JP4146283B2 - Image forming apparatus and duplex printing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus having an image forming unit, a paper discharge unit having a plurality of paper conveyance paths, and a switching member for switching a paper conveyance path through which paper passing through the image formation unit is passed. .
[0002]
[Prior art]
An image forming unit that forms an image on a sheet, and a sheet discharge unit that discharges the sheet on which the image is formed in the image forming unit. The sheet discharge unit includes a plurality of sheet conveyance paths through which the sheet passes, and the image An image forming apparatus having a switching member that switches between a forming unit and a paper discharge unit to switch a paper conveyance path is disclosed in, for example, “Patent Document 1”.
[0003]
In addition, as a double-sided printing apparatus that performs double-sided printing, a printing unit as an image forming unit, an auxiliary tray for double-sided printing that temporarily stores a surface-printed paper having a printed image formed on the surface thereof in the printing unit, A printing unit having a discharge tray for stacking single-sided printing paper having a printed image formed on one side thereof, and a switching member for passing the paper that has passed through the printing unit to either the auxiliary tray or the discharge tray, For example, Japanese Patent Application No. 2002-2660 by the same applicant as the present applicant discloses a double-sided printing apparatus capable of easily switching between single-sided printing and double-sided printing.
[0004]
[Patent Document 1]
JP-A-9-202030 (page 4-7, FIG. 1)
[0005]
[Problems to be solved by the invention]
In each of the prior arts described above, when the paper that has passed through the image forming unit is guided by the switching member, the paper is pulled by the switching member due to the curvature of the paper, static electricity, or the influence of wind force from an air knife provided to prevent the paper from rolling up. The problem is that jamming will occur, the part that should be guided upward will be guided downward, so-called rolling down will occur, or it will adhere to the plate cylinder due to the adhesive force of the ink In other words, there is a problem that so-called roll-up that does not peel as it is or does not peel at the fixing portion occurs.
[0006]
SUMMARY OF THE INVENTION An object of the present invention is to provide an image forming apparatus having a switching member that solves the above-described problems and can guide a sheet satisfactorily while preventing the occurrence of conveyance jamming, winding down, and winding up.
[0007]
[Means for Solving the Problems]
According to a first aspect of the present invention, an image forming unit that forms an image on a sheet and a sheet discharge unit that discharges the sheet on which the image is formed in the image forming unit, the sheet discharge unit passes the sheet. In the image forming apparatus having a plurality of paper transport paths to be switched, a switching member that switches between which paper transport path the paper passing through the image forming section is passed between the image forming section and the paper discharge section. And the switching member has an air discharge port for discharging air toward the sheet passing through the image forming unit.
[0008]
According to a second aspect of the present invention, in the image forming apparatus according to the first aspect, the image forming unit further presses the sheet against the plate cylinder and the plate cylinder. Press roller And the paper discharge unit has a paper discharge tray at the end of each paper transport path.
[0009]
According to a third aspect of the present invention, in the image forming apparatus according to the first or second aspect, the width of the switching member is equal to or greater than the width of the sheet passing through the image forming unit.
[0010]
According to a fourth aspect of the present invention, there is provided a printing unit having a plate cylinder and a press roller provided so as to be able to contact with and separate from the plate cylinder, and a surface-printed paper having a printed image formed on the surface thereof in the printing unit. An auxiliary tray for temporarily storing; a sheet refeeding unit for refeeding the surface printed sheet stored on the auxiliary tray toward the printing unit; and a printed sheet printed by the printing unit. A double-sided printing apparatus capable of performing double-sided printing by printing on the back side of the paper after printing on the front side of the paper, and on the downstream side in the paper conveyance direction of the printing unit, A switching member that selectively occupies a first position for guiding the paper passing through the printing section toward the auxiliary tray and a second position for guiding the paper toward the paper discharge section; The switching member is a sheet passing through the printing unit. And having an air discharge port for discharging air toward.
[0011]
According to a fifth aspect of the present invention, in the double-sided printing apparatus according to the fourth aspect, the width of the switching member is equal to or greater than the width of the paper passing through the printing unit.
[0012]
According to a sixth aspect of the present invention, in the double-sided printing apparatus according to the fourth or fifth aspect, when the switching member occupies the first position, the leading end is close to the peripheral surface of the plate cylinder. When the second position is occupied, the tip end portion is close to the peripheral surface of the press roller, and there are interval adjusting means capable of adjusting the interval between the tip end portion, the plate cylinder and the press roller at each position. It is characterized by that.
[0013]
According to a seventh aspect of the present invention, in the double-sided printing apparatus according to any one of the fourth to sixth aspects, the switching member further includes a plurality of switching member main bodies each having the air discharge port and each switching member. It has a guide member which connects between main bodies.
[0014]
According to an eighth aspect of the present invention, in the double-sided printing apparatus according to any one of the fourth to seventh aspects, air is further blown between the outer peripheral surface of the plate cylinder and the sheet in contact therewith. An air knife is provided above the switching member, and the switching member has a passage through which the air discharged from the air knife passes.
[0015]
According to a ninth aspect of the present invention, in the double-sided printing apparatus according to any one of the fourth to eighth aspects, the switching member further includes the tip portion when the first position is occupied and the switching member. The angle formed by the first line connecting the center of the plate cylinder and the second line extending from the center of the plate cylinder toward the contact portion between the plate cylinder and the press roller is 5 to 20 degrees. It is arrange | positioned in the position which becomes.
[0016]
The invention according to claim 10 is: Claim 9 Further, in the double-sided printing apparatus, the switching member has an angle formed by a tangent line at the intersection of the first line segment and the outer peripheral surface of the plate cylinder and an extended line of the lower ridge line of the tip portion of 0 to 45 degrees. The tip is formed as described above.
[0017]
According to an eleventh aspect of the present invention, in the double-sided printing apparatus according to any one of the fourth to tenth aspects, the paper discharge unit further includes a paper transport member that transports the paper, and the switching is performed. The member is characterized in that the sheet is guided from a contact portion between the plate cylinder and the press roller to the sheet conveying member.
[0018]
According to a twelfth aspect of the present invention, in the double-sided printing apparatus according to the eleventh aspect, the paper transport member further includes a plurality of rotating bodies that transport the paper, and the switching member is positioned on the most upstream side in the paper transport direction. It is supported at the rotation center of the rotating body so as to be swingable.
[0019]
【Example】
FIG. 1 shows a duplex printing apparatus employing an embodiment of the present invention. The duplex printing apparatus 1 includes a printing unit 2, a plate making unit 3, a paper feeding unit 4, a plate discharging unit 5, a paper discharging unit 6, an image reading unit 7, an auxiliary tray 8, a refeed unit 9, a switching member 10, and the like. is doing.
[0020]
The printing unit 2 disposed almost at the center of the apparatus main body 11 includes a plate cylinder 12 and a press roller 13.
The plate cylinder 12 includes a pair of end plates (not shown) rotatably supported by a support shaft 14 that also serves as an ink supply pipe, a porous support plate (not shown) wound around the outer peripheral surface of each end plate, and not shown. It is mainly composed of a mesh screen (not shown) wound around the outer peripheral surface of the porous support plate, and is rotationally driven by the plate cylinder driving means 121 (see FIG. 16) and detachable from the apparatus main body 11. It is configured. In the present embodiment, the plate cylinder 12 has a size capable of obtaining a maximum A3 size printed material during single-sided printing.
[0021]
An ink supply means 15 is disposed inside the plate cylinder 12. The ink supply means 15 includes a support shaft 14, an ink roller 16, a doctor roller 17, and the like.
The ink roller 16 is rotatably supported between side plates (not shown) provided in the plate cylinder 12, and the peripheral surface thereof is disposed close to the inner peripheral surface of the plate cylinder 12. It is rotationally driven in the same direction as the barrel 12. The doctor roller 17 is also rotatably supported between the side plates, and its peripheral surface is disposed close to the peripheral surface of the ink roller 16 and is driven to rotate in a direction opposite to the plate cylinder 12 by a driving means (not shown). . The support shaft 14 has a plurality of small holes, and the ink supplied from the support shaft 14 accumulates in a cross-sectional wedge-shaped space formed in the vicinity of the ink roller 16 and the doctor roller 17. A reservoir 18 is formed.
[0022]
On the outer peripheral surface of the plate cylinder 12, a stage portion 19 a that forms a plane along one generatrix of the plate cylinder 12 is formed. On this, a clamper that holds the tip of the master on the outer peripheral surface of the plate cylinder 12. 19b is disposed. The clamper 19b is opened and closed by opening / closing means (not shown) when the plate cylinder 12 is rotated to a predetermined position.
[0023]
A press roller 13 is disposed below the plate cylinder 12. The press roller 13 is configured by winding an elastic body such as rubber around a metal core portion 13 a and extends in the axial direction of the plate cylinder 12. As shown in FIG. 2, the press roller 13 is rotatably supported by a pair of arm members 20 at both ends of the core portion 13 a. Each arm member 20 having a substantially L shape is integrated by a swing shaft 21 attached to a portion near the bent portion, and the swing shaft 21 is rotatably supported by the apparatus main body 11. Yes. In this embodiment, the press roller 13 is constituted by a member having ink repellency such as polytetrafluoroethylene resin at least on the peripheral surface thereof.
[0024]
Between the arm members 20, in addition to the press roller 13, a refeed guide member 22, a refeed resist roller 23, a refeed positioning member 24, a refeed transport unit 25, a cleaning roller 26, a guide plate 27, and the like. Is provided.
The refeed guide member 22 disposed in the vicinity of the right side of the press roller 13 is integrally provided on each of the support shafts 28a, 29a, and 30a, and the respective peripheral surfaces thereof are pressed against the peripheral surface of the press roller 13. In addition, there are rollers 28, 29, 30 composed of a plurality of finely divided rollers, and a paper guide plate 31 formed in a curved shape for allowing the surface-printed paper PA to follow the peripheral surface of the press roller 13. Each support shaft 28a, 29a, 30a is rotatably supported at each end by each arm member 20, and is urged toward the core portion 13a by urging means (not shown). Each of the rollers 28, 29, and 30 is provided over almost the entire width of the press roller 13.
[0025]
The sheet guide plate 31 is disposed at a position away from the peripheral surface of the press roller 13 by a predetermined distance that is smaller than the radius of each of the rollers 28, 29, and 30, and both ends thereof are attached to the arm members 20. It is fixed. The paper guide plate 31 is formed to have a curved surface centered on the core portion 13 a, and the paper guide plate 31 is configured to bring the peripheral surfaces of the rollers 28, 29, and 30 into contact with the peripheral surface of the press roller 13. A plurality of openings (not shown) are formed.
[0026]
A re-feeding registration roller 23 is disposed below the press roller 13. The re-feeding registration rollers 23, which are a plurality of finely divided rollers, are rotatably supported by a support shaft 23a, and the support shaft 23a is attached between one end of a pair of swing arms 32. Each oscillating arm 32 having a substantially square shape is supported by a support shaft 32a fixed between the arm members 20 so that the bent portion thereof can oscillate. Each position is determined so as not to interfere with each roller 30.
[0027]
A plunger 33a of a solenoid 33 attached to one arm member 20 via a bracket (not shown) and one end are fixed to one arm member 20 and fixed to the other arm of one swing arm 32 with respect to the swing arm 32. The other end of the tension spring 34 is attached to the support shaft 32a to apply a biasing force in the counterclockwise direction in FIG. With this configuration, the re-feeding registration roller 23 occupies the press contact position indicated by the solid line in FIG. 2, which presses the peripheral surface against the peripheral surface of the press roller 13 with a predetermined press contact force when the solenoid 33 is operated. When the operation is released, the peripheral surface of the tension spring 34 is separated from the peripheral surface of the press roller 13 by the urging force of the tension spring 34 and occupies a separation position indicated by a two-dot chain line in FIG.
[0028]
A refeed conveyance unit 25 is disposed at the lower left of the press roller 13. The refeed conveyance unit 25 includes a conveyance unit main body 35, a driving roller 36, a driven roller 37, an endless belt 38, a suction fan 39, and the like, and an auxiliary tray 8 is integrally provided on the upper surface thereof.
[0029]
The transport unit main body 35, which is a housing whose upper surface is opened and whose width is slightly smaller than the interval between the arm members 20, is not shown on both side surfaces upstream and downstream in the paper transport direction. Each of the bearings (not shown) rotatably supports the drive shaft 36a and the driven shaft 37a. Both ends of the drive shaft 36 a penetrate both side surfaces of the transport unit main body 35, and both the penetrated both ends are rotatably supported by bearing members (not shown) provided in the apparatus main body 11. A drive gear (not shown) is attached to one end of the drive shaft 36a, and the drive shaft 36a is rotationally driven by a transport unit drive motor 122 (see FIG. 16) provided in the apparatus main body 11. The driven shaft 37a is configured such that both end portions thereof do not penetrate both side surfaces of the transport unit body 35.
