unit 3 and is sequentially separated one by one by the feeding unit 4 and is supplied to the reading position 7. Subsequently, the document D is temporarily stopped by the registration roller pair 5 and a skew is corrected by forming a loop. Thereafter, the document D passes through the introduction path 6, passes through the reading position 7, and the image formed on the surface of the document is read. The document that has passed the reading position 7 passes through a discharge path 8 and is discharged onto a discharge tray 9.
[0036]
When reading both the front and back sides of the document, first, as described above, the document D passes through the reading position 7 and the image on the front surface is read. Thereafter, the document D passes through the discharge path 8, is switched back and conveyed by the reverse roller pair 10, and is fed again to the registration roller pair 5 in a state of being reversed. Then, the original D is corrected for skew by the registration roller pair 5 in the same manner as the front side reading, and then passes through the introduction path 6 and the reading position 7. When the document D passes through the reading position 7, the image formed on the front surface (in this case, the back surface) is read. Finally, the document D passes through the discharge path 8 and is discharged to the discharge tray 9.
[0037]
In the main body 1 of the copying machine 100, the reflected light obtained by irradiating the light of the illumination system 11 to the document image passing through the reading position 7 is reflected by the optical elements 13 (CCD or other) by the mirrors 12, 12, 12. Element) or image forming means such as a photosensitive drum 14, a toner image is formed on the photosensitive drum 14, and the toner image is transferred to a recording medium so that the image is recorded on the recording medium. It comes to form.
[0038]
Examples of the recording medium include plain paper, plastic film, pressure paper, overhead projector paper, postcard, and the like. The recording medium is sometimes called a sheet. Hereinafter, the recording medium is referred to as a sheet.
[0039]
The photosensitive drum 14 is irradiated with light corresponding to the recorded document image to form a latent image, and a toner image is formed by toner supplied from a toner supply device (not shown). On the other hand, the cassette 15 contains a large number of sheets P. The sheet is supplied from the cassette 15 to a position facing the photosensitive drum 14 in accordance with a recording signal. Then, the toner image formed on the photosensitive drum 14 is transferred to the sheet by the transfer device 16. The sheet onto which the toner image has been transferred is sent to the fixing device 17 where the toner image is fixed.
[0040]
When images are formed on both sides of the sheet, the sheet on which the image is fixed on one side by the fixing device 17 is turned upside down through a double-sided path 18 provided on the downstream side of the fixing device 17, and again the photosensitive drum 14. And the transfer device 16. The toner image is transferred to the back surface of the sheet. Then, the toner image is fixed on the back surface of the sheet by the fixing device 17 and is discharged to the outside (finisher 19 side).
[0041]
(Sheet processing equipment)
FIG. 1 is a cross-sectional view of an image forming apparatus, for example, a copier, and is a cross-sectional view of the copier along the sheet conveying direction. FIG. 2 is an enlarged view of the sheet processing apparatus, and is a cross-sectional view of the sheet processing apparatus along the sheet conveyance direction. FIG. 3 is a plan view of a processing tray and a stapler in the sheet processing apparatus. FIG. 4 is a view around the conveyor belt. FIG. 4A is a perspective view of the conveyance belt, the pulley, and the like. FIG. 4B is a front view around the conveyor belt.
[0042]
As shown in FIG. 1, a finisher 19 as a sheet processing apparatus is one of the components of the copying machine connected to the side of the apparatus main body 1 of the copying machine 100. The conveyance guide pair 20 receives the sheet discharged from the sheet discharge roller pair 21 of the apparatus main body 1 of the copying machine 100 and guides it into the finisher 19.
[0043]
The sheet detection sensor S1 illustrated in FIG. 2 detects a sheet that has entered the finisher 19. The discharge roller pair 22 conveys the sheet while sandwiching it. The processing tray 23 receives the sheet discharged from the discharge roller pair 22. The sheets are placed on the processing tray 23 and stacked.
[0044]
The alignment plates 24 are respectively arranged on both sides of the sheet along the conveyance direction of the discharged sheet, and guide the both ends of the sheet discharged to the processing tray 23 for width alignment. The stopper 25 receives the trailing edge of the sheet discharged to the processing tray 23 and falling by its own weight at a position indicated by a broken line. A first pulley 28 and a lower conveyance roller 30 (see FIG. 3) are arranged on the rotation shaft 26. A second pulley 29 is disposed on the rotating shaft 27. The conveyor belt 31 is stretched between the first pulley 28 and the second pulley 29. An extrusion claw 32 is provided on the outer periphery of the conveyor belt 31. The conveyance upper roller 33 can be changed in position to a first position (separated position) indicated by an alternate long and short dash line and a second position (contact position) indicated by a solid line pressed against the conveyance lower roller 30. .
[0045]
The staplers 34 and 35 will be described. As shown in FIGS. 2 and 3, the staplers 34 and 35 are configured by a lower stapler 34 and an upper stapler 35 across a sheet bundle conveyance path. The lower stapler 34 has a needle cartridge, a driving portion for driving the needle, a needle feeding portion for feeding the needle from the needle cartridge to the driving portion, and the like. The upper stapler 35 has a bent portion that bends the needle hit from the lower stapler 34. The lower stapler 34 swings in the vertical direction about the shaft 36. The upper stapler 35 swings in the vertical direction about the shaft 37. Further, the lower stapler 34 and the upper stapler 35 are provided on the shafts 36 and 37 so as to be movable in the thrust direction (width direction intersecting the sheet conveying direction). The lower stapler 34 has a female screw screwed into a screw shaft 38 that is a screw shaft. The lower stapler 34 reciprocates in the thrust direction by the rotation of the screw shaft 38. The upper stapler 35 has a female screw screwed into a screw shaft 39 that is a screw shaft. The upper stapler 35 reciprocates in the thrust direction by the rotation of the screw shaft 39. On the downstream side of the upper stapler 35 and the lower stapler 34, a reversing flapper 42 and a reversing roller 43 for reversing the conveyed sheet are disposed.
