This application claims the priority of the Swiss Patent Application No. 00875/10, filed on Jun. 2, 2010, the subject matter of which is incorporated herein by reference.
The invention relates to a method and device for controlling register settings of a printing press, as well as to a printing press provided with such a device.
For multi-color printing, at least two color components are printed over each other in a printing press with the aid of a plurality of imaging cylinders. If a printing press is in register or, differently expressed, is in an overlapping fit, the images printed by the different print units, which respectively print on a single color component, are placed to fit precisely one above the other.
In web-fed presses, a print medium or substrate, for example, paper or film, frequently travels long distances between two print units. Devices are integrated into these web-fed presses which make it possible to precisely adjust the register settings and to continuously re-adjust the register settings during the course of the printing operation. Such devices are also used in sheet-fed printing presses.
Markings such as the so-called registration marks or registration crosses are auxiliary means used for known register settings. These markings are also printed on outside of the picture area by each printing press. With the aid of image-processing systems, the positions of the respectively relevant registration marks, relative to each other, are recorded as well as evaluated and the printing press is readjusted accordingly.
To evaluate the register or the register accuracy, a distinction is made between the lineal register (in the movement direction of the web of print medium), the side or lateral register (transverse to the movement direction) and the diagonal register. The problem defined for the invention essentially relates to the lineal register.
For example, deviations detected in the lineal register can be compensated for by displacing individual guide rollers, meaning the register rollers, which shorten or lengthen the distance between two print units. Alternatively, the lineal register can also be adjusted by rotating the imaging cylinders relative to each other.
A deviation in the register is normally caused by the use of a different type of print medium which exhibits a different expansion behavior as compared to the previously used print medium. The speed of the printing press can also require a readjustment of the register because the print medium web behaves differently, depending on the speed of the printing press.
Controls for register settings of this type are disclosed, for example, in the German patent documents DE 102006060212 A1 or DE 10254836 A1.
Known register settings take into account, insufficiently or not, that the length of the print medium web section between the print units that take part in the printing operation can vary noticeably as a result of changes in the configuration of the printing press. The deviations in the register can consequently exceed those normally occurring in the detection range for standard register settings, thus making it impossible for the register to be adapted automatically. Also not addressed as a subject is the influencing of the register as a result of a change specified by the machine operator in the length of the intended print image. With known printing presses, this is realized by specifying a heterodyne speed for the individual drives of the imaging cylinders belonging to adjacent print units, which participate in the image-printing process.
The length of the print image can be shortened by approximately up to 1 mm, relative to the original format of the print image, wherein this can be achieved through accelerating the drive of the imaging cylinder. Owing to the higher but constant rotational speed, as compared to the theoretically correct speed for the print medium, the print image is correspondingly shortened.
In contrast, the print image is lengthened by approximately up to 3 mm, relative to the original format for the print image, if the speed of the respective imaging cylinder drive is slowed as compared to the speed of the print medium web. Thus, the print image can be pulled over a longer section of the web than is provided based on a corresponding negative on the imaging cylinder.
Register deviations caused by changes in the length of the print image as a rule do not fall within the detection range of the above-discussed register settings. For example, if five print images and/or formats, which must respectively be lengthened, are located between two adjacent print units, the change in the length of each print image on the whole results in a register deviation in the downstream arranged print unit, as seen in production direction, in the order of magnitude of five times the change in length for the print image.
With printing presses that are especially flexible for use, the length of the print medium section between two adjacent print units frequently varies considerably as a result of production changes, so that it is not automatically certain just how many print images are located between two adjacent print units.
It is an object of the present invention to provide a method and a device which make use of a control unit to correct register deviations located outside of the normal detection range of known register settings. For this, essential influencing factors must be determined and these must be supplied to the printing press in the form of control variables.
The above and other objects are accomplished according to one aspect of the invention wherein there is provided a method for controlling register settings of a printing press, which, in one embodiment, includes rotating imaging cylinders of a first print unit and a second print unit, located downstream of the first print unit in a movement direction of a print medium, at a rotational speed to print an image on the print medium; changing a length of the print image to a predetermined length; changing a register setting of the imaging cylinder of the second print unit based on the predetermined change in length of the print image to avoid misalignment of the print image printed by the first and the second print units on the print medium, where the changing of the register setting is dependent on a length of a section of the print medium between the first and the second print units.