[0030]
Bosses 35a are integrally provided on both outer sides of the upstream end of the transport unit body 35 in the paper transport direction, and each boss 35a is fitted in a long hole (not shown) formed in each arm member 20, respectively. Has been. With this configuration, the transport unit main body 35 is centered on the drive shaft 36a as each arm member 20 swings when the press roller 13 is brought into and out of contact with the plate cylinder 12 by a press roller contact / separation mechanism 55 described later. Rocking is possible.
[0031]
The plurality of roller-shaped drive rollers 36 are integrally attached to the drive shaft 36a, and a predetermined interval is provided between the drive rollers 36. A plurality of driven rollers 37 having the same shape as the driving roller 36 are integrally attached to the driven shaft 37 a at the same interval as each driving roller 36. An endless belt 38 is stretched between each driving roller 36 and each corresponding driven roller 37 corresponding thereto with a predetermined tension. The endless belt 38 made of a frictional resistance member is moved in the direction indicated by the arrow in FIG. 2 when the drive shaft 36 a is rotationally driven by the transport unit drive motor 122.
[0032]
A suction fan 39 is integrally attached to the lower surface of the transport unit main body 35, and an auxiliary tray 8 is integrally attached to the upper surface. The auxiliary tray 8 is configured such that a part of the peripheral surface of each of the rollers 36 and 37 faces the sheet conveying surface, and the endless belt 38 on the sheet conveying surface has both sides as shown in FIG. A plurality of apertures 8b are formed, and two end fences 8a for receiving one end of the surface-printed paper PA sent from the printing unit 2 are integrally provided at the downstream end of the paper conveyance direction. It has been.
[0033]
At the upstream end of the auxiliary tray 8 in the paper conveyance direction, refeeding is performed to temporarily stop the other end of the front-side printed paper PA re-feeded to the printing unit 2 by the re-feed conveyance unit 25 at a fixed position. A paper positioning member 24 is provided. In the present embodiment, two re-feeding positioning members 24 are provided and are integrally attached to the auxiliary tray 8 respectively. Further, the auxiliary tray 8 is provided with a sensor 8c that detects that the other end of the front surface printed paper PA has approached the refeed positioning member 24. The sensor 8c outputs a signal to the control means 129 described later when the other end of the front surface printed paper PA is detected.
[0034]
A hole (not shown) is provided on the lower surface of the transport unit main body 35, which is a mounting surface of the suction fan 39, and the suction fan 39 is operated thereby to apply a negative pressure to the interior of the transport unit main body 35, which is a housing. The surface-printed paper PA is sucked onto the upper surface of each endless belt 38 that is generated and moved. The suction force of the suction fan 39 and the frictional resistance force of the endless belt 38 are determined between the surface-printed paper PA and each endless belt 38 when the other end of the surface-printed paper PA comes into contact with the refeed positioning member 24. Each is set to a strength that causes slippage between them.
[0035]
The auxiliary tray 8, the refeed guide member 22, the refeed registration roller 23, the refeed positioning member 24, and the refeed transport unit 25 constitute the refeed unit 9. Further, the re-feeding means 9 has a sheet receiving plate 40 shown in FIGS. Hereinafter, the sheet receiving plate 40 will be described.
[0036]
As shown in FIG. 3, the sheet receiving plate 40 having a U-shaped cross section has protrusions 40a, 40b, 40c, and 40d on both sides thereof, and the protrusions 40a, 40b, 40c, and 40d are formed on the transport unit main body 35. Are fitted in long holes (not shown) formed in both side plates. Further, a notch portion 40e into which each end fence 8a can be fitted is formed at one end portion of the sheet receiving plate 40, and rack portions 40f extending to the other end side are formed on both sides of the sheet receiving plate 40, respectively. Is formed. The paper receiving plate 40 is disposed at a position spaced above the endless belts 38. The distance between the lower surface of the paper receiving plates 40 and the endless belts 38 allows the surface-printed paper PA to be transported well on the endless belts 38. The predetermined interval is set to be possible.
[0037]
A stepping motor 138 having two pinions 139 on an output shaft 138 a is attached to the outside of one side plate of the transport unit main body 35. The front end of the output shaft 138a is rotatably supported by the other side plate of the transport unit main body 35, and each pinion 139 is a position in the vicinity of the both side plates of the transport unit main body 35 and a position that meshes with each rack portion 40f. It is arranged.
[0038]
In the vicinity of the stepping motor 138, a home position sensor 140 for detecting the home position of the sheet receiving plate 40 is disposed. The home position sensor 140 is disposed at a position where the protruding portion of the protrusion 40d can be detected, and a signal from the home position sensor 140 is output toward the control means 129 described later.
[0039]
With the above-described configuration, the sheet receiving plate 40 receives the one end of the surface-printed sheet PA conveyed from the printing unit 2 closest to the press roller 13 by the stepping motor 138, and is the first position as the home position shown in FIG. And the other end of the surface-printed paper PA placed on the uppermost surface of the press roller 13 is reciprocated to selectively occupy the second position shown in FIG. The
[0040]
Further, the length of the sheet receiving plate 40 in the sheet conveyance direction is such that the sheet receiving plate 40 occupies the second position, and the other end of the surface printed sheet PA on the sheet receiving plate 40 is endless from the sheet receiving plate 40. When the front-side printed paper PA falls on the belt 38 and is conveyed by the re-feed conveyance unit 25 and the other end contacts the re-feed positioning member 24, one end of the front-side printed paper PA is the second. The length is set to fall from the sheet receiving plate 40 occupying the position.
[0041]
A cleaning roller 26 that cleans the peripheral surface of the press roller 13 is disposed in the vicinity of the press roller 13 and above the refeed conveyance unit 25. The cleaning roller 26 having substantially the same width as that of the press roller 13 has at least a surface made of a highly hygroscopic material such as Japanese paper or sponge, and has a core portion 26a integrally at the center thereof. . The cleaning roller 26 is rotatably supported by fitting the core portion 26a into a long hole (not shown) formed in each arm member 20, and a press roller by a biasing means (not shown) provided in the long hole. The peripheral surface is constantly pressed against the peripheral surface of the press roller 13 with a predetermined pressing force. The cleaning roller 26 is about one-tenth of the peripheral speed of the press roller 13 in the same direction as the press roller 13 when the press roller 13 rotates by a cleaning roller driving means (not shown) provided on one arm member 20. It is rotationally driven at a peripheral speed.
[0042]
A guide plate 27 is disposed on the upper left side of the cleaning roller 26. Both ends of the guide plate 27, which is a plate material, are fixed to the arm members 20, so that the surface-printed paper PA fed from the printing unit 2 does not touch the cleaning roller 26 and faces the auxiliary tray 8. To guide. The guide plate 27 is disposed at a position close to each peripheral surface of the press roller 13 and the cleaning roller 26.
[0043]
On the other end side of each arm member 20 opposite to the one end side where the press roller 13 is supported, rotatable cam followers 41 are arranged so as to face each other. Further, the other end of the printing spring 42 having one end fixed to the apparatus main body 11 is attached in the vicinity of the position where the cam follower 41 of each arm member 20 is disposed. As a result, each arm member 20 is given a rotational biasing force in the clockwise direction in FIG.
[0044]
In the vicinity of the left side of each cam follower 41, a multistage cam 43 having three cam plates 43A, 43B, 43C is disposed. Each cam plate 43A, 43B, and 43C is fixed to a cam shaft 44 supported at both ends by the apparatus main body 11 and movably in the paper surface direction of FIG. The plate 43B, the cam plate 43A, and the cam plate 43C are arranged in this order. Each of the cam plates 43A, 43B, and 43C has a base portion that is a disc concentric with the cam shaft 44 and a convex portion having the same protruding amount. As shown in FIG. 6, the multistage cam 43 has plate cylinder driving means via a drive gear 45 attached to the cam shaft 44 and a transmission gear 47 attached to a support shaft 46 rotatably supported by the apparatus body 11. The rotational force from 121 is transmitted, and it is rotated in the clockwise direction in FIG.
[0045]
The press roller 13 occupies a separation position shown in FIG. 2 in which the circumferential surface is separated from the circumferential surface of the plate cylinder 12 when any convex portion of each of the cam plates 43A, 43B, and 43C comes into contact with the cam follower 41. When the contact between any of the convex portions and the cam follower 41 is released, the peripheral surface occupies the press contact position shown in FIG. 7 where the peripheral surface presses the peripheral surface of the plate cylinder 12 by the biasing force of the printing pressure spring 42. Each of the cam plates 43A, 43B, and 43C is configured so that the base and the cam follower 41 do not come into contact when the press roller 13 occupies the press contact position.
[0046]
The shape of the convex portions of the cam plates 43A, 43B, and 43C is such that the contact range between the press roller 13 and the plate cylinder 12 is a range in which all of the front surface region, the intermediate region, and the back surface region shown in FIG. Thus, the cam plate 43B is formed so as to be in the same range as the surface region, and the cam plate 43C is formed so as to be in the combined range of the downstream portion of the surface region, the intermediate region, and the back surface region. The intervals between the cam plates 43A, 43B, 43C are set to be sufficiently larger than the plate thickness of the arm member 20.
[0047]
In FIG. 2, press roller locking means (not shown) that prohibits the swinging of each arm member 20 in a state where the press roller 13 occupies the separated position is disposed near the right side of each arm member 20. The press roller locking means (not shown) has a solenoid (not shown), and the state of holding each arm member 20 and the state of releasing the holding are selectively switched by switching on and off the solenoid (not shown). A solenoid (not shown) is operated in a state where the cam follower 41 is in contact with any one of the convex portions of the cam plates 43A, 43B, and 43C.
[0048]
A moving arm 48 and a step cam 49 are disposed near the lower portion of the cam shaft 44 as shown in FIG. The moving arm 48 having a substantially L shape has a bent portion attached to a support shaft 48a that is rotatably supported by the apparatus main body 11. A roller 48b is provided at one end of the moving arm 48, and a moving portion 48 is provided at the other end. Each cam follower 48c is rotatably attached. Furthermore, the other end of the tension spring 50 having one end attached to the apparatus main body 11 is attached to a portion between the other end of the moving arm 48 and the bent portion, and the moving arm 48 is centered on the support shaft 48a. In FIG. 6, a clockwise biasing force is applied.
[0049]
The roller 48b is disposed between the discs 44a and 44b fixed in the middle of the camshaft 44, and the cam follower 48c has its peripheral surface brought into contact with the peripheral surface of the step cam 49 by the urging force of the tension spring 50. It is in contact. The interval between the discs 44a and 44b is set to be slightly larger than the diameter of the roller 48b.
[0050]
The step cam 49 has three cam portions 49 a, 49 b, 49 c on its peripheral surface, and is fixed to a support shaft 51 that is rotatably supported by the apparatus main body 11. A gear 54 that meshes with a gear 53 attached to an output shaft of a stepping motor 52 attached to the apparatus main body 11 is attached to the support shaft 51, and the step cam 49 is moved by an arrow in FIG. It is rotationally driven in the direction. With this configuration, when the stepping motor 52 is actuated to rotate the step cam 49, the moving arm 48 swings about the support shaft 48a, and the roller 48b pushes the disk 44a or the disk 44b so that the camshaft 44 is illustrated. 6 in the left-right direction.
[0051]
Each cam portion 49a, 49b, 49c is in contact with the cam follower 48c and the cam portion 49b so that the cam plate 43B is in a position where the cam follower 41 can come into contact with the cam follower 41 when the cam follower 48c and the cam portion 49a contact each other. When the cam follower 48c and the cam portion 49c come into contact with each other so that the cam plate 43A comes into contact with the cam follower 41, the cam shaft 44C comes into contact with the cam follower 41. Each is formed in a shape to be moved.
[0052]
The above-described cam follower 41, the printing pressure spring 42, the multistage cam 43, the press roller locking means (not shown), the moving arm 48, and the step cam 49 constitute a press roller contact / separation mechanism 55. By the operation, the press roller 13 selectively occupies the separated position shown in FIG. 2 and the press contact position shown in FIG.
[0053]
A plate making unit 3 is disposed in the upper right part of the apparatus main body 11. The plate making section 3 includes a master holding member 57, a platen roller 58, a thermal head 59, a cutting means 60, a master stock section 61, a tension roller pair 62, a reverse roller pair 63, and the like. The plate making unit 3 performs plate making on a master 64, which will be described later, and a divided plate making master 65 having a first plate making image 65A and a second plate making image 65B as shown in FIG. 8, or a first plate making image as shown in FIG. A master-making master 66 having a third plate-making image 66A having image areas for two surfaces of 65A and the second plate-making image 65B is created. The first plate-making image 65A is formed at a position corresponding to the front surface region shown in FIG. 1 when the divided plate-making master 65 is wound on the outer peripheral surface of the plate cylinder 12, and the second plate-making image 65B is a back surface region. It is formed at the corresponding position.