[0046]
The elevating tray 40 will be described. As shown in FIGS. 1 and 2, the elevating tray 40 is guided by the apparatus main body 98 of the finisher 19 so as to be movable vertically (movable up and down), and between the position indicated by the solid line and the position indicated by the two-dot chain line. It is supposed to go up and down. The paper surface detection sensor S2 detects the top surface of the sheet on the lifting tray 40. The rear end guide 41 is configured by a substantially vertical surface and guides the rear end of the sheet on the lifting tray 40 that moves up and down.
[0047]
The sheet cutting device 44 will be schematically described. A detailed description of the sheet cutting device 44 will be described later. The sheet cutting device 44 is a device that cuts a sheet bundle conveyed from the sheet reversing unit 99.
[0048]
The sheet cutting device 44 cooperates with the introduction discharge rollers 45 a to hold the sheet bundle to a predetermined position and convey the introduction discharge rollers 45, and the introduction discharge rollers that can be separated on the opposite side of the introduction discharge rollers 45. 45a, cutting sensor S5 for detecting the leading edge of the sheet or sheet bundle and stopping the sheet or sheet bundle at a predetermined cutting position, a pressing member 46 for fixing the sheet stopped at the predetermined cutting position, and cutting the sheet A moving unit 48 having a cutting blade 47 (see FIG. 5) is provided.
[0049]
The dust box 49 is disposed below the sheet cutting device 44 so as to receive the sheet cutting waste Pd generated after the cutting process. The discharge roller 50 conveys and discharges the cut sheet. The stack tray 51 is configured to stack the cut sheets.
[0050]
The relationship of the processing tray 23 will be described. As shown in FIG. 3, the rotation shafts 26 and 27 of the processing tray 23 are rotatably supported by the frames 52 and 53. A conveyance lower roller 30 is fixed to the rotation shaft 26. The first pulley 28 is disposed on the rotating shaft 26. A known one-way clutch (not shown) is built in the first pulley 28. In FIG. 4, the first pulley 28 is rotated by the rotation of the rotating shaft 26 in the counterclockwise direction, and the rotation force is cut off by the rotation in the clockwise direction so as to stop. A gear 54 is fixed to the rotary shaft 26. A gear 56 is fixed to the output shaft of the transport motor 55. The gear 56 is engaged with the gear 54.
[0051]
When the conveyance motor 55 rotates in the direction (first direction) in which the sheet is conveyed to the lifting tray 40, the rotational force of the conveyance motor 55 is transmitted to the rotary shaft 26 via the gears 56 and 54. At this time, the one-way clutch in the first pulley 28 is engaged, the rotational force of the rotating shaft 26 is transmitted to the first pulley 28, and the conveyor belt 31 rotates. Next, when the transport motor 55 rotates in the opposite direction (second direction), the one-way clutch in the first pulley 28 cuts the rotational force, and the rotational force is not transmitted to the transport belt 31.
[0052]
Based on FIG. 1 and FIG. 3, the movement operation of the stapler in the finisher 19 will be described. As described above, the lower stapler 34 is engaged with the screw shaft 38 and the gear 57 is fixed. A gear 59 is fixed to the output shaft of the stapler shift motor 58. The gear 59 is engaged with the gear 57.
[0053]
The rotational force of the stapler shift motor 58 is transmitted to the screw shaft 38 via gears 59 and 57. A gear 89 that moves the upper stapler 35 meshes with the gear 57 via an idle gear. The gear 89 is fixed to the screw shaft 39. Therefore, when the gear 57 rotates, the screw shafts 38 and 39 rotate in the same direction, and the lower stapler 34 and the upper stapler 35 move in the thrust direction in synchronization. The lower stapler 34 is provided with a flag 60. A stapler sensor S3 for detecting the flag 60 is disposed at the home position of the staplers 34 and 35. A photo sensor is used as the stapler sensor S3.
[0054]
The conveyance belt 31 and its periphery will be described. FIG. 4A is a perspective view showing a configuration around the conveyor belt. FIG. 4B is a front view showing the configuration around the conveyor belt.
[0055]
The conveyor belt 31 is stretched between a first pulley 28 and a second pulley 29 provided on the rotary shafts 26 and 27, respectively. A hole 31 a is formed in the transport belt 31. The push-out claw home sensor 61 is a transmissive photosensor that detects the hole 31a. As shown in FIGS. 4A and 4B, the push-out claw home sensor 61 detects the hole 31a of the transport belt 31, detects the circulating position of the transport belt 31, and detects the home position of the push-out claw 32. It is like that. The length L1 from the nip N to the stopper 25 of the lower conveyance roller 30 and the upper conveyance roller 33 and the length L2 from the nip N to the pushing claw 32 are set to satisfy the relationship L1 <L2.
[0056]
When the transport solenoid (not shown) is operated and the transport upper roller 33 is lowered to the position indicated by the solid line in FIG. 4B, the transport upper roller 33 presses the sheet bundle against the transport lower roller 30. Then, the conveyance motor 55 (see FIG. 3) starts to rotate. Then, the rotating shaft 26 rotates in the counterclockwise direction (the arrow direction in FIG. 4B). The lower conveyance roller 30 also rotates in the same direction. As a result, the lower conveyance roller 30 conveys the sheet bundle in the direction of arrow a in FIG.
[0057]
Then, the sheet bundle stops when it passes through the nip N of the pair of conveying rollers 30 and 33. Thereafter, as the conveyance belt 31 rotates, the pushing claw 32 hits the rear end of the sheet bundle. The push-out claw 32 pushes the sheet bundle and conveys it in the direction of the lifting tray 40 (FIG. 4B, arrow a direction in FIG. 1).
[0058]
(Configuration of sheet cutting device)
FIG. 5 is a view of the sheet cutting device 44 as viewed from the sheet conveying direction. FIG. 6 is a view of the sheet cutting device 44 of FIG. 5 as viewed from above.
