JP4372280B2 - Sheet guide device for single-sided and double-sided printed sheets in a printing press - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sheet guide device for a single-sided or double-sided printed sheet in a printing machine, as described in the superordinate conceptual part of claim 1.
[0002]
[Prior art]
A sheet guide device of this kind is known from German Offenlegungsschrift 225 411, and in the case of this sheet guide device, a sheet smoothing device and a guide device for smoothing the sheet. Are coupled to each other as a single structural portion and are supported on the printing press frame so as to be rotatable about an axis parallel to the sheet running path. The sheet smoothing device and the guide device are in the vertical positions opposite to each other of the structural part, and each of the structural parts is rotated into the working range (working region) in the sheet running path by rotating the structural part by 180 °. Moved. The guide member (guide device) can be connected to an air supply device, and blown air is supplied from the outlet hole. As a result, the sheet is conveyed to the delivery pile without contact by the action of the blown air (both sides). (For printed sheets) In the case of single-sided printing, the sheet leveling device is rotated into an action range (action area) in the sheet running path to remove the curvature of the sheet in a cylindrical shape. In this case, the sheet smoothing device protrudes beyond the adjacent guide plate to suck the sheet.
[0003]
Known devices are expensive to produce. This is because the sheet smoothing device and the guide member must be moved by an appropriate transmission mechanism when switching from single-sided printing to double-sided printing. Yet another disadvantage is that a sheet smoothing device protruding onto the guide surface can damage the lower surface of the sheet. Since the sheet is transported only by the guide plate, the risk of set-off is additionally increased in the range of the projecting sheet leveling device or the transition range of the guide member / guide plate. In the case of single-sided printing, air is sucked from the sheet leveling device, and in the case of double-sided printing, blowout air is exclusively supplied to the guide member by a switchable air supply device.
[0004]
German Patent No. 34 11 029 discloses a further sheet guide device for guiding a sheet printing material printed on one or both sides. This sheet guide device is formed by a flow passage arranged in a modular manner, and the flow passage has a hole as an air nozzle in the guide surface. The upper surfaces of the flow passages each constitute a conveying plane as a guide surface, and the flow passages have a plurality of switchable fans on the back thereof for blowing air into or sucking air from each flow passage have.
[0005]
[Problems to be solved by the invention]
The object of the present invention is to solve the above-mentioned drawbacks, characterized by a particularly simple structure, and to ensure the reliable guidance of the sheets consistently in each operation type. Is to provide.
[0006]
[Means for Solving the Problems]
According to the present invention, the above problem is solved by a configuration having the features of claim 1. Further configurations are as described in the dependent claims.
[0007]
A first advantage of the present invention is that the sheet guide device can be used by switching to each operation mode of single-sided printing or double-sided printing with a small switching cost. That is, the sheet guide device is selectively used as a sheet smoothing device in the case of single-sided printing and in the case of double-sided printing to guide the sheet without contact. It can be operated as a guide device. For this purpose, there is provided a sheet smoothing / guide device which is supported at a predetermined position with respect to the printing machine frame and which is rotatable about an axis extending in a direction perpendicular to the sheet conveying direction. It is provided in the working area. This sheet leveling / guide device is advantageously associated with at least one adjacent stationary sheet guide device having a flow passage. Advantageously, it can be loaded by the air action system at the front and rear position as viewed in the sheet transport direction within the delivery of the sheet printing machine, and a flow passage with air circulation holes is attached as a stationary sheet guide device. ing. As a result, the sheet is supported and reliably guided in a pneumatic manner in all modes of operation. Switching to each operation mode only requires a working cylinder, a rotating joint, and a connecting member. In order to control the rotational movement of the sheet leveling device and the guide member, an expensive transmission device is unnecessary.
[0008]
The sheet leveling / guide device of the present invention has only a slight gap spacing in the working region with respect to the flow path that can be pneumatically loaded adjacent to the stationary sheet guide device. Is advantageous. By doing so, it is possible to prevent damage to the sheet or set-off of the sheet. By placing the sheet leveling / guiding device with a slight gap distance with respect to the adjacent sheet guide device with almost no gap, the dynamic action on the sheet is avoided.