[0054]
The master holding member 57 is provided on each pair of side plates (not shown) of the plate-making part 3, and a core of a master roll 64a formed by winding a master 64 in which a thermoplastic resin film and a porous support are bonded together into a roll shape. Both ends of the portion 64b are supported rotatably and detachably.
[0055]
A platen roller 58 provided on the left side of the master holding member 57 is rotatably supported on a side plate (not shown) of the plate making unit 3 and is rotationally driven by plate making drive means 124 (see FIG. 16) including a stepping motor. A thermal head 59 positioned below the platen roller 58 and having a large number of heating elements is also attached to a side plate (not shown) of the plate-making unit 3, and the heating element surface is pressed against the platen roller 58 by a biasing force of a biasing means (not shown). Has been. The thermal head 59 selectively generates heat from the heating element while being in contact with the thermoplastic resin film surface of the master 64, and performs hot melt perforation plate making on the master 64.
[0056]
A cutting means 60 is disposed on the left side of the platen roller 58 and the thermal head 59. A cutting means 60 having a fixed blade 60a fixed to a side plate (not shown) of the plate-making unit 3 and a movable blade 60b supported so as to be movable with respect to the fixed blade 60a includes a movable blade 60b with respect to the fixed blade 60a. This is a known configuration in which the master 64 is cut by rotating.
[0057]
A master stock section 61 is disposed below the cutting means 60 on the downstream side in the master conveyance direction. The master stock section 61 that is a space for temporarily storing the divided master-making master 65 or the master-making master 66 is partitioned by a plurality of plate members, and a suction fan (not shown) is provided at the innermost part thereof. Has been. By operating this suction fan, negative pressure is generated inside the master stock portion 61 that is a sealed space, and the divided master-making master 65 or the master-making master 66 that has been transported by plate making is the deepest part of the master stock portion 61. It is stored for the department.
[0058]
A tension roller pair 62 is disposed at a portion between the cutting means 60 and the master stock portion 61. The tension roller pair 62 composed of a driving roller 62a and a driven roller 62b that are rotatably supported by a side plate (not shown) of the plate-making unit 3 respectively has a circumferential surface of the driving roller 62a that is driven by an urging means (not shown). The master roller 64 is nipped and conveyed by the driving roller 62a being rotationally driven by the plate-making driving means 124. The drive roller 62 a has a peripheral speed set slightly higher than the peripheral speed of the platen roller 58, and a torque limiter (not shown) is provided in the drive roller 62 a, and between the platen roller 58 and the tension roller pair 62. A predetermined tension is applied to the master 64.
[0059]
On the downstream side of the master stock unit 61 in the master conveyance direction, a reverse roller pair 63 including a driving roller 63a and a driven roller 63b that are rotatably supported by a side plate (not shown) of the plate making unit 3 is disposed. The reversing roller pair 63 sandwiches and conveys the master 64 by a driving roller 63a that is rotationally driven by the plate-making driving means 124 and a driven roller 63b that is pressed against the driving roller 63a by an urging means (not shown). A one-way clutch (not shown) is provided inside the driving roller 63a.
[0060]
A movable master guide plate (not shown) is disposed between the tension roller pair 62 and the reverse roller pair 63. The movable master guide plate is swingably supported by a support member (not shown), and a solenoid (not shown) moves the upper surface of the master 64 so that the master 64 enters the master stock unit 61. It is selectively positioned at a retracted position that does not obstruct.
[0061]
A sheet feeding unit 4 is disposed below the plate making unit 3. The paper feed unit 4 includes a paper feed tray 67, a paper feed roller 68, a separation roller 69, a separation pad 70, a registration roller pair 71, and the like.
A paper feed tray 67 capable of stacking a large number of sheets P on the upper surface is supported by the apparatus main body 11 so as to be movable up and down, and is moved up and down by a paper feed driving means 125 (see FIG. 16) including a lifting means. A pair of side fences 72 are provided on the upper surface of the paper feed tray 67 on which A3 size paper P can be placed vertically and are movably supported in a paper width direction orthogonal to the paper transport direction by a rail member (not shown). . A plurality of paper size detection sensors 73 for detecting the size of the stacked paper P are provided on the free end side of the paper feed tray 67.
[0062]
Above the paper feed tray 67, a paper feed roller 68 having a high frictional resistance member on the surface is disposed. The paper feed roller 68 is rotatably supported by a bracket (not shown) supported by the apparatus main body 11 so as to be swingable. When the paper feed tray 67 is lifted by lifting means (not shown), paper is fed with a predetermined pressure contact force. The uppermost sheet P on the tray 67 is pressed against. The paper feed roller 68 is rotationally driven by the paper feed driving means 125.
[0063]
On the left side of the paper feed roller 68, a separation roller 69 and a separation pad 70 each having a high friction resistance member on the surface are disposed. The separation roller 69 is drivingly connected to the paper feed roller 68 via a timing belt 69a, and is driven to rotate in the same direction in synchronization with the rotation of the paper feed roller 68. The separation pad 70 is pressed against the separation roller 69 by a biasing force of a biasing means (not shown).
[0064]
A registration roller pair 71 is disposed on the left side of the separation roller 69 and the separation pad 70. The registration roller pair 71 including the driving roller 71a and the driven roller 71b transmits the rotational driving force from the plate cylinder driving unit 121 by a driving force transmitting unit (not shown) such as a gear or a cam, so that the driving roller 71a is connected to the plate cylinder. 12, the paper P is fed toward the printing unit 2 at a predetermined timing by a driven roller 71 b that rotates at a predetermined timing in synchronization with the driven roller 71 and is in pressure contact with the driving roller 71 a.
[0065]
On the upstream and downstream sides of the registration roller pair 71 in the sheet conveyance direction, sheet feeding guide plates 136 and 137 for guiding the conveyance of the sheet P fed from the sheet feeding unit 4 to the printing unit 2 are arranged, respectively. Has been. The paper feed guide plates 136 and 137 are respectively fixed between side plates (not shown) of the apparatus main body 11.
[0066]
A plate discharging unit 5 is disposed on the upper left side of the printing unit 2. The plate discharging unit 5 includes an upper plate discharging member 74, a lower plate discharging member 75, a plate discharging box 76, a compression plate 77, and the like.
The upper plate removal member 74 has a drive roller 78, a driven roller 79, an endless belt 80, etc., and the drive roller 78 is rotationally driven in the clockwise direction in FIG. 1 by the plate discharge drive means 126 (see FIG. 16). The belt 80 moves in the direction of the arrow in FIG. The lower plate removing member 75 includes a driving roller 81, a driven roller 82, an endless belt 83, and the like, and transmits the driving force of the plate discharging driving means 126 that rotationally drives the driving roller 78 by a driving force transmitting means (not shown) such as a gear or a belt. As a result, the drive roller 81 is rotationally driven in the counterclockwise direction of FIG. 1, whereby the endless belt 83 moves in the direction of the arrow in FIG. The lower plate removing member 75 is movably provided by a moving means (not shown) included in the plate discharging driving means 126, and an endless belt 83 located on the outer peripheral surface of the driven roller 82 and the position shown in FIG. And a position that abuts on the outer peripheral surface.
[0067]
A plate removal box 76 for storing the used master 64 c therein is provided detachably with respect to the apparatus main body 11. A compression plate 77 for pushing the used master 64c carried by the upper plate removal member 74 and the lower plate removal member 75 into the plate release box 76 is supported by the apparatus main body 11 so as to be movable up and down, and is included in the plate discharge drive means 126. It is moved up and down by lifting means (not shown).
[0068]
A paper discharge unit 6 is disposed below the plate discharge unit 5. The paper discharge unit 6 includes a peeling claw 84, a paper discharge conveyance unit 85 as a paper conveyance member, an air knife 145, a paper discharge tray 86, and the like.
[0069]
A plurality of peeling claws 84 are arranged in the width direction of the plate cylinder 12 and are respectively attached to a common spindle that is swingably supported by the apparatus main body 11. The plurality of peeling claws 84 are integrally swung by a claw rocking means (not shown), and their tips are close to the peripheral surface of the plate cylinder 12 to avoid obstacles such as the clamper 19b. It selectively occupies the position where the tip is separated from the outer peripheral surface of the plate cylinder 12. The claw swinging means (not shown) transmits the driving force from the plate cylinder driving means 121 by the driving force transmission means (not shown), and swings the peeling claw 84 in synchronization with the rotation of the plate cylinder 12.
[0070]
As shown in FIGS. 10, 11, and 12, the paper discharge conveyance unit 85 disposed below the peeling claw 84 and to the left of the switching member 10 includes a base 56, a driving roller 87 as a rotating body, and A driven roller 88, an endless belt 89, a suction fan 90, an upper surface plate 141, a wall member 142, and the like are included.
[0071]
A base 56 made of a plate material having a U-shaped cross section is fixed to the apparatus main body 11 via a bracket (not shown), and a notch 56a is formed at the upstream end portion in the paper transport direction. A plurality (two in this embodiment) of roller-like drive rollers 87 are fixed to a drive shaft 87a rotatably supported via a bearing (not shown) on the downstream side of the sheet conveyance direction of both side plates of the base 56 at a predetermined interval. Each of them is integrally rotated by a paper discharge driving means 127 (see FIG. 16) connected to a driving gear 143 fixed to one end of the driving shaft 87a.
[0072]
The driven roller 88 is supported on a hollow pipe-shaped support shaft 144 whose one end is closed and rotatably supported on the upstream side of the both sides of the base 56 via a bearing (not shown) via a bearing (not shown). And is supported rotatably. The same number of driven rollers 88 as the driving rollers 87 are provided at equal intervals, and an endless belt 89 is wound around each driving roller 87 and each corresponding driven roller 88 corresponding thereto.
[0073]
An upper surface plate 141 and a wall member 142 are disposed between both side plates of the base 56. The top plate 141 formed in a plan view shape slightly smaller than the base 56 and having a length in the paper width direction larger than the width of the maximum size paper (A3 in this example) that can be printed by the double-sided printing apparatus 1 is: Each of the rollers 87 and 88 has four cutout portions that are exposed, and a plurality of through holes 141a are formed at portions corresponding to both side portions of each endless belt 89 spanned between the rollers 87 and 88. Each is formed. On the lower surface of the upper surface plate 141, an upper end portion of a wall member 142 having a box shape in which the upper surface and the lower surface are opened is attached. The lower end portion of the wall member 142 is attached to the base 56, and the height of the wall member 142 is set so that the upper surface of the upper surface plate 141 is slightly lower than each endless belt 89.
[0074]
A suction fan 90 is attached to the bottom surface of the base 56 and corresponding to the position where the wall member 142 is disposed. A hole 56b (see FIG. 11) is formed in the bottom surface of the base 56 corresponding to the position where the suction fan 90 is disposed. By the operation of the suction fan 90, a negative pressure is generated in the space inside the wall member 142. The sheet P is sucked onto the upper surface of the endless belt 89.
[0075]
The air knife 145 is disposed slightly upstream in the paper transport direction from the position where the paper discharge transport unit 85 is disposed, and guides the air flow toward the fan 145 a that generates the air flow and the tip of the peeling claw 84. And a duct 145b. The air knife 145 operates the fan 145 a to supply an air flow from the duct 145 b toward the tip of the peeling claw 84, and assists the peeling of the paper P from the outer peripheral surface of the plate cylinder 12.
[0076]
A paper discharge tray 86 on which the printed paper PB conveyed by the paper discharge conveyance unit 85 is stacked is provided with one end fence 91 movable in the paper conveyance direction and a pair of side fences movable in the paper width direction. 92.
[0077]
On the left side of the contact position between the plate cylinder 12 and the press roller 13, that is, on the downstream side of the printing unit 2 in the paper conveyance direction, a switching member 10 that switches the conveyance path of the paper P is disposed. As shown in FIGS. 10, 11, and 12, the switching member 10 includes a plurality of switching member main bodies 10a (three in this embodiment), guide members 10b that connect the switching member main bodies 10a, and both side portions. It has the guide member 10c provided in the outer side of each switching member main body 10a located.
[0078]
Each switching member main body 10a is arranged at equal intervals, and a base end portion located downstream in the paper transport direction is fixed to the support shaft 144. Each switching member main body 10a has a distal end portion 10d formed in an acute angle shape for facilitating the peeling of the paper P from the outer peripheral surface of the plate cylinder or the outer peripheral surface of the press roller, and is directed from the distal end portion 10d to the proximal end portion. And is formed in a shape inclined downward. Each switching member main body 10a is provided with a hole portion 10e as an air discharge port that communicates with the hollow portion of the support shaft 144 from the distal end portion 10d toward the proximal end portion.