[0059]
The sheet cutting device 44 is, for example, a sheet holding unit 102 as a holding unit that holds a sheet or a sheet bundle, and as a cutting unit that cuts one side of a sheet or sheet bundle held in the sheet holding unit 102, for example, a sheet cutting unit 103, a sheet, For example, the sheet holding rotation unit 104 and the sheet or the sheet bundle are rotated as holding rotation means for holding and rotating the sheet bundle and causing the uncut sheet or the edge of the sheet bundle to face the cutting blade 47 or to be positioned at the cutting position. As a position changing means for moving and moving toward and away from the cutting blade 47 described later, for example, an introduction / discharge roller 45 and an introduction / discharge roller 45a (see FIGS. 1 and 2), a control unit 96 for controlling the sheet cutting device, and the like. Have. When cutting the edge of a sheet or sheet bundle, depending on the sheet size (for example, a square sheet), it may not be necessary to change the position of the sheet or sheet bundle. For example, the introduction discharge roller 45 and the introduction discharge roller 45a may not be required.
[0060]
The sheet cutting unit 103 will be described.
[0061]
The cutting blade 47 is provided on the tool post 82 and is housed in a cutting blade storage case 83 with its blade tip extended. The cutting blade 47 is formed with blades 47a on both sides. The cutting blade 47 is formed by a guide between a long hole 84 formed in the cutting blade storage case 83 and a pin 85 protruding from the tool rest 82 and engaged with the long hole 84, and a biasing force of the biasing spring 86. It comes to approach. The cutting blade 47, the cutting blade storage case 83, and the like form a moving unit 48.
[0062]
The moving unit 48 is configured to reciprocate in the direction of arrow E with a pair of parallel guide shafts 63 and 63 as a guide in order to cut an arbitrary side surface of the sheet. The guide shaft 63 is supported by side plates 64 and 65. The side plates 64 and 65 are fixedly arranged at right angles to the sheet holding base 62. A part of the belt 66 is fixed to the moving unit 48. The belt 66 is stretched over a belt gear 67 and a belt drive gear 68. A motor gear 70 attached to the output shaft 69 a of the moving unit motor 69 is engaged with the belt drive gear 68 via an intermediate gear 87. Therefore, when the moving unit motor 69 rotates forward and backward, the cutting blade 47 receives the rotational force of the motor 69 as a linear reciprocating force by the belt drive gear 68 and the belt 66, and moves by using the guide shafts 63 and 63 as a guide. The unit 48 reciprocates together.
[0063]
Moving unit sensors S6a, S6b, and S6c are arranged on the holding table 62 for receiving the sheet along the moving direction of the moving unit 48. For example, photosensors are used for the movement unit sensors S6a, S6b, and S6c. The moving unit 48 is provided with a light shielding plate 71. When the moving unit 48 moves, the light shielding plate 71 moves integrally with the moving unit 48 to block the moving unit sensors S6a, S6b, S6c, and the position is detected. It has come to be.
[0064]
The sheet holding unit 102 will be described.
[0065]
The sheet pressing member 46 is provided so as to be suspended from the slide plate 72 by a plurality of springs 88. For example, the holding table 62 that is a receiving plate receives the sheet bundle pressed by the sheet pressing member 46 that is a pressing member on the sheet receiving surface 62a.
[0066]
The slide plate 72 is supported by two screw shafts 73 so as to be close to and away from the sheet. Gears 74 are fixed to the ends of the two screw shafts 73, respectively. A belt 75 is stretched between the gears 74 and 74. One gear 74 meshes with a gear 77 attached to the output shaft of the pressing member shift motor 76. Accordingly, the rotation of the pressing member shift motor 76 is transmitted to the screw shaft 73 via the gear 77, the gear 74, and the belt 75. The slide plate 72 is provided with a light shielding plate 78. The light shielding plate 78 can control the home position and the lowering amount of the pressing member 46 by shielding the photo sensor S7 attached to the side plate 64. The holding table 62 is disposed with the sheet receiving surface 62a perpendicular to the horizontal plane.
[0067]
The sheet holding / rotating unit 104 will be described.
[0068]
For example, a rotation guide 90 that is a rotation member and a rotation motor 91 that meshes with a gear provided on the outer periphery of the rotation guide 90 are attached to the holding table 62. The rotation guide 90 is rotatably provided on the holding table 62. The rotation motor 91 rotates the rotation guide 90. The rotation motor 91 is a pulse motor, and the rotation amount of the rotation motor 91 is managed by the number of pulses. For example, a pressure contact guide 92 which is a pressing member is disposed at a position facing the rotation guide 90. The pressure contact guide 92 is urged toward the rotation guide 90 by a pressure contact spring 93. The pressure contact guide 92 is moved up and down by levers 94 and 97 when the pressure contact solenoid 95 performs a suction operation. The pressure contact guide 92 is rotatably provided on the lever 97 by, for example, a universal joint.
[0069]
Further, in order to post-process the sheet, as shown in FIG. 1, the finisher 19 includes a sheet detection sensor S <b> 1 disposed at the entrance of the finisher 19 and a sheet surface that detects the uppermost surface of the sheet on the lifting tray 40. A moving unit 48 having a detection sensor S2, a stapler sensor S3 (see FIG. 3), a reversing sensor S4 for detecting a reversing sheet, a cutting sensor S5 for detecting a cutting stop position in the sheet cutting device 44, and a cutting blade 47 shown in FIG. A moving unit sensor S6 for detecting the position of the moving unit 48 when controlling the movement and stop of the sheet, a pressing member sensor S7 for detecting the home position of the sheet pressing member 46, and the like are provided.
[0070]
These sensors S1 to S7 are connected to a control unit 96 that controls driving of the entire apparatus. The control unit 96 has a CPU. The control unit 96 controls the rotation of the motors 69, 76, 91 and the like described above based on the detection signals from the sensors, and performs excitation control of the press contact solenoid 95, the transport solenoid, the stopper solenoid, and the like. Yes. The control unit 96 may be integrated into a control unit provided in the copying machine main body 1.
[0071]
Next, the operation of the finisher 19 when each processing mode is selected will be described.
