The present invention is directed to methods and to devices for setting a pressure force exerted by at least one roller on another roller of a printing press, and for bringing the at least one roller intoout of contact with one of these other rollers. The at least one roller is held in a roller holder which is, in turn, seated in a frame holder.
Inking units or dampening units of printing presses are employed for conveying an ink or a required dampening agent from appropriate supply devices to printing zone. Rollers or cylinders are provided in the inking unit or in the dampening unit for forming the required ink film or dampening agent film. The term roller and cylinder have the same meaning for understanding the present invention and will be used interchangeably. The rollers come into contact with each other along so-called roller strips. The ink film or the dampening agent film can be transferred in the roller strips from one roller to another roller.
Rollers, which are adjustably supported in a machine frame, are provided in such inking units or dampening units. A contact pressure in the roller strips can be changed by displacing these adjustably seated rollers with respect to the other rollers. An inking unit, with a distribution roller seated fixed in the frame and with a forme cylinder also seated fixed in the frame, is known from EP 0 826 501 A1. Inkis transferred from the distribution roller to the forme cylinder by use of an application roller that is arranged between the distribution roller and the forme cylinder. The application roller is itself adjustably seated in the machine frame and can be pressed, with an adjustable force, into the gap between the distribution roller and the forme cylinder. The device for seating the application roller is embodied in this prior device in such a way that the force with which the application roller is pressed into the gap between the distribution roller and the forme cylinder always acts along a bisecting line of an angle. In other words, although the size of the force for pressing the application roller can be changed, the direction of the force is unchangeably preset by the structural embodiment of the setting device. Thus, only the size of the contact pressure force can be changed for setting the contact pressure in the roller strips between the forme cylinder and the distribution roller on the one hand, and the application roller on the other hand. The resulting contact pressures in the roller strips ensue on the basis of the preset geometry.
A device for clamping bearing bushes of printing and forme cylinder bearing of a printing press is known from the Letters Patent DD 64 064. The device provides a hydraulic force for pressing the bearing bushes against the bore wall of the machine frame. The bearing bushes consist of two bushing sleeves shrunk on each other. Two hydraulically chargeable pressure chambers have been worked into the inner wall of the outer bearing bush, which pressure chambers are placed on both sides at 120° in respect to the resultant of the mean forces acting on the bearing. The true running properties of the cylinders are improved with this device, because a movement of the cylinders which is, to a large extent, vibration-free is achieved by the removal of the play which the bearing bushes have in the bore of the machine frame which receives them.
Letters Patent DE 15 61 014 C1 shows a roller bearing which is adjustable in only one direction, and which is used, in particular, for distribution and application rollers of inking units of printing presses. Setting assemblies, for adjusting the roller transversely in respect to its axis, are provided. The setting assemblies are arranged between a bearing journal connected with the frame wall and a housing, which housing receives one roller end and which is preferably embodied in a cup shape. The bearing journal and the housing are connected with each other by spring elements, which act oppositely to the setting assemblies. Here, the spring elements are preferably embodied as radially extending rubber bumpers, and the setting assemblies acting on the bearing journal are either embodied as a radially arranged setting screw, or as two setting screws arranged at 45°. In accordance with a further embodiment, the engagement or the disengagement of the roller, and therefore the adjustment of the roller bearing, can also take place by the use of two pressure chambers, which are diametrically arranged inside the housing and which can be acted on by air or a fluid, wherein the pressure chambers acting against each other are selectively charged with pressure.
A device for setting a contact pressure between rollers of a printing press is known from DE 100 01 582 A1. Hydraulic actuating elements, which are preferably embodied as double piston cylinders, are arranged between the adjoining rollers.
A device and a method for the semi-automatic setting of rollers is known from EP 0 958 918 A1. An adjustable first roller is placed against at least one second roller fixed in the frame. Spring-elastic elements charge the first roller with a spring-elastic force in the direction of the second roller.
The object of the present invention is directed to providing methods and devices for setting a pressure force exerted by at least one roller on another roller of a printing press and is also directed to methods and devices for bringing the at least one roller either intoout of contact with one of these rollers.
In accordance with the present invention, this object is attained by the provision of at least three rollers in a printing press wherein a contact pressure is exerted by the first roller against the second and third rollers. The first roller is held in a roller holder which is, in turn, seated in a frame holder. At least two actuators are arranged between the roller holder and the frame holder. These two actuators, in their actuating operational state, exert a force which is radially directed onto the roller holder.