[0079]
Each guide member 10b made of a thin plate member is fixed between the switching member main bodies 10a by a method such as adhesion. Each guide member 10c which is a thin plate-like member similar to the guide member 10b is also fixed to the outside of each switching member main body 10a located on both sides by a method such as adhesion. Each guide member 10b, 10c is formed with a plurality of holes 10f as passage ports for allowing the air flow from the air knife 145 to pass therethrough, and are attached so as to form the same plane. The switching member 10 is formed such that the length in the sheet width direction, that is, the length from the side end of one guide member 10c to the side end of the other guide member 10c is the same as the width of the upper surface plate 141. The positions of the upper surfaces of the guide members 10 b and 10 c are set to be lower than the upper surface position of each endless belt 89 and higher than the upper surface position of the upper surface plate 141.
[0080]
Further, the upper surface position of each switching member main body 10a is set to be about 1 to 2 mm higher than the upper surface positions of the respective guide members 10b and 10c. This minimizes ink smearing that occurs when undried ink comes into contact with the switching member 10 when the surface-printed paper PA is guided toward the paper discharge unit 6 by the switching member 10. This is to suppress.
[0081]
As shown in FIG. 13, one end of a swing arm 146 for swinging the switching member 10 is attached to one end of the support shaft 144. Near the other end of the swing arm 146, the other end of a tension spring 149 having one end fixed to the apparatus main body 11 is attached. The swing arm 146 rotates counterclockwise in FIG. A turning biasing force in the direction is applied.
[0082]
A stopper 150 is disposed below the other end of the swing arm 146 to restrict the swing arm 146 from rotating counterclockwise. A long hole 150a is formed in the stopper 150, and the stopper 150 is attached to the apparatus main body 11 by a set screw (not shown) so that its position can be adjusted.
[0083]
An adjustment plate 147 having a fan shape is attached to the swing arm 146 so as to be rotatable about a support shaft 147a. An elongated hole 147b is formed in the vicinity of the distal end of the adjustment plate 147 opposite to the base end supported by the support shaft 147a. The adjustment plate 147 is rocked by a set screw (not shown). It is attached to the moving arm 146 so that its position can be adjusted. Further, a cam follower 148 is rotatably supported in the middle of the adjustment plate 147.
[0084]
A cam 151 for swinging the swing arm 146 is disposed below the cam follower 148. The cam 151 is fixed to a cam shaft 151a that is rotatably supported by the apparatus main body 11, and the driving force from the plate cylinder driving unit 121 is transmitted by a driving force transmitting unit (not shown) such as a gear or a belt. The rotary drum is rotated in synchronization with the plate cylinder 12.
[0085]
With the above-described configuration, when the large diameter portion of the cam 151 is disengaged from the cam follower 148, the swing arm 146 is swung by the urging force of the tension spring 149, and the switching member 10 occupies the first position indicated by the solid line in FIG. When the large diameter portion of the cam 151 comes into contact with the cam follower 148, the switching member 13 occupies the second position indicated by a two-dot chain line in FIG. When the switching member 10 occupies the first position, the distance between the leading end 10d and the outer peripheral surface of the plate cylinder 12 can be adjusted by adjusting the position of the stopper 150, and the switching member 10 moves to the second position. When occupied, the distance between the tip 10d and the outer peripheral surface of the press roller 13 can be adjusted by adjusting the position of the adjusting plate 147. That is, the adjustment plate 147 and the stopper 150 each function as an interval adjustment unit.
[0086]
When the switching member 10 occupies the first position, the tip thereof is placed at a position close to the circumferential surface of the plate cylinder 12, and when the switching member 10 occupies the second position, the tip thereof is placed on the circumferential surface of the press roller 13. It is placed at a position that approaches and does not interfere with the clamper 19b on the plate cylinder 12. The surface-printed paper PA that has passed between the plate cylinder 12 and the press roller 13 passes between the lower inclined surface of each switching member main body 10a and the guide plate 27 when the switching member 10 occupies the first position. Passed and guided to the auxiliary tray 8, and when the switching member 10 occupies the second position, it passes through the upper part of the switching member 10 and is guided to the paper discharge conveyance unit 85.
[0087]
Further, in the vicinity of the stopper 150, the swinging of the swinging arm 146 is not shown in the state where the large diameter portion of the cam 151 is in contact with the cam follower 148, that is, the switching member 10 occupies the second position. Switching member locking means is provided.
[0088]
FIG. 14 shows air generating means 152 for generating air discharged from each hole 10e. The air generating means 152 includes a cylinder 153 having a piston 153a therein, an air hose 154 having one end connected to the air outlet 153b of the cylinder 153 and the other end connected to the other open end of the support shaft 144, plate cylinder driving A driving force from the means 121 is transmitted by a driving force transmission means (not shown) such as a gear or a belt, so that the disk 156 is driven to rotate in synchronization with the plate cylinder 12, and one end is attached to the periphery of the disk 156. The end is mainly composed of a link 157 and the like attached to the piston 153a.
[0089]
The air generating means 152 is configured to discharge air when the switching member 10 occupies the first position, and is a sheet on which an image has been transferred in contact with the plate cylinder 12 during a printing operation to be described later. The discharge air flow velocity is set to be a little faster than the tip end portion of P reaches the tip end portion 10d.
[0090]
An image reading unit 7 is disposed on the upper part of the apparatus main body 11. The image reading unit 7 includes a contact glass 93 on which a document is placed, a pressure plate 94 provided so as to be able to come in contact with and away from the contact glass 93, reflection mirrors 95, 96, 97, 98 for scanning and reading a document image, and a fluorescent lamp. 99, a lens 100 for focusing a scanned document image, an image sensor 101 such as a CCD for processing the focused image, a plurality of document size detection sensors 102 for detecting the size of the document, and an image for storing the read image data A document image reading operation is performed by the operation of the reading drive means 128 (see FIG. 16).
[0091]
As shown in FIG. 1, a dog 133 is attached to the outer surface of an end plate (not shown) constituting the plate cylinder 12, and a home position sensor 134 attached to the apparatus main body 11 near the periphery of the plate cylinder 12. Is arranged. The home position sensor 134 detects the dog 133 and outputs a signal to the control means 129 described later when the plate cylinder 12 occupies a position where the clamper 19 b faces the press roller 13.
[0092]
FIG. 15 shows the operation panel of the duplex printing apparatus 1. In the figure, an operation panel 103 provided on the upper front surface of the apparatus main body 11 has a plate making start key 104, a printing start key 105, a test printing key 106, a continuous key 107, a clear / stop key 108, a numeric key 109, an enter on the upper surface. Key 110, program key 111, mode clear key 112, printing speed setting key 113, four-direction key 114, paper size setting key 115, paper thickness setting key 116, duplex printing key 117, simplex printing key 118, 7 segment LED A display device 119, a display device 120 including an LCD, and the like are included.
[0093]
The plate making start key 104 is pressed when the duplex printing apparatus 1 performs the plate making operation. When the plate making start key 104 is pressed, the plate making operation is performed after the plate discharging operation and the document reading operation are performed. The operation is performed and the duplex printing apparatus 1 enters a print standby state. The print start key 105 is pressed when the double-sided printing apparatus 1 performs a printing operation. The printing operation is performed when the double-sided printing apparatus 1 is in a print standby state and various printing conditions are set and then the print start key 105 is pressed. Done. The trial printing key 106 is pressed when the duplex printing apparatus 1 performs a trial printing. When various conditions are set, the trial printing key 106 is pressed to print only one sheet. The continuous key 107 is pressed before pressing the plate-making start key 104 when performing the plate-making operation and the printing operation continuously. After pressing the continuous key 107, the plate-making start key 104 is pressed after the printing conditions are input. Then, the printing operation is performed following the plate discharging operation, the document reading operation, the plate making operation, and the plate making operation.
[0094]
The clear / stop key 108 is pressed when the operation of the duplex printing apparatus 1 is stopped or when the numerical value is cleared, and the numeric keypad 109 is used for numerical value input. The enter key 110 is pressed when setting a numerical value or the like at various settings, the program key 111 is pressed when registering or calling an operation that is often performed, and the mode clear key 112 is initialized by clearing various modes. Pressed when returning to the state. The printing speed setting key 113 is pressed when setting the printing speed prior to the printing operation, and when it is desired to obtain a darker image or when the ambient temperature is low, the printing speed is slowed down. If the ambient temperature is high, set the printing speed fast. The four-way key 114 has an up key 114a, a down key 114b, a left key 114c, and a right key 114d, and is pressed when adjusting the image position when editing an image or when selecting a value or item when making various settings. Is done.
[0095]
The paper size setting key 115 is pressed when an arbitrary paper size is input, and the paper size input with the paper size setting key 115 has priority over the paper size detected by the paper size detection sensor 73. The paper thickness setting key 116 is pressed when inputting the thickness of the paper P prior to double-sided printing, and selects one of three types of “plain paper”, “thin paper”, and “thick paper” in this embodiment. It has a configuration.
[0096]
The duplex printing key 117 is pressed before the plate making start key 104 is pressed when the duplex printing apparatus 1 performs the duplex printing operation. When the duplex printing key 117 is pressed, the LED 117a arranged in the vicinity thereof is lit and the operator is turned on. Is displayed in double-sided printing mode. Further, when the duplex printing key 117 is pressed, the input of the plate making start key 104 is rejected only after the thickness of the paper P to be used is input by the paper thickness setting key 116. Similarly to the double-sided printing key 117, the single-sided printing key 118 is pressed before the start key 104 is pressed when the double-sided printing apparatus 1 performs the single-sided printing operation, and is arranged in the vicinity when the single-sided printing key 118 is pressed. The LED 118a is turned on to indicate to the operator that the printer is in the single-sided printing mode. In the duplex printing apparatus 1, the LED 118a is lit in the initial state, and the single-sided printing mode is set.
[0097]
A display device 119 composed of a 7-segment LED mainly displays numbers such as the number of printed sheets. The display device 120 made up of an LCD has a hierarchical display structure. By pressing the selection setting keys 120a, 120b, 120c, and 120d provided below the display device 120, changing to various modes such as scaling and position adjustment is performed. In addition, the setting in each mode is possible. Further, the display device 120 displays the state of the duplex printing apparatus 1 such as “can be made / printed” as shown in the figure, an alarm such as a plate making or discharge jam, a paper feed or paper discharge jam, and a printing paper. In addition, a supply instruction of a supply such as a master and ink is also displayed.
[0098]
FIG. 16 shows a block diagram of control means used in the duplex printing apparatus 1. In the figure, the control means 129 is a known microcomputer having a CPU 130, ROM 131, and RAM 132 therein, and is provided inside the apparatus main body 11.
[0099]
The CPU 130 is based on various signals from the operation panel 103, detection signals from various sensors provided in the apparatus main body 11, and an operation program called from the ROM 131, the printing unit 2, the plate making unit 3, the paper feeding unit 4, and the discharge plate. Operation of the drive unit provided in the unit 5, the paper discharge unit 6 and the image reading unit 7, the solenoid 33 provided in the refeed unit 9, and the transport unit drive motor 122 are controlled to operate the entire duplex printing apparatus 1. To control. The ROM 131 stores an operation program for the entire duplex printing apparatus 1, and this operation program is appropriately called by the CPU 130. The RAM 132 has a function of temporarily storing calculation results of the CPU 130, a function of storing data signals and on / off signals set and input from various keys and various sensors on the operation panel 103 as needed. The control unit 129 also grasps the position of the plate cylinder 12 based on a home position signal from the home position sensor 134 and a signal from an encoder (not shown) provided in the plate cylinder driving unit 121.
[0100]
Based on the above configuration, the operation of the duplex printing apparatus 1 will be described below.
The operator loads the paper P to be used for printing on the paper feed tray 67, opens the pressure plate 94 and places a document to be printed on the contact glass 93, and then closes the pressure plate 94 again. Thereafter, after setting the plate making conditions with various keys on the operation panel 103, the duplex printing key 117 or the simplex printing key 118 is pressed to set the printing mode, and the plate making start key 104 is pressed. First, a case where the simplex printing key 118 is pressed to perform simplex printing will be described.
[0101]
The operator confirms the single-sided printing mode by turning on the LED 118a, and then presses the plate making start key 104. When the plate making start key 104 is pressed, a paper size detection signal is sent from the paper size detection sensor 73 and a document size detection signal is sent from the document size detection sensor 102 to the control means 129. Compare each signal. At this time, if the paper size and the document size are the same, the image reading operation is immediately performed. If the paper size and the document size are different, the control unit 129 displays the fact on the display device 120 and pays attention to the operator. Prompt. When the paper size and the document size are different, enlargement or reduction may be automatically performed by a command from the control unit 129 so that the document size and the image size are matched.
[0102]
When the plate making start key 104 is pressed, the image reading unit 7 performs a document image reading operation. Reading of the document image is performed by reflecting the reflected light exposed by the fluorescent lamp 99 by each of the reflection mirrors 95, 96, 97, and 98. The read document image is focused by the lens 100 and then image sensor 101. And is photoelectrically converted. The photoelectrically converted electrical signal is input to an A / D converter (not shown) in the apparatus main body 11 and then stored in the image memory 135 as an image data signal.