[0072]
(Explanation of finisher operation when stack mode is selected)
The sheet discharged from the discharge roller pair 21 of the copying machine 100 shown in FIG. 1 is detected by the sheet detection sensor S1. Then, a discharge motor (not shown) is started to rotate the discharge roller pair 22. A discharge motor (not shown) rotates until at least the rear end of the sheet passes through the nip of the discharge roller pair 22. As a result, the sheets are discharged onto the processing tray 23 and stacked.
[0073]
Next, a matching motor (not shown) is started. Then, the alignment plate 24 moves in the direction intersecting the sheet conveyance direction, that is, in the sheet width direction, and abuts on both sides of the sheets stacked on the processing tray 23 to align the sheet width. This alignment operation is repeated a predetermined number of times. Then, a conveyance solenoid (not shown) is operated to bring the conveyance upper roller 33 close to the conveyance lower roller 30 and press-contact it.
[0074]
Thereafter, the transport motor 55 shown in FIG. 3 rotates. Then, the conveying roller pairs 30 and 33 rotate to move the aligned sheet bundle in the direction of the lifting tray 40 (the direction of arrow a in FIG. 1). Further, the first pulley 28 is also rotated by the rotation of the transport motor 55, and the transport belt 31 is circulated. As described above, the rear end of the sheet bundle is transferred in the order of the conveying roller pairs 30 and 33 and the pushing claw 32 protruding from the conveying belt 31. Finally, the sheet bundle is pushed out and stacked on the lifting tray 40.
[0075]
Then, a tray shift motor (not shown) rotates to lower the lifting tray 40 by a predetermined amount. Thereafter, the tray shift motor reverses and raises the lifting tray 40. At this time, when the paper surface detection sensor S2 detects the uppermost surface of the stack of stacked sheets, the tray shift motor stops and stops the lifting tray 40 from rising.
[0076]
(Explanation of finisher operation when staple mode is selected)
Since the sequence relating to discharging, stacking, and alignment of a desired number of sheets onto the processing tray 23 is the same sequence as the above-described stack mode, description of the sequence is omitted.
[0077]
After the alignment of the sheet bundle on the processing tray 23 is completed, the staplers 34 and 35 bind the end portion of the sheet bundle on the processing tray 23. The place to be bound is one place or a plurality of places. In the finisher 19 of the present embodiment, the stapler motor (not shown) and the stapler shift motor 58 shown in FIG. 3 move the staplers 34 and 35 to the solid line position in FIG. Or are alternately moved to the position of the one-dot chain line in FIG.
[0078]
When the binding process is completed, similarly to the stack mode described above, the conveyance motor 55 is started, and a sheet bundle is formed on the lifting tray 40 by the conveyance roller pairs 30 and 33, the conveyance belt 31, and the pushing claw 32 of the conveyance belt 31. Transfer and load.
[0079]
(Explanation of finisher operation when cutting mode is selected)
First, the finisher 19 stacks and aligns sheets on the processing tray 23 in the same manner as the above-described staple mode, and then performs a binding process. Then, a conveyance solenoid (not shown) is excited to hold the sheet bundle between the conveyance roller pairs 30 and 33.
[0080]
Here, a stopper solenoid (not shown) is excited to rotate the stopper 25 from the position of the one-dot chain line in FIG. 2 to the position of the solid line. Thus, the conveyance path is opened so that the sheet can be conveyed in the second direction (the direction of arrow b in FIG. 1). Then, the conveyance motor 55 shown in FIG. 3 rotates in the opposite direction to the stack mode or the staple mode, and the sheet bundle sandwiched between the conveyance roller pairs 30 and 33 is in the second direction (the direction of arrow b in FIG. 1). To transport.
[0081]
When the leading edge of the sheet bundle is detected by the reversing sensor S4 shown in FIGS. 1 and 2, a reversing motor (not shown) starts, rotates the reversing roller 43, and conveys the sheet bundle in the direction of arrow c in FIG. Let Thereafter, when the reverse sensor S4 detects the rear end of the sheet bundle, the reverse flapper solenoid 79 is excited to urge the reverse flapper 42 to the solid line position shown in FIG. Turn to the position indicated by the alternate long and short dash line.
[0082]
At the same time, a reversing motor (not shown) rotates reversely, and the reversing roller 43 conveys the sheet bundle in the direction of the arrow d in FIG. Thereafter, the sheet bundle is nipped and conveyed by the introduction / discharge roller 45, and the leading end is detected by the cutting sensor S5. Then, the control unit 96 stops the introduction / discharge roller 45 and stops the sheet bundle at the cutting position on the holding table 62. Subsequently, the pressing member shift motor 76 shown in FIG. 5 is started to rotate the pair of screw shafts 73 and 73 engaged via the gear 74 and the like.
[0083]
As a result, the slide plate 72 in the home position and the pressing member 46 provided on the slide plate 72 via the spring 88 and capable of always applying a constant pressing pressure to the sheet bundle are placed at a predetermined cutting position. The sheet is lowered onto a certain sheet bundle, and the sheet bundle is pressed by the pressing member 46 and fixed on the holding table 62.
[0084]
Thereafter, the moving unit motor 69 shown in FIGS. 5 and 6 starts and moves the moving unit 48 in the home position (solid line position in FIGS. 5 and 6) in the direction of arrow E. As shown in FIG. 5, the cutting blade 47 of the moving unit 48 gradually cuts the vicinity of any side surface of the sheet bundle as shown in FIG. 7B.
[0085]
At this time, as shown in FIG. 7A, since the sheet holding base 62 is provided substantially perpendicular to the horizontal plane, a part of the sheet cutting waste Pd cut out by the cutting blade 47 is shown in FIG. As shown in (), it is removed as if it hangs down due to its own weight. Therefore, unlike the conventional sheet cutting waste Pd described above with reference to FIG. 18, the sheet cutting waste does not hinder the path of the sliding operation of the cutting blade 47, so that the cutting blade 47 being cut moves smoothly. It is possible to cut the uneven portion of the sheet bundle reliably and accurately, and to adjust the end face of the sheet bundle.