The advantages to be gained by the present invention lie, in particular, in that, in the course of setting the contact pressure between the adjustable roller and the rollers resting against it, not only is the value of the force varied, but also the direction of the force is varied. Because of this, it is possible for the contact pressures in the two roller strips to be set independently of each other in the end.
Particular advantages, in regard to the idle or down times during setting the inking unit or dampening unit, result if the pressing-in force into the roller strip is not set in sequential steps, but substantially at the same time. This means that, in the course of setting the force with which the adjustably seated roller is pressed against the other rollers, the value of the force and the force direction can be varied until the respectively desired contact pressures ensue in all of the various roller strips.
To prevent an unintentional change of the contact pressures, it is advantageous if, after the contact pressure against the other two rollers has been set, the position of the adjustably seated roller can be fixed by actuating or engaging a fixing device. If the value and the direction of the force for use in adjusting the adjustably seated roller can be selected substantially freely, this can also be used for turning the ink or the dampening agent off. For these cases of application, the force for adjusting the adjustably seated roller is selected to act in a direction which points away from the other two rollers. As a result, the adjustably seated roller can be moved out of the gap far enough to insure that there is no longer contact between the adjustably seated roller and the other rollers. As soon as the adjustably seated roller has been separated from the other rollers, no ink or dampening agent is transmitted into the roller strip.
It is also possible, in an alternative configuation, to arrange the adjustably seated roller on a lever arrangement which can be pivoted around the axis of rotation of one of the other rollers. For turning off the ink or the dampening agent, the roller can then be lifted off one of the other rollers by operating the lever arrangement. After moving the lever arrangement into the function position, in which function position the adjustably seated roller comes into contact with the other two rollers, the adjustably seated roller can be pushed into the gap between the other two rollers by a force whose value and whose direction can be adjusted. This setting is then secured in place by the actuation of a fixing device located between the adjustably seated roller and the lever arrangement. If, at a future time, the ink or the dampening agent is to be turned off, the lever arrangement is pivoted into the first function position, in which the adjustably seated roller is lifted off the one roller. When turning the ink or the dampening agent on, it is then sufficient to pivot the lever arrangement back into the second function position, without an additional setting of the contact pressures, since the correct setting is fixed by the fixing device between the lever arrangement and the adjustably seated roller.
Preferred embodiments of the present invention are represented in the drawings and will be described in greater detail in what follows.
Shown are in:
A device 20 for setting a contact pressure between a first roller 21 and a second roller 22 is represented in
The contact pressure setting device 20 is substantially constructed of a frame holder 26 and of a roller holder 27, which two holders can be displaced in relation to each other in an actuating plane extending vertically in respect to the drawing plane. The frame holder 26 is constructed of a base plate 28, which can be pivotably fastened on the frame of a printing press, for example by the use of a pivot arm, and of a sleeve body 29. On the side facing the roller 21, the sleeve body 29 has a recess 31, which is engaged by a cylinder-shaped section 32 of the roller holder 27. In this case, an inner diameter of the recess 31 or an outer diameter of the section 32 have been selected in such a way that a gap 33 is formed between the two, which gap is circular cylindrical, or annular in a base position, and which has a gap width of, for example, 1 mm to 10 mm, and preferably of 2 mm. The maximum actuating range for displacing the roller holder 27 relative to the frame holder 26 is defined by the gap 33.
To be able to provide the actuating movement required for setting the roller 21, or to apply the desired contact pressure between the roller 21 and the roller 22, preferably four actuators 34, which actuators 34 are, for example, embodied in the form of flexible pressure tubings 34, are arranged distributed about the circumference of the gap 33, of which only two such actuators are represented in cross-section in
To fix the roller holder 27 in place, relative to the frame holder 26, disk elements 37 are fastened on the roller holder 27, which disk elements 37 are arranged, meshing with disk elements 38 fastened on the sleeve body 29, to form a multi-disk packet. For the preferably frictionally connected clamping of the multi-disk packet formed by the disk elements 37, 38, a plunger 39, which is T-shaped in cross section, is provided, whose circular plunger head 40, which is located at a first end of a plunger post, comes to rest, through the provision of a circular flange 41, against the outermost disk element 37 or 38 of the multi-disk packet. A pressure plate 42 is fastened on the second, opposite end of the plunger post of the plunger 39, on which pressure plate 42 the spring force of a spring element 43, which is embodied in the manner of a plate spring packet 43, acts. The spring element 43 is mounted under pre-tension between the pressure plate 42 and the sleeve body 29, so that the multi-disk packet constituted by the disk elements 37, 38 is clamped by the spring force transmitted to the disk elements 37, 38 by the plunger 39.