[0009]
Also, in the operation mode of double-sided printing, the sheet leveling / guide device, particularly the sheet guide device in the sheet guide device, is adjacent to the stationary device provided with a flow path that can be loaded pneumatically. It is advantageous if the blown air or suction air is made available by allowing it to be connected to a sheet guide device. This connection eliminates the need for additional or switchable air supply devices.
[0010]
Finally, there is an advantage that the sheet guide by the sheet guide device is consistently performed by a pneumatic system. Thereby, it is possible to realize a reliable sheet guide that can be well adapted to each operation mode (operation mode during single-sided printing and operation mode during double-sided printing).
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a view showing a sheet delivery (sheet discharge device) having a sheet guide device.
FIG. 2 is a diagram showing a sheet smoothing / guide device having a sheet smoothing function at a position for single-sided printing.
FIG. 3 shows the sheet leveling / guide device of FIG. 2 in the position for duplex printing or single-sided printing and having a sheet guide function instead of a sheet leveling function.
[0012]
The delivery of the sheet-fed rotary printing press is arranged behind the sheet guide cylinder 15 of the printing apparatus or varnishing apparatus as viewed in the sheet conveyance direction 9. The delivery mainly consists of a delivery drum 16 (or chain wheel shaft) and an endless circulating transport system 14 which feeds the sheets coming from the sheet guide cylinder 15 to the delivery pile 12. A pivoted gripper system 10 is provided. In this case, the sheet 11 is guided in front of the fixedly arranged sheet guide device 13 and the variable shape sheet guide device 3, is braked at the sheet braking device 1, and is stopped by the leading edge stopper. It is lowered onto the delivery pile 12.
[0013]
The stationary sheet guide device 13 is configured by a flow passage that is arranged in a modular manner and can be loaded in a pneumatic manner as described in German Patent No. 34 11 029, for example. The passages can be selectively switched, and blowing air or suction air can be used. For this purpose, the sheet guide device 13 has the air flow holes 6 and has one guide surface for each sheet 11. In the working area of the sheet guide device, the sheet leveling / guide device 2 is supported so as to be able to rotate on a support portion at a predetermined position with respect to the frame in a direction perpendicular to the transport direction 9. ing. The sheet smoothing / guide device 2 has a plurality of functions. In other words, the function as a sheet leveling device for leveling a single-sided printing (including coating) sheet, and the printing side of a double-sided printing (including coating) sheet This is a function as a sheet guide device for guiding so as not to touch, and these functions can be selected. For this purpose, the sheet leveling / guide device 2 is preferably arranged so as to be just abutted between two modularly arranged stationary sheet guide devices 13 in the delivery. When the above functions are performed in the action area between the sheet guide devices 13, the sheet guide devices 13 are arranged so as to be integrated with the adjacent guide surfaces of the sheet guide device 13.
[0014]
Furthermore, the sheet leveling / guide device 2 and at least one and / or a plurality of adjacent stationary sheet guide devices 13 shift their relative positions relative to each other in the sheet transport direction 9. Has been placed. In the sheet transport direction 9, in this case, the structural part always provided on the upstream side, that is, the guide surface of the stationary sheet guide device 13, the structural part provided on the downstream side, for example, Slightly in the gap range (the transition range between the sheet smoothing / guide device 2, the shape-variable sheet guide device 3, and the stationary sheet guide device 13) than the guide surface of the guide device 2. (In this case, the concept of guide surface includes the upper edge of the sheet leveling device). That is, on the downstream side as viewed from the structural portion provided on the upstream side, the downstream structural portion and the structural portion further downstream of the structural portion are stepped down at least over the maximum shape width.
[0015]
In this configuration, the amount of additional air increases at each of these steps, and the air strengthens the action of the air cushion that supports the sheet between the lower surface of the sheet and the guide surface. This additional air creates a vortex that circulates in the area of each step. The spiral axis of this vortex is perpendicular to the sheet transport direction (parallel to the edge of the step).