[0086]
The moving unit 48 moved in the direction of the arrow F in FIG. 6 stops when the light shielding plate 71 provided on the moving unit 48 shields the moving unit sensor S6c, and the cutting process of the side surface of the sheet bundle is ended there. Then, the sheet cutting waste that has been hanging down until now falls due to its own weight and is reliably collected in the dust box 49.
[0087]
Note that the finisher 19 of the present embodiment can cut up to about 10 sheets by one sliding movement of the cutting blade 47 in one side direction. For this reason, when cutting several tens of sheets, a plurality of reciprocating sliding motions of the cutting blade 47 are required accordingly. If several tens of sheets are cut in one unidirectional slide movement, the cutting efficiency is improved. However, on the other hand, a considerably large burden is applied to the moving unit motor 69 that moves the moving unit 48. Other problems such as an increase in size of the device, high cost, and an increase in the strength of the structure occur. For this reason, the number of sheets that can be cut by one slide motion is set in consideration of the cutting efficiency and the size, cost, and structure of the apparatus.
[0088]
When cutting a bundle of several tens of sheets, first, the moving unit motor 69 rotates forward to move the moving unit 48 from the moving unit sensor S6a at the home position, and the light shielding plate 71 blocks the moving unit sensor S6c at the end. Move to the position where you want to stop and stop. Then, the moving unit motor 69 rotates in the reverse direction to move the moving unit 48 backward from the position where the light shielding plate 71 shields the moving unit sensor S6c in the direction opposite to the arrow F direction in FIG. Then, the next approximately 10 sheets stacked below are cut. The light shielding plate 71 of the moving unit 48 shields the moving unit sensor S6b at the starting end, so that the moving unit 48 stops, and the cutting of the next 10 sheets ends there.
[0089]
Thereafter, the control unit 96 repeats forward and reverse rotations of the moving unit motor 69 to cause the moving unit 48 to repeat the reciprocating slide cutting operation by the number of times corresponding to the cutting number of the target sheet bundle. End the cutting of one sheet bundle.
[0090]
In the above operation, the cutting blade 47 cannot always cut 10 sheets by one slide cutting operation. Therefore, for example, when 50 sheets are cut, the cutting blade 47 is changed to 5 slide operations. In addition, another sliding operation is performed to prevent cutting failure, and the moving unit 48 is returned to the home position (the position where the light shielding plate 72 of the moving unit 48 shields the moving unit sensor S6a). Yes. When the cutting process is completed, the pressing member shift motor 76 rotates in the reverse direction to separate the pressing member 46 from the sheet bundle and return the pressing member 46 to the home position.
[0091]
Next, an operation when cutting three sides of a rectangular sheet bundle in plan view will be described. When the cutting blade 47 finishes cutting the short side out of the three sides with the pressing member 46 pressing the sheet bundle against the holding table 62 (FIG. 8A), FIG. 1 and FIG. The introduction discharge roller 45 and the introduction discharge roller 45a shown in FIG. The pressing member 46 shown in FIG. 5 releases the pressing against the holding member 62 so that the sheet bundle can be conveyed by the introduction discharge roller 45 and the introduction discharge roller 45a. The introduction / discharge roller 45 and the introduction / discharge roller 45a convey the sheet bundle and align the center Po of the sheet bundle P with the rotation guide 90 (FIG. 8B). The pressure contact solenoid 95 is activated, and the pressure contact guide 92 presses the sheet bundle against the rotation guide 90. The introduction discharge roller 45 and the introduction discharge roller 45a release the nipping of the sheet bundle so that the sheet bundle can be rotated. The rotation motor 91 rotates the rotation guide 90 by 90 degrees. As a result, the sheet bundle is also rotated by 90 degrees (FIG. 8C). After the rotation of the sheet bundle, the introduction discharge roller 45a and the introduction discharge roller 45 sandwich the sheet bundle again. A pressure contact solenoid 95 separates the pressure contact guide 92 from the sheet bundle so that the sheet bundle can be conveyed by the introduction discharge roller 45 a and the introduction discharge roller 45. The introduction / discharge roller 45 moves the sheet bundle by a specified amount. The sheet bundle moves to the cutting position Cp (FIG. 8D). The pressing member 46 presses the sheet bundle against the holding table 62. The introduction / discharge rollers 45a and the introduction / discharge rollers 45 release the nipping of the sheet bundle. The cutting blade 47 performs the above cutting operation again to cut the second side of the sheet bundle.
[0092]
After finishing the cutting of the second side of the sheet bundle, the sheet cutting device 44 rotates the sheet bundle 180 degrees by the same rotation operation as the above rotation operation, and performs the cutting of the third side. After completing the cutting of the three sides, the sheet cutting device 44 rotates the sheet bundle by 90 degrees by the above-described rotation operation so that the sheet bundle is oriented in the same direction as before the cutting.
[0093]
The side for cutting the sheet bundle is cut by an instruction from the apparatus main body 1 of the copying machine or an instruction from the finisher 19. The sides to be cut are not limited to the above three sides. There may be four sides, two sides, and one side. In the case of one side, it is either the long side or the short side. In the above description, the cutting is performed on a quadrangular sheet bundle, but the cutting is not limited to a quadrangular shape.
[0094]
Thereafter, the delivery solenoid 80 shown in FIGS. 1 and 2 moves the delivery flapper 81 from a position biased to a solid line position by a spring (not shown) to a one-dot chain line position. Then, the introduction / discharge roller 45 starts to rotate. The sheet bundle that has been subjected to the cutting process is conveyed to the delivery flapper 81 and the discharge roller 50. The sheet bundle is nipped and conveyed by the discharge roller 50 that starts rotating together with the introduction discharge roller 45, and is finally discharged to the stack tray 51 and stacked.
[0095]
As described above, the sheet cutting device 44 of the present embodiment has the sheet holding table 62 that holds the sheet bundle in the cutting process arranged substantially vertically, so that the conventional sheet cutting table is arranged in a horizontal plane. Compared with the sheet cutting device, sheet cutting waste generated during sheet bundle cutting can be removed from the vicinity of the cutting blade 47 by its own weight. Therefore, the sheet cutting device 44 does not wrap around or push out the cutting blade that is slid, and does not scatter the sheet cutting waste. Can be prevented.