[0103]
In parallel with the image reading operation in the image reading unit 7, the plate discharging unit 5 performs a plate discharging operation for peeling the used master 64 c from the outer peripheral surface of the plate cylinder 12. When the plate making start key 104 is pressed, the plate cylinder 12 starts to rotate, and when the plate cylinder 12 reaches the home position shown in FIG. A home position signal is sent to. Upon receiving the home position signal, the control means 129 measures the number of pulses generated by an encoder (not shown) based on this home position, and the tip of the used master 64c wound around the outer peripheral surface of the plate cylinder 12 is the driven roller 82. When it is determined that a predetermined plate discharging position corresponding to the endless belt 83 located on the outer peripheral surface of the plate cylinder has been reached, the operation of the plate cylinder driving means 121 is stopped.
[0104]
When the plate cylinder driving unit 121 is stopped and the plate cylinder 12 is stopped at a predetermined plate discharging position, the plate cylinder driving unit 121 and the plate discharging driving unit 126 are operated to rotate and drive the respective driving rollers 78 and 81 and the lower plate discharging member. 75 moves to the plate cylinder 12 side, and the endless belt 83 located on the outer peripheral surface of the driven roller 82 contacts the used master 64c on the plate cylinder 12. The used master 64 c is scooped up from the outer peripheral surface of the plate cylinder 12 by the rotation of the plate cylinder 12 and the movement of the endless belt 83, and is nipped and conveyed by the lower plate discharging member 75 and the upper plate discharging member 74 to be outer peripheral surface of the plate cylinder 12. More peeled. The used master 64 c that has been peeled off is discarded in the discharge box 76 and then compressed by the compression plate 77.
[0105]
The plate cylinder 12 continues to rotate even after all the used masters 64c are peeled off from the outer peripheral surface, and the clamper 19b rotates to a predetermined plate supply standby position that is located almost directly to the right and stops. When the plate cylinder 12 stops at the plate feeding standby position, an opening / closing means (not shown) is operated to open the clamper 19b, and the duplex printing apparatus 1 enters a plate feeding standby state.
[0106]
In parallel with the plate removal operation, the plate making unit 3 performs the plate making operation. When the plate making start key 104 is pressed, the platen roller 58, the tension roller pair 62, and the reverse roller pair 63 are driven to rotate, and the master 64 is pulled out from the master roll 64a. At this time, a movable master guide plate (not shown) is positioned at the transport position. When the master 64 is pulled out and the image forming area reaches a position corresponding to the heat generating element of the thermal head 59, the image data signal stored in the image memory 135 is called after image processing is performed, not shown. The thermal head driver selectively heats each heating element of the thermal head 59, whereby the third plate-making image 66A is formed on the thermoplastic resin film surface of the master 64. When the master 64 is conveyed while being made and its tip is sandwiched between the reverse roller pair 63, a movable master guide plate (not shown) is moved to the retracted position and the rotation of the reverse roller pair 63 is stopped.
[0107]
The platen roller 58 and the tension roller pair 62 continue to rotate even after the rotation of the reversing roller pair 63 is stopped, and the plate-making master 66 made by the thermal head 59 is stored in the master stock unit 61. When the pair of reversing rollers 63 is stopped, a suction fan (not shown) provided in the master stock unit 61 is operated, and the pre-made master 66 is stored in the master stock unit 61 well by being sucked by a suction fan (not shown). Is done.
[0108]
During the above-described plate making operation, when the plate discharging operation is completed and the duplex printing apparatus 1 enters the plate feed standby state, the plate making master 66 stored in the master stock unit 61 is rotated by the reversing roller pair 63 being rotated. It is transported between the part 19a and the opened clamper 19b. When the leading end of the master 66 has been transported to a predetermined position where it can be clamped by the clamper 19b, an opening / closing means (not shown) is actuated to close the clamper 19b. The master 66 has its leading end moved to the stage 19a. And the clamper 19b are held on the outer peripheral surface of the plate cylinder 12.
[0109]
Thereafter, the plate cylinder 12 is intermittently rotated clockwise in FIG. 1, and the winding operation of the plate-making master 66 around the plate cylinder 12 is performed. At this time, the reversing roller pair 63 stops rotating, and the driving roller 63a is rotated along with the drawing-out master 66 being pulled out by a one-way clutch (not shown) provided therein. Then, when the image data signal from the image memory 135 is interrupted, the operation of the thermal head 59 is stopped, and the plate-making master 66 for one plate is conveyed by plate-making by the number of steps of a stepping motor (not shown) that rotationally drives the platen roller 58. When the determination is made, the rotation of the platen roller 58, the tension roller pair 62, and the reverse roller pair 63 is stopped, and the cutting means 60 is operated to cut the pre-made master 66. The cut master 66 that has been cut is pulled out from the plate making unit 3 by the rotation of the plate cylinder 12, and the plate cylinder 12 rotates to the home position and stops, thereby completing the plate making operation and the plate feeding operation.
[0110]
The printing operation is performed following the plate feeding operation. When the plate cylinder 12 stops at the home position, a press roller locking means (not shown) is operated to hold the press roller 13 at the separated position. Thereafter, the stepping motor 52 is actuated to rotate the step cam 49 and bring the cam portion 49b into contact with the cam follower 48c. As a result, the moving arm 48 is swung around the support shaft 48a, and the cam shaft 44 is moved to a position where the cam plate 43A can be brought into contact with the cam follower 41. After the cam shaft 44 is moved, the operation of the press roller locking means (not shown) is released, and the holding state of the press roller 13 is released. When the plate cylinder 12 is rotated during the plate feeding operation, a switching member locking means (not shown) is operated, and the switching member 10 is held in the second position.
[0111]
Thereafter, the paper feed roller 68, the separation roller 69, the drive roller 87, and the suction fan 90 are driven, and the plate cylinder 12 is driven to rotate in the clockwise direction in FIG. The uppermost sheet of the paper P is pulled out and the leading end is sandwiched between the registration roller pair 71. Then, the drive roller 71a is driven at a predetermined timing when the leading end of the image area of the third plate-making image 66A in the plate cylinder rotation direction of the plate-making master 66 wound on the plate cylinder 12 reaches a position corresponding to the press roller 13. The paper P that is driven to rotate and pulled out is fed between the plate cylinder 12 and the press roller 13.
[0112]
In synchronization with the rotation of the plate cylinder 12, the press roller contacting / separating mechanism 55 rotates the cam shaft 44 and the multistage cam 43 provided integrally therewith, and can come into contact with the cam follower 41 as described above. The cam plate 43A moved to the position disengages the convex portion from the cam follower 41 at the predetermined timing. As a result, the press roller 13 has its peripheral surface brought into pressure contact with the outer peripheral surface of the plate cylinder 12 by the urging force of the printing spring 42, and the sheet P fed by the registration roller pair 71 is wound around the plate cylinder 12. Pressed by the master 66. By this pressing operation, the press roller 13, the paper P, the master plate master 66, and the plate cylinder 12 are pressed against each other, and the ink supplied to the inner peripheral surface of the plate cylinder 12 by the ink roller 16 oozes out from the opening of the plate cylinder 12. A perforated portion of the master 66 after being filled in a porous support plate (not shown) and a mesh screen (not shown) constituting the plate cylinder 12 and a porous support of the master master 66 wound around the plate cylinder 12. Then, it is transferred to the paper P and so-called printing is performed.
[0113]
The paper P on which an image corresponding to the third plate-making image 66A is printed by printing is guided to the paper discharge transport unit 85 by the switching member 10 that has become the printed paper PB and occupies the first position. The peeling claw 84 peels from the plate-making master 66 on the outer peripheral surface of the plate cylinder from the tip. The peeled printed paper PB falls downward and is received by the paper discharge transport unit 85, and is transported to the left while being attracted to the upper surface of the endless belt 89 by the suction force of the suction fan 90 and is discharged to the paper discharge tray 86. Discharged to the top. Thereafter, the plate cylinder 12 is rotated again to the home position and stopped, and the plate printing operation is finished, and the duplex printing apparatus 1 enters a print standby state.
[0114]
After the duplex printing apparatus 1 is in a print standby state, a test print is performed when the test print key 106 is pressed after inputting print conditions using the print speed setting key 113 and various keys on the operation panel 103. When the trial printing key 106 is pressed, the plate cylinder 12 is rotationally driven at a peripheral speed corresponding to the set printing speed, and one sheet P is fed from the paper feeding unit 4. The fed paper P is temporarily stopped by the registration roller pair 71 and then fed at the same timing as that for printing. The press roller 13 is pressed against the plate-making master 66 on the outer peripheral surface of the plate cylinder. The printed paper PB on which the image has been printed is guided to the paper discharge unit 6 by the switching member 10, and then peeled off from the plate-making master 66 on the outer peripheral surface of the plate cylinder by the peeling claw 84 and transported by the paper transport unit 85. Then, the paper is discharged onto the paper discharge tray 86.
[0115]
When the position or density of the image is confirmed by the trial printing and the print start key 105 is pressed after the number of prints is input by the ten key 109, the paper P is continuously fed from the paper feeding unit 4 and the trial printing is performed. The printing operation is performed under the same conditions. When the set number of prints is consumed, the plate cylinder 12 stops at the home position, and the duplex printing apparatus 1 enters the print standby state again.
[0116]
Next, a case where duplex printing is performed by pressing the duplex printing key 117 will be described. The operator confirms that the duplex printing mode is in effect by turning on the LED 117a, and then presses the paper thickness setting key 116 to set the thickness of the paper P to be used. In this duplex printing mode, if the paper thickness setting key 116 is not pressed, the input of the plate making start key 104 is rejected. If the plate making start key 104 is pressed without pressing the paper thickness setting key 116, the control is performed. The means 129 causes the display device 120 to display an indication that the sheet thickness should be set.
[0117]
In this embodiment, when the thickness of the paper P set by the paper thickness setting key 116 is “plain paper” or “thin paper”, the input of the plate making start key 104 is permitted and “thick paper” is set. In order to prevent the paper P from being jammed, the input of the plate making start key 104 is rejected, and the control means 129 displays a warning to the effect that the correct paper should be set on the display device 120.
[0118]
When the sheet P, which is “plain paper” or “thin paper”, is set on the sheet feed tray 67 and the sheet thickness based on the sheet P is set by the sheet thickness setting key 116, the plate making start key 104 is pressed. As in the case of single-sided printing, a paper size detection signal and a document size detection signal are sent from the sensors 73 and 102 to the control unit 129, and the control unit 129 compares the input signals.
[0119]
In the present embodiment, since the maximum paper size that can be printed by the plate cylinder 12 is A3 size, the paper size that can be used in duplex printing is up to A4 landscape orientation. As a result of comparing the document size and the paper size, if both sizes are the same, the image reading operation is immediately performed. If the two sizes are different, the control unit 129 displays a message to that effect on the display device 120 as a warning. Call attention to the operator. When the paper size and the document size are different, a configuration in which enlargement or reduction is automatically performed according to a command from the control unit 129 to match the document size and the image size, and the display device 120 is configured to reduce or reduce the size of the image data. It is good also as a structure which displays the procedure, such as rotation, and assists an operator's operation. When the paper size exceeds A4 landscape, the control unit 129 may display on the display device 120 a message that prohibits double-sided printing and prompts single-sided printing.
[0120]
When the plate making start key 104 is pressed, the image reading unit 7 reads the first original image as in the case of single-sided printing. The read document image is stored in the image memory 135 as the first image data signal. When the reading operation of the first original is completed and the image data signal is stored in the image memory 135, the control means 129 displays that the second original should be set on the display device 120. Make it. The operator opens the pressure plate 94 in accordance with this display, removes the first original from the contact glass 93, places the second original, and closes the pressure plate 94 again. When a sensor (not shown) detects that the pressure plate 94 is closed and another sensor (not shown) detects that there is a document on the contact glass 93, the reading operation of the second document is performed in the same manner as the first sheet. Is called. The read document image is stored in the image memory 135 as a second image data signal.
[0121]
In this embodiment, the document reading operation in the single-sided printing mode and the double-sided printing mode is configured such that the operator sets the document to be read on the contact glass 93 by opening and closing the pressure plate 94, but using the ADF. A configuration in which an original is automatically conveyed onto the contact glass 93 or a configuration in which image data is taken in from an external device (not shown) may be employed. Further, in the duplex printing mode, one original may be reversed and conveyed, and image data for two sheets may be acquired from the front and back surfaces.
[0122]
In parallel with the image reading operation in the image reading unit 7, the plate discharging unit 5 performs the plate discharging operation as in the case of single-sided printing. The plate cylinder 12 from which the used master 64c has been peeled off from the outer peripheral surface stops at the plate supply standby position, and the clamper 19b is opened by an opening / closing means (not shown). In parallel with this plate removal operation, the plate making unit 3 performs a plate making operation. The plate making operation is performed in the same procedure as in the single-sided printing mode, but the first plate making image 65A and the second plate making image 65B are formed on the surface of the thermoplastic resin film of the master 64. At this time, the images 65A and 65B are made so that a predetermined blank portion S is provided between the first plate making image 65A and the second plate making image 65B as shown in FIG. The predetermined blank portion S is provided at a position corresponding to the intermediate region shown in FIG. 1 when the divided plate-making master 65 is wound on the outer peripheral surface of the plate cylinder 12.