[0016]
According to yet another configuration, a gap range between the sheet smoothing / guide device 2, the shape-variable sheet guide device 3, and the stationary sheet guide device 13 is formed by overlapping guide surfaces. be able to.
[0017]
The rotatable sheet leveling / guide device 2 has at least two first chambers 20 and 21 that extend in the axial direction and are independent.
[0018]
The second chamber 21 can be connected laterally (at the side frame) to the air supply of the pneumatic system 5 and the sheet leveling device as part of the sheet leveling / guide device 2. Is functionally connected to. This sheet leveling device in communication with the chamber 21 is provided with a suction slot 4 and has a leveling gap curved in a wave shape. The leveling gap with this suction slot 4 extends in particular over the width of the shape, in which case the suction slot is formed by a hole, a slit or a through groove.
[0019]
The first chamber 20 is functionally connected to a sheet guide device 13 as part of the sheet leveling / guide device 2. The guide surface communicating with the chamber 20 of the sheet guide device 13 also has an air circulation hole 6. In this case, the guide surface is flush with the adjacent sheet guide device 13. And it arrange | positions in those curve directions as needed. The chamber 20 further has at least one opening 19 in the axial direction of the sheet leveling / guide device 2 separately from the air flow holes 6 in the guide surface, the opening 19 being adjacent to the stationary device. The sheet guide device 13 can be functionally connected to the end face side. For this purpose, the sheet guide device 13 has an opening corresponding to the opening 19 on the end face side of the flow passage, and this opening is movable, for example, a rotary joint and a casing part 18 or 18. It can be opened and closed by '. The opening of the flow passage is open at position 18 of the casing parts 18, 18 ', and the opening is closed at position 18'.
[0020]
As an optional component, the movable casing parts 18, 18 'can be formed flexibly, for example by spring steel sheets (FIGS. 2 and 3). In this case, the flexible movable casing parts 18, 18 ′ are in the extended state at position 18, so that the casing of the sheet smoothing / guide device 2 and the opening of the flow passage of the sheet guide device 13. There is a very slight gap between them. Only when the sheet smoothing / guide device 2 is pivoted about the pivot axis, the flexible casing part 18, 18 'is moved to position 18' for a short time and then to the extended position 18 again. Returns elastically. Thus, in the state of FIG. 2, the flow path of the sheet guide device 13 is substantially sealed by the adjacent casing of the sheet smoothing / guide device 2 and in the state of FIG. An air-operated connection between the flow path of the leaf paper guide device 13 and the chamber 20 is ensured.
[0021]
Since the flow passage of the sheet guide device 13 is functionally connected to an inherent air action system, for example, a plurality of fans, air can be supplied to the chamber 20 from the flow passage of the sheet guide device 13. . This allows the flexible casing parts 18, 18 ′ to move to position 18, so that the opening of the flow passage of the sheet guide device 13 is opened and connected to the opening 19 of the chamber 20.
[0022]
The sheet leveling / guide device 2 is connected to at least one connecting member 7 in the range of a bearing fixed to the frame, which connecting member is connected to the pivot joint 8 via a piston rod. It is connected to an operating device 17, for example a pneumatic cylinder. This simple operation device 17 allows the sheet leveling / guide device 2 to have a portion (sheet leveling device or sheet guide device) necessary for guiding the sheet each time in the working area. It can be rotated to.
[0023]
The guide surface with the air flow holes 6 and the sheet leveling gap with the suction slot 4 of the sheet leveling / guiding device 2 are preferably the guide planes and surfaces of the adjacent sheet guide devices 3, 13. It is one.
[0024]
The sheet leveling / guide device 2 can be used in any form. Accordingly, in the first configuration, the sheet smoothing / guide device 2 is disposed rearward as viewed in the sheet transport direction of the adjacent stationary sheet guide device 13. In another configuration, it is arranged in front of the sheet guide device 13, and in another configuration, it is arranged between two stationary sheet guide devices 13. Furthermore, as another configuration that can be selected, the sheet smoothing / guide device 2 may be disposed in front of the sheet conveying direction 9 of the sheet guide device 3 having a variable shape. It is also possible to attach the sheet leveling / guide device 2 to the sheet guide cylinder 15, for example a transport drum. Such an example of use in which a stationary sheet guide device 13 is arranged in front is known from DE 44 30 105 A1.