[0096]
Further, in the sheet cutting device 44 of the present embodiment, since the sheet cutting waste is instantly separated from the vicinity of the cutting blade, the sheet cutting waste is not caught in the sliding cutting blade, and the cutting blade can be moved smoothly. Therefore, a good cut surface can be formed in the sheet bundle.
[0097]
In the sheet cutting device 44 of the present embodiment, the sheet holding base 62 is disposed substantially vertically, so that the sheet cutting device 44 can be made vertical and the installation area can be reduced. In addition, since the dust box 49 is disposed directly below where the sheet cutting waste falls, the dust box 49 can be accommodated within the thickness range of the sheet cutting device, and the installation area of the sheet cutting device 44 can be reduced. .
[0098]
(Other embodiments)
In the above sheet cutting apparatus, when cutting three sides of a sheet bundle, as shown in FIG. 8, after cutting the short side of the sheet bundle, the sheet bundle is moved (FIG. 8B) and rotated 90 degrees ( 8 (c)), moved (FIG. 8 (d)) to cut the long side, but depending on the sheet size, the long side of the sheet bundle was cut as shown in FIG. Later (FIG. 9A), when the sheet bundle is moved (FIG. 9B) and rotated 90 degrees (FIG. 9C), the short side may coincide with the cutting position Cp. . In such a case, the operation from FIG. 8C to FIG. 8D can be omitted. When the cutting order shown in FIG. 9 is used, the cutting process is less than the cutting order shown in FIG. 8, and the cutting work efficiency can be increased.
[0099]
Further, in the case of a square sheet bundle, when the center Po of the sheet bundle P coincides with the center 90c of the rotation guide 90, the side to be cut is determined by rotating the sheet bundle 90 degrees without moving the sheet bundle. Cutting can be performed in accordance with the cutting position Cp.
[0100]
In each of the above embodiments, the sheet bundle P is rotated with the center Po of the sheet bundle P coincident with or positioned in the vicinity of the center 90c of the rotation guide 90. However, both the centers Po and 90c are not necessarily rotated. There is no need to rotate the sheet bundle P by making them coincide or by positioning the center Po of the sheet bundle P in the vicinity of the center 90c of the rotation guide 90. That is, after the sheet bundle is cut at the position shown in FIG. 10A, the position deviated from the center Po of the sheet bundle without being moved is sandwiched between the rotation guide 90 and the pressure contact guide 92 (see FIG. 5). Then, the sheet bundle is rotated 90 degrees by the rotation of the rotation guide 90 (FIG. 10B). Thereafter, the sheet bundle P is moved to the cutting position Cp (FIG. 10C) and cut. Cutting by this cutting order can be performed if the sheet bundle is within the sheet cutting range W when the sheet bundle is moved to the cutting position Cp shown in FIG. When the cutting order shown in FIG. 10 is used, the cutting process is less than the cutting order shown in FIG. 8, and the cutting work efficiency can be increased.
[0101]
The above-mentioned center Po of the sheet bundle is the center of the sheet bundle in plan view, but of course, when the thickness of the sheet bundle is uniform, it coincides with the center of gravity of the sheet bundle.
[0102]
Further, as shown in FIG. 11A, the sheet cutting device 44 of the present embodiment is provided at the exit portion of the saddle stitch binding device 110 disclosed in the known Japanese Patent Application Laid-Open No. 11-193176. As shown in the enlarged view of FIG. 11 (b), the sheet is cut by the sheet cutting device 44 according to the present embodiment, as shown in the enlarged view of FIG. 11 (b). The end of the bundle can be adjusted to a good cut surface.
[0103]
In the sheet cutting device 44 according to the above-described embodiment, the cutting blade 47 reciprocates in parallel with an arbitrary side of the sheet bundle to perform the cutting process. The cutting blade 111 may be a single blade that performs a cutting process like a guillotine by moving obliquely in the direction of an arrow that intersects the surface of the sheet bundle.
[0104]
In this guillotine type cutting process, unlike the parallel reciprocating cutting process, as shown in FIG. 12 (a), the sheet bundle is cut at a time by one oblique lowering operation of the cutting blade 111. The more the cutting blade 111 tries to cut the sheet being cut, the more the cutting blade 111 descends, the more the cut sheet cutting waste Pd is drawn into the cutting blade 111. Force (force in the direction of arrow S in FIG. 12B) is generated. Accordingly, the cutting blade 111 may be lowered while being bent, so that it is difficult to prepare the cut surface.
[0105]
However, in the sheet processing apparatus 144 of the present embodiment shown in FIG. 12, since the holding table 62 is vertical, the sheet cutting waste is instantaneously separated from the cut sheet bundle and the cutting blade 111. Since the sheet cutting waste is not drawn by the cutting blade 111 and a force for bending the cutting blade 111 from the sheet cutting waste is not generated, the cut surface can be shaped. The holding table 62 is provided with a protective plate 62b that protects the cutting edge of the cutting blade 111.
[0106]
The cutting blade 47 of the sheet cutting apparatus 44 shown in FIGS. 1 and 11 has a shape like a cutter blade, and the cutting blade 111 of the sheet cutting apparatus 144 in FIG. 12 has a plate shape. However, as shown in FIG. 13, for example, a circular cutting blade 147 which is a rotary blade may be used. Although a detailed mechanism is omitted, the circular cutting blade 147 is configured to be close to the sheet and to be rotatable there by a biasing force such as a spring. Since the circular cutting blade 147 rotates and cuts the sheet bundle, the point of the cutting blade changes more than the cutting blade 47 shaped like a cutter or the plate-shaped cutting blade 111 and is used for a long time. And the number of replacements of the cutting blade can be reduced. In this case, when the cutting blade 147 rotates left when moving leftward in FIG. 13 and rotates right when moving rightward, the sheet bundle can be pressed against the holding table 62 and reliably cut.