In order to displace the roller holder 27 relative to the frame holder 26, in particular when setting the contact pressure between the rollers 21, 22, it is necessary to release the fixing device, which is constituted by the disk elements 37, 38, by movement of the plunger 39 and the pressure plate 42. For this purpose a pressure connector 44 is provided in the base plate 28, by the use of which, a pressure chamber 46 located between the pressure plate 42 and the base plate 28 can be charged with a pressure medium, for example compressed air. As soon as the air pressure acting on the pressure plate 42 overcomes the spring force of the spring element 43, circular flange 41 of the plunger head 40 of the plunger 39 is lifted off the outermost disk element 37 or 38 so that the latter are no longer clamped by being frictionally connected and thus can be displaced relative to each other.
Setting of the contact pressure between the rollers 21 and 22 takes place, for example, in the following manner:
First, the pressure chamber 46 is charged with sufficient pressure, so that the disk elements 37, 38 are no longer clamped by no longer being frictionally connected. Thereafter, the actuators 34 are each charged with just enough pressure so that a desired contact pressure between the rollers 21 and 22, or between the roller 21 and further rollers, which are not specifically represented in
The effective principle of the device 20, during the required actuating movement described above, is schematically represented in
As shown, by way of example, in
The contact pressure setting device 20, in accordance with the present invention, is represented in a perspective view in
A portion of an inking unit 51, with an adjustably seated roller 52 and with two fixed rollers 53, 54, which are seated fixed in place on the frame, is represented in
To set the contact pressure exerted in the roller strips 62, 63 between the rollers 53 and 54, respectively on the one hand, and the adjustably seated roller 52 on the other hand, the following procedure can be followed.
First, an individual amount of air pressure is applied to each of the pressure chambers 56 and 57, which results in a setting force on the roller 52 of the desired size and value. Thereafter, the pressure chamber 61 is filled with compressed air in order to release the fixation or securement of the roller 52. The roller 52 is then pressed against the rollers 53 and 54 by the individual pressures exerted by each of the pressure chambers 57 and 56. By changing the pressure in the pressure chambers 56 and 57, the contact pressures in the roller strips 62 and 63 can be variably set independently of each other. As soon as the contact pressures in the two roller strips 62 and 63 correspond to the desired values, the pressure chamber 61 is evacuated by releasing the pressure from it, and the adjustably seated roller 52 is again fixed in place relative to the rollers 53 and 54.
The contact pressure in the roller strips 62, 63 can be changed by remote control. Adjusting of the contact pressure in the roller strips 62, 63 is also possible during a production run, since the ink transfer is not interrupted during such an adjustment. In the course of such an adjustment, during a production run, only the pressure chamber 61 is charged with air for releasing the fixing device, and the pressure in the pressure chambers 56, 57 is changed only to such an extent that the desired adjusted contact pressures in the roller strips 62, 63 results.
The fixation of the setting pressures, by releasing of pressurized air from the pressure chamber 61, is not absolutely required. If the setting pressures in the pressure chamber 56 and 57 are maintained during production, the fixation of the roller position of roller 52, by releasing air from the pressure chamber 61, can be omitted. In this case, the roller 52 is resiliently pressed against the rollers 53 and 54 and can yield, or be forced toward the back or away from the rollers 53 and 54, for example, in case of out-of-round running and possible vibrations. When the roller 52 is not fixed in place, by the pressure chamber 61, care must be taken to insure that the vibrations occurring in the inking unit 51 do not exceed a permissible value.
To interrupt an ink conveyance in the inking unit 51, i.e. to shut off the flow of ink, air is released from the pressure chambers 56 and 57. The pressure chamber 58 and 59 are concurrently charged with air. As soon as the fixation, or the securement, of the roller 52 is released, by charging the pressure chamber 61 with air, the roller 52 is moved out of the gap between the rollers 53 and 54. Once there is no longer any contact between the roller 52 and the rollers 53 or 54, the pressure chamber 61 is again charged with air and the roller 52 is thereby fixed in the disengaged position. As a result, it becomes possible by this operation to disengage the roller 52, even during a production run, without removal of the roller 52 from the press. To prevent errors because of binding of the roller 52 during the setting of the contact pressure exerted in the roller strips 62, 63, prior to setting the contact pressure, the roller 52 can also initially be disengaged in the described way by releasing air from the pressure chambers 56 and 57.