[0025]
The operation of the sheet guide device is as follows. In the case of single-sided printing, the sheet 11 tends to be curved and warped in a cylindrical shape. In this case, the sheet leveling / guide device 2 is rotated to a position where the sheet leveling gap with the suction slot 4 substantially fills the working area between the sheet guide devices 13. (FIG. 2). In this case, the sheet leveling gap provided with the suction slot 4 and the guide surface of the stationary sheet guide device 13 are aligned with each other to form a sheet guide section. The fan of the sheet guide device 13 is connected to the air suction device so that the sheet is guided with its unprinted one side as close as possible to the sheet guide device 13. The pneumatic system 5 is activated and the conveyed sheet 11 is sucked in the range of the sheet break-in gap with the suction slot 4 and drawn into the wavy contour. At this time, in addition to the suction action, the curl of the sheet 11 is returned and the sheet is stretched in the direction opposite to the conveying direction 9, thereby achieving a warp removing effect. In this way, the sheet 11 is smoothed and lowered onto the delivery pile 12 with high quality.
[0026]
In this case, the movable casing parts 18, 18 ′ are arranged, for example, at position 18, so that the opening of the flow passage of the sheet guide device 13 is open on the end face side. The flow passage can be advantageously loaded with a large volume of air flow with a slightly lower delivery pressure, so that the configuration open on the end face side of the sheet guide device 13 can be operated without substantial air loss. is there. As an alternative construction, it is also possible to fix the flexible casing part 18, 18 ′ in position 18 ′ manually or using another operating device (not shown), thus a sheet guide. The opening of the flow passage of the device 13 can be closed on the end face side.
[0027]
In double-sided printing, both the front and back sides of the printing material are processed, so that the warpage of the sheet 11 does not occur. The sheet leveling / guide device 2 is rotated by the operating device 17, and the sheet leveling device (part of the sheet leveling / guide device 2) is a sheet having a suction slot 4. Out of the working area between the sheet guide devices 13 including the break-in gap. In addition, the guide surface (the sheet smoothing / a part of the guide device 2) having the air circulation holes 6 of the sheet guide device is rotated into the operation area and assigned to the sheet 11 (FIG. 3). .
[0028]
Blowing air is supplied by a fan to the flow path of the stationary sheet guide device 13 (here, the sheet guide device 13 provided on the upstream side). The blown air flows out from the guide surface of the sheet guide device 13 through the hole 6 and supports the sheet 11, thereby preventing set-off. At the same time, the air blown from the end face side of the flow passage of the upstream sheet guide device 13 (the casing portions 18 and 18 ′ are at position 18) passes through one or more openings 19 in the adjacent chamber 20. Flow into. The blow-out air flows out from the chamber 20 through the hole 6 and flows out to the guide surface of the sheet guide device 13 (part of the sheet breaker / guide device 2). In the same manner, the sheet 11 is supported so as not to cause setback. In order to minimize the gap distance between the sheet guide device 13 and the sheet smoothing / guide device 2, the chambers 20, 21 of the chambers 20, 21 are rotated during the rotational movement of the sheet smoothing / guide device 2. One of the casings may be configured to push the flexible casing portions 18 and 18 'of the adjacent sheet guide device 13 for a short time. Since the casing parts 18, 18 'are flexible and are formed, for example, from spring steel, this does not impair the function.
[0029]
Since the adjustable fan of the sheet guide device 13 can be switched in the reverse direction, it is also possible to suck air from the flow passage. When the chamber 20 is rotated into the working area, the air in the chamber 20 is also sucked through the adjacent sheet guide device 13.
[0030]
An advantage of the present invention is that sheet guidance suitable for both single-sided printed sheets and double-sided printed sheets is guaranteed.