[0107]
Further, as shown in FIGS. 14 and 15, for example, a paddle 112 that is a removing means may be provided in the sheet cutting devices 44 and 144. That is, the sheet holding table 62 of the sheet cutting devices 44 and 144 is tilted within an angle (vertical) orthogonal to the horizontal plane or within a range of about ± 60 degrees across the orthogonal angle and rotated by the motor M. Further, a removal mechanism such as the paddle paddle 112 is added, and the blade cutting paddle 112 is rotated so that the sheet cutting waste can fall into the dust box 49, whereby the sheet cutting waste can be more reliably removed.
[0108]
The copying machine including the sheet cutting apparatuses 44 and 144 described above can supply an image-formed sheet or sheet bundle whose end face is adjusted by the sheet cutting apparatus. Further, since the copying machine is provided with the sheet processing device 19 having a small installation area, it is less subject to restrictions on the installation location.
[0109]
In the above description, a copying machine has been exemplified as the image forming apparatus. However, the present invention is not limited to this, and may be another image forming apparatus such as a printer, a facsimile, or a complex machine thereof. By applying the sheet cutting apparatus of the present invention to a sheet processing apparatus used for other image forming apparatuses, the same effect can be obtained.
[0110]
In the above-described embodiment, the sheet processing apparatus that can be attached to and detached from the apparatus main body of the copying machine has been exemplified. However, the present invention may be provided integrally with the apparatus main body of the copying machine. Even in this case, the same effect can be obtained by applying the present invention to the sheet processing apparatus.
[0111]
In the above-described embodiment, the electrophotographic method is exemplified as the recording method. However, the recording method is not limited to this, and other recording methods such as an ink jet method may be used.
[0112]
Further, in the above-described embodiment, the stapler is illustrated for creating the sheet bundle inside the finisher of the sheet processing apparatus. However, the present invention is not limited to this. For example, the sheet bundle creating apparatus such as a gluing bookbinding mechanism. It may be.
[0113]
【The invention's effect】
The sheet cutting device according to the present invention can remove sheet cutting waste generated when cutting the sheet from its vicinity by its own weight, so that the sheet cutting waste is caught in the cutting blade that is slidingly moved. Since it is not scattered or scattered, it can be prevented from jamming due to poor removal of sheet cutting waste.
[0114]
In the sheet cutting device of the present invention, since the sheet cutting waste is instantly separated from the vicinity of the cutting blade, the sheet cutting waste is not caught in the sliding cutting blade, and the cutting blade can be moved smoothly. A good cut surface can be prepared.
[0115]
In the sheet cutting apparatus of the present invention, since the holding means is configured to hold the sheet or the sheet bundle vertically or obliquely, the sheet cutting apparatus can be made vertical to reduce the installation area. Less.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view taken along the sheet conveying direction of, for example, a copying machine as an image forming apparatus according to an embodiment of the present invention.
2 is an enlarged view of a sheet processing apparatus installed in the copier of FIG.
FIG. 3 is a plan view of a processing tray and a stapler in the sheet processing apparatus.
FIG. 4 is a view around a conveyor belt.
(A) It is a perspective view of a conveyance belt, a pulley, etc.
(B) It is a front view around a conveyance belt.
FIG. 5 is a diagram of the sheet cutting apparatus according to the embodiment of the present invention as viewed from the sheet conveying direction.
6 is a view of the sheet cutting apparatus of FIG. 5 as viewed from above.
7 is a diagram illustrating a state where a cutting blade of the sheet cutting apparatus illustrated in FIG. 5 is cutting a sheet bundle.
(A) It is the figure which looked at the sheet | seat bundle from the moving direction of the cutting blade.
(B) It is the schematic which looked at (a) from the left.
FIG. 8 is a diagram for explaining a sheet bundle cutting order;
(A) It is the figure of the state which cut | disconnected one side of the sheet | seat bundle.
(B) It is a figure of the state which retracted the sheet | seat bundle from the cutting position.
(C) It is a figure of the state which rotated the sheet | seat bundle 90 degree | times.
(D) It is a figure of the state which advanced the sheet bundle to the cutting position.
FIG. 9 is a diagram for explaining another cutting order of a sheet bundle.
(A) It is the figure of the state which cut | disconnected one side of the sheet | seat bundle.
(B) It is a figure of the state which retracted the sheet | seat bundle from the cutting position.
(C) It is a figure of the state which rotated the sheet | seat bundle 90 degree | times.
FIG. 10 is a diagram for explaining another cutting order of a sheet bundle.
(A) It is the figure of the state which cut | disconnected one side of the sheet | seat bundle.
(B) It is a figure of the state which rotated the sheet | seat bundle 90 degree | times.
(C) It is a figure of the state which advanced the sheet bundle to the cutting position.
FIG. 11 is a state diagram when the sheet cutting apparatus shown in FIG. 5 is installed in a sheet treatment apparatus having a saddle stitch bookbinding apparatus.
(A) It is sectional drawing along the sheet conveyance direction of the sheet processing apparatus.
(B) It is an enlarged view which shows the cutting state of the saddle stitch sheet bundle by the cutting blade of a sheet cutting apparatus.
FIG. 12 is a diagram of a sheet cutting apparatus according to another embodiment.
(A) It is the figure seen from the sheet conveyance direction.
(B) It is a figure of the state which the cutting blade is cutting the sheet | seat bundle.
FIG. 13 is a diagram of another embodiment of a cutting blade, and is a diagram of a circular cutting blade that rotates to cut a sheet bundle.
FIG. 14 is a cross-sectional view of a copying machine in which a sheet cutting device is provided with a paddle paddle.
FIG. 15 is an enlarged view of a paddle paddle.
FIG. 16 is a cross-sectional view taken along the sheet conveying direction of a copying machine equipped with a conventional sheet cutting device.
FIG. 17 is a diagram for explaining the operation of a conventional sheet cutting apparatus.
FIG. 18 is a diagram for explaining a state of a cutting blade when a sheet bundle is cut in a conventional sheet cutting apparatus.