Through an appropriate control of the pressure chambers 56 to 59, it is, of course, also possible to disengage the roller 52 from only one of the rollers 53 or 54. If, for example, the pressure chambers 57,and 58 are charged with air, and the fixation or the securement of the roller 52 is released, it is possible to achieve a disengagement of the roller 52 from the roller 53, but at the same time to maintain roller 52 in contact with the roller 54.
The setting of the contact pressures in the inking unit 66 can be provided in various ways. In accordance with a first embodiment, the contact pressures in the roller strips of the upper roller train 69 and the lower roller train74 are set sequentially. This means that the fixation or the securement of the ink application roller 73 is initially released, and the contact pressures in the roller strips between the ink application rollers 73 and the screen roller 67 and also the forme cylinder 68 are set by charging the appropriate pressure chambers with air. Parallel with this, the contact pressures between the ink application roller 78 of the lower roller train 74 and the screen roller 67, or the forme cylinder 68 can be set. After the ink application rollers 73 or 78 have been set, they are fixed in place. Thereafter, the contact pressure between the ink transfer roller 72 and the ink application roller 73, or the ink transfer roller 77 and the ink application roller 78, is set by charging the appropriate pressure chambers with air. As soon as the ink transfer rollers 72 and 77 have again be fixed in place, the ink transfer rollers 71 and 76 are lastly set by charging their respective pressure chambers with air, so that the desired contact pressures ensue in the roller strips between the ink transfer rollers 71 and 76 on the one hand, and the screen roller 67, or the ink transfer rollers 72 and 77 on the other hand. Once the ink transfer rollers 71 and 76 are again fixed in place, the entire inking unit 66 has been set in its entirety.
If the ink transfer rollers 71, 72, 76, 77, or the ink application rollers 73, 78, which are individually arranged one behind the other in the roller trains 69 or 74, are set on one after the other, the outlay for technical apparatus for this application is considerably reduced, because the same setting devices can be used for setting each of the individual rollers 71, 72, 76, 77, 73, 78. By setting of the individual rollers 71, 72, 76, 77, 73, 78 by the use of pressure chambers being charged with air, it is sufficient, for example, to only provide two proportional valves, since these two valves can be used, one after the other, for setting the individual rollers 71, 72, 76, 77, 73, 78. Moreover, by setting the individual rollers 71, 72, 76, 77, 73, 78 one after the other, it is assured that the settings of the individual rollers 71, 72, 76, 77, 73, 78 do not affect each other. However, setting the individual rollers 71, 72, 76, 77, 73, 78 one after the other requires a relatively long setting time.
In accordance with a second alternative method, the ink transfer rollers 71, 72, 76, 77, or the ink application rollers 73, 78, are simultaneously set. This means that the pressure chambers at the individual ink transfer rollers 71, 72, 76, 77, or ink application rollers 73, 78, are simultaneously charged with suitable air pressures. However, care should be taken in this procedure that the contact pressure between the individual rollers 71, 72, 76, 77, 73, 78 also affects the rollers 71, 72, 76, 77, 73, 78 arranged upstream or downstream of them in the roller trains 69 or 74, so that the setting of the individual rollers 71, 72, 76, 77, 73, 78 is mutually affected.
When selecting the air pressures in the individual pressure chamber for setting the various rollers 71, 72, 76, 77, 73, 78, the force vectors acting on the individual rollers 71, 72, 76, 77, 73, 78 must be vectorially added.
Such an addition of the force vectors is represented, by way of example, for the ink transfer roller 71 depicted in
A method for setting a contact pressure 81, 82 exerted by a first roller 71 on a second roller 72 and on at least a third roller 67 in a printing press, wherein the first roller 71 is held in a roller holder 27, which roller holder 27 is, in turn, seated in a frame holder 26 has thus been described. At least two actuators 83, 84, 93, 94 are arranged between the roller holder 27 and the frame holder 26, and in their actuated operational state, the actuators 83, 84, 93, 94 each exert a force 89, 91,96, 97, which is radially directed with respect to the roller holder 27. This method includes, as method steps, that a resultant force 88 is formed as the vector sum of all forces 80, 81, 82 acting on the first roller 71 after it has been set, that those actuators 83, 84 are actuated by a control signal, and whose radial forces 89, 91 act counter to the resultant force 88, and that the radial forces 89, 91 of the operated actuators 83, 84 are set to a value 86, 92 until their vector sum corresponds to the resultant force 88. This method assumes that, at the start of the process, at least a portion of the forces 81, 82 acting on the first roller 71 are not yet actually being exerted, but that they are desired values to be attained, since at least the contact pressures 81, 82 are yet to be set to a desired value, by using the proposed method. Therefore, the resultant force 88, formed as a vector sum, is a predetermined desired value, to which the radial forces 89, 91 are set by vectorial addition.