[0123]
The divided master-making master 65 on which the images 65A and 65B are formed is stored in the master stock unit 61. When the plate discharging operation is completed and the duplex printing apparatus 1 is in the plate-feed standby state, the reversing roller pair 63 is operated to divide. The master-making master 65 is transported between the stage portion 19a and the open clamper 19b. Thereafter, the plate cylinder 12 is intermittently rotated in the same manner as in the single-sided printing mode, so that the divided plate-making master 65 is wound around the plate cylinder 12. When all the two pieces of image data are sent from the image memory 135, the cutting means 60 is activated and the divided master-making master 65 is cut. The cut master plate 65 is pulled out of the plate making unit 3 by the rotation of the plate cylinder 12, and the plate cylinder 12 is stopped at the home position to complete the plate making operation and the plate feeding operation. When the plate cylinder 12 rotates during the plate feeding operation, the operation of the switching member locking means (not shown) is released, and when the plate cylinder 12 occupies the home position, the large diameter portion of the cam 151 is in contact with the cam follower 148. Therefore, the switching member 10 occupies the second position.
[0124]
The printing operation is performed following the plate feeding operation. When the plate cylinder 12 stops at the home position, the stepping motor 52 is actuated to rotate the step cam 49 and the press roller locking means (not shown) is actuated, so that the cam portion 49a abuts the cam follower 48c. As a result, the movable arm 48 swings about the support shaft 48a and the cam shaft 44 moves to a position where the cam plate 43B can come into contact with the cam follower 41. Canceled.
[0125]
Thereafter, the paper feed roller 68, the separation roller 69, the drive rollers 36 and 87, and the suction fans 39 and 90 are respectively driven, and the plate cylinder 12 is rotationally driven in the clockwise direction in FIG. 67 The first sheet P is pulled out from above 67 and the leading end thereof is held between the registration roller pair 71. When the clamper 19b passes the position corresponding to the switching member 10, the large diameter portion of the cam 151 is separated from the cam follower 148, and the switching member 10 occupies the first position, and is then wound on the plate cylinder 12. One sheet pulled out by the driving roller 71a rotating at a predetermined timing when the leading edge of the image area of the first plate-making image 65A in the plate cylinder rotation direction of the divided plate-making master 65 reaches the position corresponding to the press roller 13. The eye paper P is fed toward the space between the plate cylinder 12 and the press roller 13.
[0126]
The cam plate 43B moved to a position where it can come into contact with the cam follower 41 at the predetermined timing disengages its convex portion from the cam follower 41, and the press roller 13 presses the peripheral surface by the biasing force of the printing spring 42. Press contact with the outer peripheral surface of the body 12. As a result, one surface of the press roller 13 and the first sheet P, the first plate-making image 65A forming portion of the divided plate-making master 65, and the plate cylinder 12 are pressed against each other, and the inner peripheral surface of the plate cylinder 12 by the ink roller 16 The ink supplied to the plate cylinder oozes out from the opening of the plate cylinder 12 and fills the porous support plate (not shown) and mesh screen (not shown) wound around the plate cylinder 12 and the porous support body of the divided master plate master 65. After that, the first plate making image 65A is transferred to one surface of the first sheet P through the punching portion, and the portion of the divided plate making master 65 where the first plate making image 65A is formed is printed. Done.
[0127]
An image corresponding to the first plate-making image 65A is printed on one side by printing, and the first sheet P which becomes the surface-printed sheet PA is formed by the tip of the switching member 10 occupying the first position. While being peeled off from the divided master plate master 65 on the outer peripheral surface of the plate cylinder from one end, it is guided to the refeeding means 9. At this time, air is discharged from the hole 10 e, and the air is sent between the leading edge margin of the paper P and the outer peripheral surface of the plate cylinder 12, thereby peeling the paper P from the outer peripheral surface of the plate cylinder 12. Done well.
[0128]
The surface-printed paper PA guided downward by the switching member 10 passes between the lower slope portion of the switching member main body 10a and the guide plate 27 and occupies the first position as shown in FIG. One end of the receiving plate 40 is brought into contact with the receiving plate 40. Then, the sheet receiving plate 40 that moves in synchronization with the rotation of the plate cylinder 12 and the press roller 13 that rotates in contact with the plate cylinder 12 occupies the second position shown in FIG. The other end is brought into contact with the auxiliary tray 8.
[0129]
The other end of the surface-printed paper PA in contact with the auxiliary tray 8 is conveyed in the direction of the arrow in FIG. 1 while being held by the endless belt 38 by the suction force of the suction fan 39, and comes into contact with the refeed positioning member 24. At this time, the sensor 8c detects the other end of the surface-printed paper PA, and a detection signal from the sensor 8c is output to the control unit 129, so that a command is sent from the control unit 129 and the drive roller 36 and the suction unit are sucked. The operation of the fan 39 is stopped.
[0130]
The plate cylinder 12 continues to rotate while the first sheet P is being guided on the auxiliary tray 8, and when the press roller 13 finishes contacting the surface area of the plate cylinder 12, the cam follower 41 is moved to the cam plate. It occupies a separated position by climbing on the convex part of 43B. Due to the function of the cam plate 43B, the back surface region of the plate cylinder 12 and the press roller 13 are not in pressure contact with each other in the absence of the paper P, and ink transfer to the peripheral surface of the press roller 13 can be prevented. At this time, a press roller locking means (not shown) is operated to hold the press roller 13 at the separated position, and then the stepping motor 52 is operated to rotate the step cam 49 to bring the cam portion 49b into contact with the cam follower 48c. As a result, the moving arm 48 swings about the support shaft 48a, and the cam shaft 44 is moved to a position where the cam plate 43A can be brought into contact with the cam follower 41.
[0131]
At the same time as the above operation, the paper feed roller 68 and the separation roller 69 rotate, the second paper P is drawn from the paper feed tray 67, and the leading end thereof is sandwiched between the registration roller pair 71. Then, the driving roller 71 a rotates at a predetermined timing similar to that described above, and the drawn second sheet P is fed between the plate cylinder 12 and the press roller 13.
[0132]
On the other hand, in the press roller contact / separation mechanism 55, when the cam shaft 44 rotates to a position where the convex portion of the moved cam plate 43A can come into contact with the cam follower 41, the operation of the press roller locking means (not shown) is released. At this time, the plate cylinder 12 rotating in synchronization with the camshaft 44 occupies a position where the non-opening portion which is a portion other than the front surface region, the back surface region, and the intermediate region faces the press roller 13. Further, immediately before the surface area of the plate cylinder 12 finishes passing through the portion facing the press roller 13, the large diameter portion of the cam 151 contacts the cam follower 148, and the switching member 10 moves from the first position to the second position. While being displaced, a switching member locking means (not shown) is operated.
[0133]
At a predetermined timing when the second sheet P is fed by the registration roller pair 71, the convex portion of the cam plate 43 </ b> A is detached from the cam follower 41, so that the press roller 13 is rotated by the biasing force of the printing pressure spring 42. The surface is brought into pressure contact with the outer peripheral surface of the plate cylinder 12. As a result, the press roller 13 and one surface of the second sheet P are brought into pressure contact with the first plate-making image 65 A forming portion of the divided plate-making master 65 and the plate cylinder 12, and the inner peripheral surface of the plate cylinder 12 by the ink roller 16. Is transferred to one surface of the second sheet P through the opening of the plate cylinder 12, a porous support plate (not shown), a mesh screen (not shown), and a perforated portion of the first platemaking image 65A. .
[0134]
An image corresponding to the first plate-making image 65A is printed on one surface thereof, and the second sheet P which has become the printed sheet PB is sent to the sheet discharge conveyance unit 85 by the switching member 10 occupying the second position. Is peeled off from one end of the divided plate-making master 65 on the outer peripheral surface of the plate cylinder by the peeling claw 84. The peeled printed paper PB falls downward, is transported to the paper discharge transport unit 85, and is discharged onto the paper discharge tray 86.
[0135]
After the second sheet P is fed by the registration roller pair 71, the leading end of the image area of the second plate-making image 65 B in the plate cylinder rotation direction of the divided plate-making master 65 reaches a position corresponding to the press roller 13. The solenoid 33 is actuated at a predetermined timing which is slightly earlier than that, and the swing arm 32 is swung in the clockwise direction in FIG. 2 about the support shaft 32a. As a result, the re-feed registration roller 23 is swung from the separation position to the press-contact position, and the front-side printed paper PA that has been stopped with the other end in contact with the re-feed positioning member 24 contacts the plate cylinder 12. It is in contact with the peripheral surface of the press roller 13 that is in contact with and is rotated.
[0136]
The surface-printed paper PA brought into contact with the peripheral surface of the press roller 13 by the re-feeding registration roller 23 is conveyed to the downstream side in the rotational direction by the rotational force of the press roller 13, and the paper guide plate 31 and each roller 28. , 29 and 30 are conveyed toward the contact portion with the plate cylinder 12 while being in close contact with the peripheral surface of the press roller 13. At this time, an image corresponding to the first plate-making image 65A is printed on one surface of the front-side printed paper PA, but the front-side printed paper PA is rotated around the press roller 13 by the function of the refeed guide member 22. Since it is in close contact with the surface, the surface-printed paper PA once in contact with the peripheral surface of the press roller 13 is not displaced, and the occurrence of problems such as rubbing dirt or thickening of the image line is prevented. Then, after the rear end and the intermediate area of the second sheet P pass through the position corresponding to the press roller 13, the front surface printed sheet PA is reached at the timing when the leading end of the back area reaches the position corresponding to the press roller 13. Is fed into the contact portion between the plate cylinder 12 and the press roller 13.
[0137]
As a result, the press roller 13 and the other surface of the surface-printed paper PA, the second plate-making image 65B forming portion of the divided plate-making master 65, and the plate cylinder 12 are pressed against each other, and the ink roller 16 is brought into contact with the inner peripheral surface of the plate cylinder 12. The supplied ink is transferred to the other surface of the surface-printed paper PA through the opening of the plate cylinder 12, a porous support plate (not shown), a mesh screen (not shown), and a perforated portion of the second plate-making image 65B, and divided plate-making. The part of the completed master 65 where the second plate-making image 65B is formed is printed.
[0138]
An image corresponding to the first plate-making image 65A is printed on one side, and an image corresponding to the second plate-making image 65B is printed on the other side. The switching member 10 occupying the position guides it to the paper discharge conveyance unit 85 and peels it from the one end of the divided plate-making master 65 on the outer peripheral surface of the plate cylinder by the peeling claw 84. The peeled printed paper PB falls downward, is transported by the paper discharge transport unit 85, and is discharged onto the paper discharge tray 86. Thus, the plate-making operation of the divided plate-making master 65 is completed, and the duplex printing apparatus 1 is in a print standby state.
[0139]
After the duplex printing apparatus 1 enters the print standby state, when the test printing key 106 is pressed after inputting the printing conditions using the printing speed setting key 113 and various keys on the operation panel 103, the trial printing is performed. Even when the trial printing key 106 is pressed, the control means 129 displays a message to the effect that the paper thickness should be set on the display device 120. When “thick paper” is set, the input of the trial printing key 106 is performed. And a warning that the correct paper should be set is displayed on the display device 120.
[0140]
When the trial printing key 106 is pressed, the plate cylinder 12 is rotationally driven at a printing speed set after the cam shaft 44 is moved to a position where the cam plate 43B can come into contact with the cam follower 41 as in the case of printing. In addition, the switching member 10 occupies the first position as in the case of printing. After rotation of the plate cylinder 12 is started, the first sheet P is fed from the sheet feeding unit 4, and the fed first sheet P is temporarily stopped by the registration roller pair 71 and is the same as that at the time of printing. The sheet is fed at the timing and is pressed against the first plate-making image 65A of the divided plate-making master 65 by the press roller 13.
[0141]
An image corresponding to the first plate-making image 65A is printed on one side of the first sheet P, which has become a surface-printed sheet PA, on the outer peripheral surface of the plate cylinder by the switching member 10 occupying the first position. It is guided onto the sheet receiving plate 40 occupying the first position while being peeled off better than the divided master-making master 65. The surface-printed paper PA conveyed on the paper receiving plate 40 is brought into contact with the end fence 8a by moving the paper receiving plate 40 to the second position and the other end on the endless belt 38. The other end is held in contact with the refeed positioning member 24 while being held on the endless belt 38 by the suction force of the suction fan 39.