[Explanation of symbols]
N nip
S1 Sheet detection sensor
S2 Paper surface detection sensor
S3 Stapler sensor
S4 Reverse sensor
S5 Cutting sensor
S6a, S6b, S6c Movement unit sensor
S7 Holding member sensor
Cp cutting position
M motor
D Manuscript
P sheet bundle
Pa sheet edge
Pd sheet cutting waste
W sheet cutting range
1 Copying machine (image forming device) body
2 Document feeder
14 Photosensitive drum (image forming means)
16 Transfer device
17 Fixing device
19 Finisher
44 Sheet cutting device
45 Introduction discharge roller (position change means)
45a Introduction discharge roller (position change means)
46 Holding member (Pressing member)
47 Cutting blade
47a blade
48 Mobile unit
49 Dust box
62 Holding stand (receiving plate)
62a Sheet receiving surface
90 Rotation guide (Rotating member)
90c Center of rotation guide
92 Pressure guide (pressing member)
98 Finisher main unit
100 Copying machine (image forming device)
102 Sheet holding part (holding means)
103 Sheet cutting part (cutting means)
104 Sheet holding and rotating part (holding and rotating means)
110 Saddle-stitch bookbinding device
111 cutting blade
112 paddle paddle
144 Cutting device
147 Cutting blade (Rotating blade)

Claims (16)

Holding means for holding the conveyed sheet or sheet bundle;
Cutting means for cutting one side of the sheet or sheet bundle held by the holding means;
Holding rotation means for rotating the sheet or sheet bundle in order to cut the other side of the sheet or sheet bundle by the cutting means,
The sheet holding device, wherein the holding unit holds the sheet or the sheet bundle vertically or obliquely. 2. The sheet according to claim 1, further comprising: a position changing unit that performs at least one of an approaching operation for bringing the sheet or the sheet bundle closer to the cutting unit and a separating operation for separating the sheet or the sheet bundle from the cutting unit. Cutting device. Holding means for holding a sheet or sheet bundle;
Cutting means for cutting one side of the sheet or sheet bundle held by the holding means;
Position changing means for holding the sheet or sheet bundle cut by the cutting means and releasing the holding by the holding means, and changing the position of the sheet or sheet bundle;
After holding the sheet or sheet bundle whose position has been changed by the position changing means and releasing the holding by the position changing means, the sheet or sheet bundle is rotated so that the other side becomes the cutting position of the cutting means. Holding and rotating means for rotating,
The sheet holding device, wherein the holding unit holds the sheet or the sheet bundle vertically or obliquely. Holding means for holding a sheet or sheet bundle;
Cutting means for cutting one side of the sheet or sheet bundle held by the holding means;
Holding rotation means for holding the sheet or sheet bundle cut by the cutting means and releasing the holding by the holding means, and rotating the sheet or sheet bundle so that the other side faces the cutting means;
Position change to move the other side of the sheet or sheet bundle to the cutting position of the cutting means after holding the sheet or sheet bundle rotated by the holding rotation means and releasing the holding by the holding rotation means Means, and
The sheet cutting apparatus according to claim 1, wherein the holding unit holds the sheet or the sheet bundle vertically or obliquely. Holding means for holding a sheet or sheet bundle;
Cutting means for cutting one side of the sheet or sheet bundle held by the holding means;
Position changing means for holding the sheet or sheet bundle cut by the cutting means and releasing the holding by the holding means, and changing the position of the sheet or sheet bundle;
Holding the sheet or sheet bundle whose position has been changed by the position changing unit and releasing the holding by the position changing unit, and then rotating the sheet or sheet bundle so that the other side faces the cutting unit Rotation means,
The position changing means holds the sheet or sheet bundle rotated by the holding rotation means and releases the holding by the holding rotation means, and then moves the sheet or sheet bundle to cut the other side of the cutting means. Move to the cutting position of
The sheet cutting apparatus according to claim 1, wherein the holding unit holds the sheet or the sheet bundle vertically or obliquely. The sheet cutting device according to claim 1, wherein the holding rotation unit holds the center or the vicinity of the center of the sheet or the sheet bundle. The angle at which the holding means holds the sheet or the sheet bundle obliquely is set within a range of about 60 degrees on the left and right with respect to the vertical line. The sheet cutting device according to item. The holding means includes a receiving plate that receives the sheet or the sheet bundle, and a pressing member that presses the sheet or the sheet bundle against a sheet receiving surface of the receiving plate, and the sheet receiving surface is centered on a vertical line. The sheet cutting device according to any one of claims 1, 3 to 6, wherein the sheet cutting device is located within a range of about 60 degrees to the left and right. 6. The cutting apparatus according to claim 1, wherein the cutting unit includes a cutting blade that moves in a direction parallel to a surface of the sheet or the sheet bundle and cuts the sheet or the sheet bundle. The sheet cutting apparatus according to the description. The sheet cutting device according to claim 9, wherein the cutting blade has blades on both sides in the moving direction and is capable of reciprocating. 6. The cutting device according to claim 1, further comprising a rotary blade that moves in a direction parallel to the surface of the sheet or sheet bundle while rotating, and cuts the sheet or sheet bundle. The sheet cutting apparatus according to item 1. The sheet cutting device according to claim 10, wherein a rotation direction of the rotary blade is set to a direction in which the sheet or the sheet bundle is pressed onto the receiving plate according to claim 8. 6. The cutting device according to claim 1, further comprising a cutting blade that moves in a direction intersecting the surface of the sheet or sheet bundle and cuts the sheet or sheet bundle. The sheet cutting device according to item. The said holding | maintenance rotation means has a rotation member which receives and rotates a sheet | seat or a sheet bundle, and a pressing member which presses the said sheet | seat or a sheet bundle to the said rotation member, The 1st thru | or 3 thru | or The sheet cutting device according to any one of 5. 15. The apparatus according to claim 1, further comprising a removing unit that removes sheet cutting waste generated when the sheet or the sheet bundle is cut in a direction away from the sheet or the sheet bundle. Sheet cutting device. Image forming means for forming an image on a sheet;
A sheet cutting device that cuts an end of a sheet or sheet bundle on which an image is formed by the image forming means,
The image forming apparatus according to claim 1, wherein the sheet cutting unit is the sheet cutting apparatus according to claim 1.

Images