In the case of disengaging a first roller 71 from at least a second roller 67, 72 in a printing press, wherein the first roller 71 is held in a roller holder 27, which, in turn, is seated in a frame holder 26, and wherein at least two actuators 83, 84, 93, 94 are arranged between the roller holder 27 and the frame holder 26, and further wherein, in their actuated operational state, the actuators 83, 84, 93, 94 exert a force 89, 91,96, 97, which is radially directed to the roller holder 27, a method results in an analogous manner. This method is distinguished from the method discussed above in that a resultant 88 is formed as the vector sum of all of the forces 80, 81, 82 acting on the first roller 71 after it has been disengaged, that at least one actuator 83, 84 is actuated by a control signal, and whose radial force 89, 91 acts counter to the resultant 88, and that the radial force 89, 91 of the operated actuators 83, 84 is set to a value 86, 92 which corresponds to the vector sum of the resultant 88.
In both of the above described methods, the force 80 of the weight of the first roller 71 is preferably included in the vector sum for forming the resultant 88 because, as a rule, its value in the vector sum is not negligibly small. If now the force 80 of the weight of the first roller 71 alone constitutes the resultant 88, for example because no contact pressures at all act on the first roller 71, the radial force 91, 97 of the operated actuators 83, 84 is at least temporarily set to a value of 86, 98, so that their vector sum during the disengagement has a greater value than the resultant 88. This method step is used for disengaging the first roller 71, i.e. for the provision of a force which is sufficient to cause the first roller 71 to make a movement. After the first roller 71 has reached a defined position, only a value of a force counteracting the resultant 88 is required which is sufficient to maintain the first roller 71 in a state of rest. Therefore, in the preferred embodiment, the operated actuators 83, 84, 93, 94 displace the roller holder 27 in the frame holder 26, in the course of which operation, the actuators 83, 84, 93, 94 can displace the center of the roller holder 27 through a distance of up to 15 mm eccentrically away from the center of the frame holder 26, for example. In this case, the roller holder 27 can be eccentrically displaceable in the frame holder 26 in such a way that the first roller 71 and the second roller 72 come out of contact with each other, and wherein this displacement can be caused by the actuation of only a single actuator 83, 84, 93, 94 arranged between the roller holder 27 and the frame holder 26. At least one spring element can also be provided between the roller holder 27 and the frame holder 26, against which the actuators 83, 84, 93, 94 displace the roller holder 27 in the frame holder 26, and which at least one spring element resets the roller holder 27 into an initial position in the operational state in which it is not acted upon by the actuators 83, 84, 93, 94.
For executing the above described method, only those actuators 83, 84, 93, 94 are preferably operated, whose radial force shows a positive value 86, 92, 98 against the resultant 88. It is of advantage if the roller holder 27 is fixed in the frame holder 26, for example in the fashion described in connection with
A contact pressure setting device 20 is usable for setting a contact pressure 81, 82, which is exerted by a first roller 71 on a second roller 72 and also on at least a third roller 67 of a printing press, and/or for the engagement or the disengagement of a first roller 71 with or from a second roller 72 and with or from at least a third roller 67, and therefore for executing the previously described method. The first roller 71 is held in a first roller holder 27 which, in turn is seated in a frame holder 26. At least two actuators 83, 84, 93, 94 are arranged between the roller holder 27 and the frame holder 26. In their actuated operating state, the actuators 83, 84, 93, 94 exert a force 89, 91, 96, 97 which is radially directed on the roller holder 27. This device can be distinguished, for example, in that at least one radial force 89, 91 of the actuators 83, 84, operated by a control signal, is aligned with a force 80, 81, 82 acting on the first roller 71. A further special arrangement for the above mentioned device 20 results, if two actuators 83, 84, operated by a control signal, are arranged in such a way, that the value 86, 92 of their radial force 89, 91 is set to the same value, and a vector sum of these values 86, 92 counteracts a resultant 88, wherein the resultant 88 is formed in the previously mentioned method as a vector sum of all forces 80, 81, 82 acting on the first roller 71.