[0142]
Thereafter, a press roller locking means (not shown) is actuated to hold the press roller 13 in the separated position, and the cam cam 44 is moved to a position where the step cam 49 rotates and the cam plate 43A can be brought into contact with the cam follower 41. After the movement, the operation of the press roller locking means (not shown) is released. The switching member 10 is displaced from the first position to the second position immediately before the surface area of the plate cylinder 12 has passed through the portion facing the press roller 13, and the second is operated by the switching member locking means (not shown). It is held at the position. At the same time as this operation, the second sheet P is fed from the sheet feeding unit 4, and the fed second sheet P is temporarily stopped by the registration roller pair 71 and then the first sheet. The paper is fed toward the printing unit 2 at the same timing as P.
[0143]
The fed second sheet P is pressed against the first plate-making image 65A of the divided plate-making master 65 by the oscillating press roller 13, and an image corresponding to the first plate-making image 65A is printed on one surface. Then, the second sheet P that has become the printed sheet PB is guided to the sheet discharge conveyance unit 85 by the switching member 10 that occupies the second position. The printed paper PB is peeled off from the divided master-making master 65 by the peeling claw 84, falls downward, is transported by the paper discharge transport unit 85, and is discharged onto the paper discharge tray 86.
[0144]
After the second sheet P is fed by the registration roller pair 71, the solenoid 33 is actuated at the same timing as that at the time of printing, and the re-feeding registration roller 23 is displaced from the separation position to the press-contact position, so that the auxiliary tray 8, the surface-printed paper PA that has been temporarily stopped is brought into contact with the peripheral surface of the rotating press roller 13. The surface-printed paper PA is conveyed by the rotational force of the press roller 13 that is driven to rotate by contacting the plate cylinder 12, and the printing unit is in close contact with the peripheral surface of the press roller 13 by the refeed guide member 22. 2 is conveyed.
[0145]
The conveyed surface-printed paper PA is pressed against the second plate-making image 65B of the divided plate-making master 65 by the oscillating press roller 13, and the image corresponding to the second plate-making image 65B is transferred to the other surface. The first sheet P, which has been printed on both sides with images corresponding to the plate-making images 65A and 65B to become the printed sheet PB, is guided to the sheet discharge conveyance unit 85 by the switching member 10 occupying the second position. Is done. After that, the printed paper PB is peeled off from the divided master-making master 65 by the peeling claw 84, and the printed paper PB which has been peeled off is transported by the paper discharge transport unit 85 and discharged onto the paper discharge tray 86, so that the test printing is performed. Is completed.
[0146]
When the position or density of the image is confirmed by trial printing and the print start key 105 is pressed after the number of prints is input by the ten key 109, a printing operation is performed. Even when the print start key 105 is pressed, the control means 129 displays a message to the effect that the paper thickness should be set on the display device 120. If “thick paper” is set, the print start key 105 is input. And a warning that the correct paper should be set is displayed on the display device 120. In the present embodiment, a case where N sheets are input as the number of prints will be described.
[0147]
When the print start key 105 is pressed, the set printing is performed after the cam shaft 44 is moved to a position where the cam plate 43B can come into contact with the cam follower 41, as in the case of printing and test printing. The plate cylinder 12 is rotationally driven at a peripheral speed corresponding to the speed, and the switching member 10 occupies the first position. After the plate cylinder 12 starts rotating, the first sheet P is fed from the sheet feeding unit 4, and the fed first sheet P is temporarily stopped by the registration roller pair 71 and then at the same timing as the trial printing. It is sent by. The first sheet P is pressed against the first plate-making image 65A of the divided plate-making master 65 by the press roller 13, and an image corresponding to the first plate-making image 65A is printed on one surface of the first sheet P. The surface printed paper PA.
[0148]
The surface-printed paper PA is guided by the switching member 10 occupying the first position while being better peeled off from the outer peripheral surface of the plate cylinder 12, and one end of the paper PA is placed on the paper receiving plate 40 occupying the first position. Make contact. The sheet receiving plate 40 occupies the second position, so that the surface-printed sheet PA has one end abutting on the end fence 8 a and the other end contacting the auxiliary tray 8. The surface-printed paper PA conveyed by the endless belts 38 on the auxiliary tray 8 is stopped with the other end in contact with the refeed positioning member 24.
[0149]
After that, the press roller locking means (not shown) is actuated to hold the press roller 13 in the separated position, and the cam shaft 44 is moved to a position where the cam plate 43A can come into contact with the cam follower 41. The operation of the press roller locking means is released. Also, almost simultaneously with this operation, the second sheet P is fed from the sheet feeding unit 4 and the second sheet P is temporarily stopped by the registration roller pair 71 and then at the same timing as the first sheet P. It is fed toward the printing unit 2. The switching member 10 occupies the second position in order to avoid a collision with the clamper 19b, and then occupies the first position again after passing the clamper 19b.
[0150]
The fed second sheet P is pressed against the first plate-making image 65A of the divided plate-making master 65 by the press roller 13, and an image corresponding to the first plate-making image 65A is printed on one side of the second sheet P. After the surface-printed paper PA is obtained, it is guided to be peeled off by the switching member 10 occupying the first position, and is conveyed onto the auxiliary tray 8 via the paper receiving plate 40 occupying the first position. At this time, the solenoid 33 is operated at the same timing as the trial printing, and the first surface-printed paper PA stopped on the auxiliary tray 8 is conveyed to the printing unit 2 by the rotational force of the press roller 13.
[0151]
When the second front surface printed paper PA is conveyed to the auxiliary tray 8, one end of the second front surface printed paper PA becomes one end of the first front surface printed paper PA by the function of the paper receiving plate 40. Of the second surface-printed paper PA, which is generated when the front-side paper PA are in contact with each other. It is possible to prevent the occurrence of rubbing stains on one end side of the surface-printed paper PA.
[0152]
At this time, one end of the second front surface printed paper PA must be conveyed leftward in FIG. 4, but when there is no paper receiving plate 40, the second front surface printed paper PA. 4 is in contact with one end of the first surface-printed paper PA conveyed toward the right in FIG. 4, and the adhesive strength of the ink on the first surface-printed paper PA and the right side of FIG. The conveyance force to the left of the second surface printed paper PA in the figure is canceled by the conveyance force to the second sheet, and the second front surface printed paper PA stops in place, causing a conveyance jam. .
[0153]
After that, the second front surface printed paper PA that has been sent is directly dropped onto the auxiliary tray 8 where the first front surface printed paper PA has been sent and no paper is left, and is operating. The suction force of the suction fan 39 attracts the auxiliary tray 8 and the frictional force of the endless belt 38 cancels the conveyance force to the left in the figure, preventing the good conveyance of the second surface-printed paper PA. This will cause a transport jam.
Since the sheet receiving plate 40 receives one end of the surface-printed sheet PA conveyed from the printing unit 2, it is possible to prevent the above-described problems from occurring and to continuously perform a good printing operation. .
[0154]
In the first surface-printed paper PA, after the rear end of the second surface-printed paper PA has passed through the contact portion between the plate cylinder 12 and the press roller 13, the intermediate area of the plate cylinder 12 is pressed. It passes through a position facing the roller 13 and is sent to the contact portion between the plate cylinder 12 and the press roller 13 at a timing when the back surface area faces the press roller 13, and the second plate making of the divided plate-making master 65 by the press roller 13. By being in pressure contact with the image 65B, an image corresponding to the second plate-making image 65B is printed on the other surface to form a printed paper PB.
[0155]
During the above-described operation, the switching member 10 is displaced from the first position to the second position immediately before the intermediate region of the plate cylinder 12 occupies a position facing the press roller 13. As a result, the other end of the second front surface printed paper PA guided by the switching member 10 passes through a slight gap between the lower surface of the switching member 10 and the peripheral surface of the press roller 13, and the paper receiving plate 40. Then, one end of the first printed sheet PB conveyed on the auxiliary tray 8 and subsequently conveyed is guided along the upper surface of the switching member 10 to the paper discharge conveyance unit 85. The first printed paper PB is peeled off from the divided plate-making master 65 by the peeling claw 84, then transported by the paper discharge transport unit 85, and discharged onto the paper discharge tray 86.
[0156]
Thereafter, the third sheet P is fed from the sheet feeding unit 4, and the third sheet P is temporarily stopped by the registration roller pair 71 and then printed at the same timing as the first and second sheets P. It is fed toward part 2. The switching member 10 occupies the first position again after passing through the clamper 19b, and the fed third sheet P is printed with an image corresponding to the first plate-making image 65A on one side and the surface-printed sheet PA After that, the switching member 10 occupying the first position is guided onto the auxiliary tray 8 via the sheet receiving plate 40. Then, the solenoid 33 is actuated at a predetermined timing, and the second front surface printed paper PA that has been stopped on the auxiliary tray 8 is conveyed to the printing unit 2.
[0157]
The second surface-printed paper PA is sent to the contact portion between the plate cylinder 12 and the press roller 13 at the same timing as the first surface-printed paper PA, and the second plate-making image 65B is provided on the other surface. The image corresponding to is printed and becomes the second printed paper PB. The switching member 10 is displaced from the first position to the second position at the same timing as described above, and the other end of the third surface printed paper PA is between the lower surface of the switching member 10 and the peripheral surface of the press roller 13. The sheet passes through a slight gap between them and is guided onto the auxiliary tray 8 via the sheet receiving plate 40.
[0158]
Subsequently, one end of the second printed sheet PB conveyed from the auxiliary tray 8 is guided to the sheet discharge conveyance unit 85 along the upper surface of the switching member 10, and the second printed sheet PB is After being peeled off from the divided master-making master 65 by the peeling claw 84, the paper is transported by the paper discharge transport unit 85 and discharged onto the paper discharge tray 86.
[0159]
Thereafter, the same printing operation as described above is performed up to the (N-1) th sheet. Then, the Nth sheet P is fed from the sheet feeding unit 4 and an image corresponding to the first plate-making image 65A is printed on one side thereof, and the sheet receiving plate 40 is used as the Nth surface printed sheet PA. After being guided on the auxiliary tray 8 via the (N-1) th sheet, the (N-1) th surface printed paper PA is printed with an image corresponding to the second plate-making image on the other side. When the printed paper PB is discharged onto the paper discharge tray 86, a press roller locking means (not shown) is actuated to hold the press roller 13 in the separated position so that the cam plate 43C can come into contact with the cam follower 41. After the cam shaft 44 is moved to the position, the operation of the press roller locking means (not shown) is released. At this time, the switching member locking means (not shown) is operated, and the switching member 10 is held in a state of occupying the second position.
[0160]
The cam follower 41 can be brought into contact with the cam follower 41 at the first timing earlier than the leading end of the image area of the second plate-making image 65B in the plate cylinder rotation direction of the divided plate-making master 65 reaching the position corresponding to the press roller 13. When the cam plate 43C is moved to the position, the convex portion is released from the cam follower 41, and the press roller 13 presses the peripheral surface thereof against the outer peripheral surface of the plate cylinder 12 by the biasing force of the printing pressure spring 42.
[0161]
Thereafter, the solenoid 33 is operated at a second timing slightly earlier than the leading end of the image area of the second plate-making image 65B in the plate cylinder rotation direction of the divided plate-making master 65 reaches the position corresponding to the press roller 13, The swing arm 32 is swung in the clockwise direction in FIG. 2 about the support shaft 32a. As a result, the re-feeding registration roller 23 is swung from the separation position to the press-contact position, and the N-th surface printed paper PA that has been stopped with the other end in contact with the re-feeding positioning member 24 is printed on the plate. The press roller 13 is brought into contact with the peripheral surface of the press roller 13 that is in contact with the cylinder 12 and is driven to rotate.
[0162]
The Nth surface-printed paper PA is sent to the contact portion between the plate cylinder 12 and the press roller 13 at the same timing as the first surface-printed paper PA, and the second plate-making image is formed on the other surface. An image corresponding to 65B is printed and becomes the Nth printed sheet PB. The Nth printed sheet PB is guided to the sheet discharge unit 6 along the upper surface of the switching member 10 occupying the second position, and is discharged after being separated from the divided plate-making master 65 by the separation claw 84. The paper is transported by the transport unit 85 and discharged onto the paper discharge tray 86.
[0163]
Thereafter, when the press roller 13 finishes contact with the back surface region of the plate cylinder 12, the cam follower 41 rides on the convex portion of the cam plate 43C and occupies the separated position. Due to the function of the cam plate 43C, the surface region of the plate cylinder 12 and the press roller 13 are not pressed against each other in the absence of the paper P, and ink transfer to the peripheral surface of the press roller 13 can be prevented. At this time, a press roller locking means (not shown) is operated and the press roller 13 is held at the separated position, and then the plate cylinder 12 is stopped at the home position, and the duplex printing apparatus 1 finishes the printing operation and enters the print standby state again. Become.
[0164]
Air is discharged from the hole 10e of the switching member 10 occupying the first position at the time of printing, test printing and printing in the above-described double-sided printing, and this air is discharged from the leading edge margin of the paper P and the plate cylinder. Since the sheet P is fed between the outer peripheral surface of the sheet 12 and the sheet P, the paper P can be satisfactorily peeled from the outer peripheral surface of the plate cylinder 12, and the occurrence of winding can be prevented.