[0031]
The illustrated sheet leveling / guide device 2 is not limited to the configuration having the two chambers 20 and 21. Furthermore, another chamber can be arranged in the axial direction so that the chamber can be rotated into the working region as a third chamber by the operating device 17 as required. This chamber can also be configured to have a guide surface with a blowing nozzle / suction nozzle and can be functionally connected to the adjacent sheet guide device 13 for blowing / sucking air. It is. The blowout nozzle / suction nozzle improves the tension of the sheet 11.
[0032]
The sheet leveling / guide device 2 can also be placed between a stationary sheet guide device and a variable shape sheet guide device 13. In this case, the necessary condition is that the flexible casing portions 18 and 18 'of either one of the stationary sheet guide device and the variable shape sheet guide device 3 or 13 are used. It is only necessary to communicate with the opening 19 of the sheet leveling / guide device 2.
[Brief description of the drawings]
FIG. 1 is a front view showing a sheet delivery (sheet discharge device) having a sheet guide device.
FIG. 2 is a front view showing a sheet leveling / guide device having a sheet leveling function at a position for single-sided printing.
3 is a front view showing the sheet smoothing / guide device of FIG. 2 in a position for duplex printing or single-sided printing and having a sheet guide function instead of a sheet smoothing function. is there.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Sheet | seat braking device 2 Sheet | seat leveling / guide apparatus 3 Shape-variable sheet guide unit 4 Sheet leveling gap 5 which has a suction slot 5 Air action system 6 Air distribution hole 7 Connecting member 8 Rotating joint 9 Sheet transport direction 10 Gripper system 11 Sheet 12 Delivery pile 13 Stationary sheet guide device 14 Transport system 15 Sheet guide cylinder 16 Delivery drum 17 Operating device 18, 18 'Casing portion 19 Opening portion 20 1 room 21 2nd room

Claims (8)

It is used to remove the warp of the single-sided processed sheet by the printing machine and to guide while preventing the set-up of the double-sided sheet, and can be rotated around the rotation axis. In a sheet guide device having a sheet leveling / guide device,
The sheet breaker / guide device (2) has a second chamber (21) communicating with the sheet breaker gap with a suction slot (4), the second chamber being arranged laterally. And the sheet leveling / guide device (2) has a first chamber (20), which is functionally connectable to the pneumatic action system (5), the first chamber being an air flow hole. (6) is connected to the guide surface and has at least one opening (19) in the axial direction, has a flow passage capable of supplying and sucking air, and has air flow holes ( 6) a stationary sheet guide device (13) having 6) is arranged adjacent to the sheet break-in / guide device (2), the flow passageway comprising a movable casing part (18, 18 ′) and can be opened and connected to the opening (19) of the sheet break-in / guide device (2) It is,
The sheet leveling / guide device (2) can be rotated around its axis by an operating device (17). The guide surface with the sheet leveling gap and the air flow hole (6) with the suction slot (4) of the sheet leveling / guide device (2) is adjacent to the sheet guide device (3 13) The sheet guide device according to claim 1, wherein the sheet guide device is aligned with a guide surface having air circulation holes (6). The sheet smoothing / guide device (2) is arranged behind a stationary stationary sheet guide device (13) adjacent in the sheet transport direction (9). Item 1. A sheet guide device according to Item 1. The sheet smoothing / guide device (2) is arranged in front of an adjacent stationary sheet guide device (13) when viewed in the sheet transport direction (9). The sheet guide device according to claim 1. 2. The sheet guide device according to claim 1, wherein the sheet leveling / guide device (2) is arranged between two stationary sheet guide devices (13). The sheet smoothing / guide device (2) is arranged in front of a sheet guide device (3) having a variable shape as viewed in the sheet transport direction (9). Item 1. A sheet guide device according to Item 1. 2. The sheet guide device according to claim 1, wherein the sheet leveling / guide device (2) is attached to a sheet guide cylinder. A connecting member (7) is connected to the sheet smoothing / guide device (2), and the connecting member is connected to the operating device (17) via a rotating joint (8). The sheet guide device according to claim 1, wherein the sheet guide device is a sheet guide device.

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