As can be seen in
In a preferred embodiment of the contact pressure setting device 20, the actuators 83, 84, 93, 94 are formed in or on a wall of the frame holder 27, namely preferably as laterally limited pressure chambers which are attached in or on a wall of the frame holder 26 or the roller holder 27, as may be seen in
It is advantageous if the frame holder 26 has connectors for service lines for the pressure medium supply for the hollow bodies, or pressure chambers, as seen in
A third preferred embodiment of a roller arrangement is represented in
With this contact pressure setting device 20, too, with two rollers 71, 72, which can be placed independently of each other against the third roller 67, the first roller 71 and/or the second roller 72 can be held in a roller holder 27, which, in turn, is seated in a frame holder 26, and wherein the actuators 83, 84, 93, 94 are preferably arranged between the frame holder 26 and the roller holder 27. The frame holder 26 is advantageously embodied as a housing in which the actuators 83, 84, 93, 94 are arranged, as may be seen in
The inking unit 01 represented in
A defined amount of a pasty printing ink 10 is stored in a reservoir 09, embodied as an ink duct. The printing ink 10 can be further conveyed, in a suitable manner, by the use of an ink ductor 11, working together with an ink blade 12. An ink film of a defined thickness is transferred by the ink ductor 11 to a downstream-connected roller 13, for example a film roller 13. During a rolling off on each other of surfaces of the rollers 14, 15, which surfaces respectively rest against each other, and which rollers 14, 15 may be, for example, ink transfer rollers 14, 15, or of the respectively downstream-connected rollers 16, 17, for example ink distribution roller 16, 17, the printing ink 10 is then transferred to two rollers 18, 19, for example two ink application rollers 18, 19. The ink application rollers 18, 19, in turn, roll off on the forme cylinder 02, and in the process place the conveyed printing ink 10 on the forme cylinder 02.
The forme cylinder 02, the ink distribution rollers 16, 17, the film roller 13 and the ink ductor 11 are all fixedly seated in a machine frame, which is not specifically represented in
Each of the ink transfer rollers 14 or 15, and the ink application rollers 18 or 19 are seated, by the use of two contact pressure sensing devices 20, at the oppositely located sides of the machine frame, so that a displacement of the ink transfer rollers 14 or 15, and of the ink application rollers 18 or 19 between the rollers 16, 17, 13 or the cylinder 02 in the roller train of the inking unit 01 is possible by actuating these contact pressure setting devices 20. The contact pressure exerted in the roller strips between the ink transfer rollers 14 or 15, and the ink application rollers 18 or 19, on the one hand, and between the forme cylinder 02, the ink distribution rollers 16, 17 and between the film roller 13 and the ink ductor 11 on the other hand, can be set sequentially. The setting of the inking unit can be accomplished particularly quickly by simultaneously setting the contact pressure in all of the roller strips. For this purpose, the contact pressure setting devices 20, in which the ink transfer rollers 14 or 15 and the ink application rollers 18 or 19 are seated, are actuated substantially at the same time. Therefore, an influence of the contact pressure in the individual roller strips is impossible even when all of the devices are being actuated simultaneously, because a roller 16 or 17 seated fixed in the frame, namely the ink distribution roller 16 or 17, is arranged between each of the adjustably seated ink transfer rollers 14 or 15 and ink application rollers 18 or 19.
The dampening rollers 08a or 08c, which are adjustably seated on the dampening unit 06 by the contact pressure setting devices 20, are arranged between the dampening rollers 08b or 08, which are seated fixed in the frame, and the forme cylinder 02, which are also seated fixed in the frame.
While preferred embodiments of a method and devices for regulating at least one cylinder in a printing machine, in accordance with the present invention, have been set forth fully and completely hereinabove, it will be apparent to one of skill in the art that various changes in, for example the overall sizes of the cylinders, the source of supply of the pressure fluid and the like can be made without departing from the true spirit and scope of the present invention which is accordingly to be limited only by the appended claims.
Number | Date | Country | Kind |
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101 60 044 | Dec 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE02/03574 | 9/21/2002 | WO | 00 | 6/4/2004 |
Publishing Document | Publishing Date | Country | Kind |
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WO03/049947 | 6/19/2003 | WO | A |
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Number | Date | Country | |
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20050076800 A1 | Apr 2005 | US |