[0165]
Further, since the width of the switching member 10 is equal to or larger than the width of the paper P, the paper P can be guided well over its entire width, and the guide members 10b and 10c are provided between the switching member main bodies 10a and outside thereof. Therefore, the paper P can be guided uniformly. Further, since each guide member 10b, 10c has a hole portion 10f, the switching member 10 occupies the first position, and the air flow from the air knife 145 is caused when the sheet P is peeled from the plate cylinder 12. By passing through each hole 10f, the air flow from the air knife 145 can also be applied to the separation of the paper P, and the occurrence of winding can be effectively prevented.
[0166]
Further, as described in FIG. 13, when the switching member 10 occupies the first position, the stopper 150 that adjusts the distance between the leading end portion 10d and the outer peripheral surface of the plate cylinder 12, and the switching member 10 is the second member. Since the adjustment plate 147 for adjusting the distance between the tip portion 10d and the outer peripheral surface of the press roller 13 is occupied when the position is occupied, the adjustment plate can prevent the occurrence of winding by adjusting the stopper 150. By adjusting 147, it is possible to prevent the occurrence of rolling-down due to the air flow from the air knife 145. The present inventor can prevent the occurrence of winding of the paper P having a solid image by adjusting the distance between the leading end portion 10d and the outer peripheral surface of the plate cylinder 12 to 0.5 to 2.0 mm by experiment, By adjusting the distance between the tip portion 10d and the outer peripheral surface of the press roller 13 to 0.5 to 3.0 mm, the thin paper (basis weight 35 g / m ² It is confirmed that the occurrence of the roll-down of the paper P, which is equivalent to the paper, can be prevented.
[0167]
Further, in the configuration shown in the present embodiment, the switching member 10 is swingably supported by the support shaft 144 of the driven roller 88 located at the most upstream position in the paper transport direction of the paper discharge transport unit 85. The switching member 10 and the paper discharge transport unit 85 are directly connected, so that the paper P from the printing unit 2 can be reliably guided toward the paper discharge unit 6. Can do.
[0168]
Here, the shape and position of the tip portion 10d of the switching member 10 in the above embodiment will be described.
Each switching member main body 10a is arranged such that each tip portion 10d is at the same position in the paper transport direction. The inventor prints the sheet P having the solid image portion A shown in FIG. 17 and changes only the shape with the arrangement position of each leading end portion 10d being constant so that the leading edge margin h of the sheet P is what. An experiment was conducted to determine whether or not the sheet P can be satisfactorily peeled from the plate cylinder 12 by the switching member 10 that occupies the first position at the value. As shown in FIG. 18, the shape of the leading end portion 10 d is a tangent line g at the intersection of the line segment e as the first line segment connecting the leading end portion 10 d and the center O of the plate cylinder 12 and the outer peripheral surface of the plate cylinder 12. And a plurality of objects were created by changing an angle δ formed by the extension line i of the lower ridge line of the tip portion 10d. As a result, as shown in FIG. 19, when the angle δ was set to 0 ° (the same angle as the tangent line g) to 45 °, it was possible to prevent the winding from occurring without taking a leading edge margin h.
[0169]
Further, the shape of each leading end portion 10d is made constant, only the arrangement position is changed, and the sheet P is printed by the switching member 10 that occupies the first position when the leading end margin h of the sheet P has any value. An experiment was conducted to determine whether the cylinder 12 could be peeled well. As shown in FIG. 18, the disposition position of the tip 10d is a line segment f as a second line segment extending from the line segment e and the center O toward the nip portion between the plate cylinder 12 and the press roller 13. A plurality of positions were set by changing the angle θ formed by. As a result, as shown in FIG. 20, when the angle θ is set to 5 to 20 °, it is possible to prevent the winding from occurring without taking a large front end margin h. Note that if θ is less than 5 °, the switching member 10 interferes with the press roller 13, and therefore the range of θ is 5 ° or more in this experiment.
[0170]
From the above experimental results, the closer the tip portion 10d is to the nip portion between the plate cylinder 12 and the press roller 13, the shorter the contact time between the plate cylinder 12 and the paper P, and from the plate cylinder 12 side to the paper P side. It has been found that the amount of ink transferred to the sheet is reduced and the adhesion between the plate cylinder 12 and the sheet P is reduced, so that the occurrence of winding is prevented. Further, the closer the lower ridge line of the leading end portion 10 d is to the tangential direction on the outer peripheral surface of the plate cylinder 12, the smaller the amount of lifting of the paper P from the outer peripheral surface of the plate cylinder 12 is, the smaller the tip portion 10 d is at the outer periphery of the plate cylinder 12 It has been found that the sheet can enter between the surface and the sheet P, and the occurrence of winding is prevented.
[0171]
In the above-described embodiment, the switching member 10 that guides the paper P in the double-sided printing apparatus 1 toward either the auxiliary tray 8 or the paper discharge unit 6 is shown, but the switching member of the present invention is another image forming apparatus. It is applicable to. As an image forming apparatus to which the present invention can be applied, for example, a copying machine having a plurality of paths for conveying a sheet after fixing on the downstream side in the sheet conveying direction of the fixing device, and a sheet after printing on the downstream side in the sheet conveying direction of the plate cylinder. Examples thereof include a stencil printing apparatus having a plurality of conveying routes and a paper discharge tray for each route.
[0172]
【The invention's effect】
According to the present invention, air is discharged from the switching member that occupies the first position, and this air is sent between the leading edge margin of the paper and the outer peripheral surface of the plate cylinder. Can be peeled off satisfactorily, and good printed matter can be obtained continuously by preventing the occurrence of winding.
[Brief description of the drawings]
FIG. 1 is a schematic front view of a duplex printing apparatus employing an embodiment of the present invention.
FIG. 2 is a schematic front view for explaining a press roller contacting / separating mechanism and a press roller separated from an outer peripheral surface of a plate cylinder used in an embodiment of the present invention.
FIG. 3 is a schematic plan view for explaining a refeed conveyance unit and a sheet receiving plate used in an embodiment of the present invention.
FIG. 4 is a schematic front view of the main part of the printing unit for explaining the behavior of the sheet and the home position of the sheet receiving plate during continuous printing of the duplex printing apparatus used in the embodiment of the present invention.
FIG. 5 is a schematic front view of the main part of the printing unit for explaining the behavior of the sheet and the second position of the sheet receiving plate during continuous printing of the duplex printing apparatus used in the embodiment of the present invention.
FIG. 6 is a schematic side view illustrating a press roller contact / separation mechanism used in an embodiment of the present invention.
FIG. 7 is a schematic front view illustrating a press roller contacting / separating mechanism and a press roller pressed against the outer peripheral surface of a plate cylinder used in an embodiment of the present invention.
FIG. 8 is a schematic diagram for explaining a divided plate-making master used in an embodiment of the present invention.
FIG. 9 is a schematic diagram for explaining a prepress master used in an embodiment of the present invention.
FIG. 10 is a schematic plan view of a switching member and a paper discharge transport unit used in an embodiment of the present invention.
FIG. 11 is a schematic front view of a switching member and a paper discharge transport unit used in an embodiment of the present invention.
FIG. 12 is a schematic sectional side view of a switching member and a paper discharge transport unit used in an embodiment of the present invention.
FIG. 13 is a schematic diagram for explaining a swinging mechanism of a switching member and interval adjusting means used in an embodiment of the present invention.
FIG. 14 is a schematic view of air generating means used in one embodiment of the present invention.
FIG. 15 is a schematic view showing an operation panel used in an embodiment of the present invention.
FIG. 16 is a block diagram of control means used in one embodiment of the present invention.
FIG. 17 is a schematic diagram illustrating a sheet used for setting the shape and arrangement position of a switching member used in an embodiment of the present invention.
FIG. 18 is a schematic view for explaining the shape and arrangement position of a switching member used in one embodiment of the present invention.
19 is a diagram showing a correlation between the shape of the switching member used in one embodiment of the present invention and the leading edge margin of the paper shown in FIG. 17 at the time of peeling.
20 is a diagram showing the correlation at the time of separation between the position of the switching member used in one embodiment of the present invention and the leading edge margin of the paper shown in FIG.
[Explanation of symbols]
1 Double-sided printing device
2 Printing department
6 Output section
8 Auxiliary tray
9 Refeeding means
10 Switching member
10a Switching member body
10b Guide member
10d tip
10e Air outlet (hole)
10f Passing port (hole)
12 version cylinder
13 Press roller
85 Paper transport member (paper discharge transport unit)
87 Rotating body (drive roller)
88 Rotating body (driven roller)
145 Air knife
147 Interval adjustment means (adjustment plate)
150 Spacing adjustment means (stopper)
P paper
PA surface printed paper
PB printed paper
Center of the O cylinder
e First line segment
f Second line segment
g Tangent
i Extension line of the lower edge of the tip
δ Angle between tangent and extension
θ Angle formed by the first line segment and the second line segment

Claims (12)

An image having an image forming unit that forms an image on a sheet, and a sheet discharge unit that discharges the sheet on which the image is formed in the image forming unit, and the sheet discharge unit includes a plurality of sheet conveyance paths through which the sheet passes. In the forming device,
A switching member configured to switch between the image forming unit and the paper discharge unit, the paper transport path through which the paper passing through the image forming unit is passed, the switching member being the image forming unit; An image forming apparatus having an air discharge port that discharges air toward a sheet passing through the sheet. The image forming apparatus according to claim 1.
The image forming unit includes a plate cylinder and a press roller that presses the sheet against the plate cylinder, and the sheet discharge unit includes a sheet discharge tray at the end of each sheet conveyance path. . The image forming apparatus according to claim 1, wherein:
The image forming apparatus according to claim 1, wherein the width of the switching member is equal to or greater than a width of a sheet passing through the image forming unit. A printing unit having a plate cylinder and a press roller provided so as to be able to contact with and separate from the plate cylinder; and an auxiliary tray for temporarily storing a surface-printed sheet on which a printed image is formed in the printing unit. A sheet refeeding unit that refeeds the surface-printed paper stored on the auxiliary tray toward the printing unit; and a paper discharge unit that discharges the printed paper that has been printed by the printing unit. In a double-sided printing apparatus capable of performing double-sided printing by printing on the back side of the paper after printing on the front side of the paper,
A first position for guiding the sheet passing through the printing unit toward the auxiliary tray and a second position for guiding the sheet toward the paper discharge unit on the downstream side in the sheet conveying direction of the printing unit. A double-sided printing apparatus comprising: a switching member that selectively occupies, and the switching member has an air discharge port that discharges air toward a sheet passing through the printing unit. The double-sided printing apparatus according to claim 4.
The double-sided printing apparatus, wherein the switching member has a width equal to or greater than a width of a sheet passing through the printing unit. The double-sided printing apparatus according to claim 4 or 5,
When the switching member occupies the first position, the tip portion is close to the peripheral surface of the plate cylinder and when the switch member occupies the second position, the tip portion is close to the peripheral surface of the press roller, A double-sided printing apparatus, comprising: a distance adjusting unit capable of adjusting a distance between the front end portion, the plate cylinder, and the press roller at each position. The double-sided printing apparatus according to any one of claims 4 to 6,
The double-sided printing apparatus, wherein the switching member includes a plurality of switching member main bodies having the air discharge ports and a guide member connecting the switching member main bodies. The double-sided printing device according to any one of claims 4 to 7,
An air knife that blows air between the outer peripheral surface of the plate cylinder and a sheet in contact therewith is provided above the switching member, and the switching member has a passage port through which the air discharged from the air knife passes. A double-sided printing device. The double-sided printing apparatus according to any one of claims 4 to 8,
The switching member includes a first line segment connecting the tip portion when the first position is occupied and the center of the plate cylinder, and a contact portion between the plate cylinder and the press roller from the center of the plate cylinder. A double-sided printing apparatus, characterized in that the double-sided printing apparatus is disposed at a position where the angle formed by the second line segment extending toward the side becomes 5 to 20 degrees. The double-sided printing apparatus according to claim 9 , wherein
The switching member forms the tip portion so that an angle between a tangent line at the intersection of the first line segment and the outer peripheral surface of the plate cylinder and an extension line of the lower ridge line of the tip portion is 0 to 45 degrees. The double-sided printing apparatus characterized by being made. The double-sided printing apparatus according to any one of claims 4 to 10,
The paper discharge unit includes a paper transport member that transports the paper, and the switching member guides the paper from a contact portion between the plate cylinder and the press roller to the paper transport member. Double-sided printing device. The double-sided printing apparatus according to claim 11.
The paper conveying member has a plurality of rotating bodies that convey the paper, and the switching member is swingably supported at the rotation center of the rotating body located on the most upstream side in the paper conveying direction. Double-sided printing device.

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