The application furthermore relates to a device for controlling register settings of a printing press, which, according to one embodiment includes a first print unit and a second print unit, located downstream of the first print unit in a movement direction of the print medium, which each respectively include an imaging cylinder rotating with a rotational speed for printing images on the print medium, where the imaging cylinder of the second print unit includes register settings that are changeable to avoid misalignment of the images printed on the print medium by the first and second print units; a control unit adapted to determine a length of a section of the print medium between the first and second print units; a sensor coupled to each of the first and second print units, where each sensor is adapted to detect a marking on the print medium, generate a corresponding signal, and transmit the signal to the control unit; and a drive system that is adapted to change the register settings of the imaging cylinder of the second print unit based on the length of the section of the print medium.
According to one embodiment, the method for the register control may be used in a printing press provided with a first print unit and at least one additional print unit. The print units may be respectively provided with at least one imaging cylinder operating with a rotational speed. To avoid a running of the images printed on by a plurality print units, the register settings of the at least one imaging cylinder of the additional print units may be changed, to correspond to a specified change in the length of a print image.
According to one embodiment, the register settings may be changed in dependence on at least the length of a print medium section between the print units.
As a result of this method, it may be possible to save waste paper and set-up time because the register control may automatically carry out a correction. An intervention by the machine operator may therefore not be required, meaning that the process is more secure.
According to one embodiment of the method, the register settings may be changed while the printing press is operational. A predetermined change in the length of a print image may be realized by changing the rotational speed of the at least one imaging cylinder of the additional print units, relative to the speed of the print medium web. The theoretically correct rotational speed of the at least one imaging cylinder thus may be relative to the rotational speed assigned to the changed length of the print image, wherein this ratio may generally exit between the rotational speed of a rubber-blanket cylinder and the speed of a counter-pressure cylinder.
The change in the register settings of the at least one imaging cylinder of the additional print units may be corrected according to a different embodiment by correcting the length of the print medium section between the print units, relative to a reference position in the printing press. According to one embodiment, this reference position may be defined by the first print unit which participates in the printing process, as seen in web movement direction.
According to another embodiment, the correction value may be formed by multiplying the change in length of the print image with the number of print images located between the respectively adjacent print units. The number of print images may be determined by dividing the length of the print medium section between the respectively adjacent print units by the length of one print image, as seen in movement direction of the print medium.
The length of the print medium section between the respectively adjacent print units may be determined by evaluating at least one signal from at least two sensors. The sensors of favorable embodiments may emit a signal once they have identified a marking on the print medium.
The marking may be affixed to the print medium with the aid of a marking device, either upstream of the first print unit or in the print unit, in particular through stamping, punching, applying color or gluing it on.
Light barriers may be used for the sensors.
The length of the print medium section between the respectively adjacent print units may be determined with the aid of expedient methods and an accuracy of less than 0.2 mm.
Pulse transmitters provided in print unit drive systems, in particular in servo-drive systems, may be used to additionally evaluate the angular position of the print units. A signal may be generated on the basis of the determined angular position for the print units and may then be evaluated together with the signals relating to the length of the print medium section between respectively adjacent print units, wherein the register settings of the at least one imaging cylinder of the additional print units may be changed in accordance with the evaluation that is carried out.
According to the invention, a device for controlling the register of a printing press may be designated for use in a printing press. The printing press may comprise a first print unit and at least one additional print unit. Each print unit may be provided with at least one imaging cylinder that may move with a rotational speed. The register settings of the additional print units which follow the first print unit may be changed to avoid a running of images which may be printed one over the other by a plurality of print units.
The device for the register control may include a control unit and respectively at least one drive system and at least one sensor for the print units, wherein the drive system in particular is a servo-drive system. The at least one sensor may detect a marking on the print medium, may generate a corresponding signal, and may transmit this signal to the control unit. The length of a print medium section between the print units may be determined with the aid of the signals received from the at least one sensor. Depending on the length that is determined, the register settings for the additional print units may be changed with the drive systems.
According to one embodiment of the device, the at least one sensor may be respectively arranged either on the print units or behind the print units, as seen in movement direction of the print medium.
The device according to a different embodiment may be provided with a marking device which may be arranged in the movement direction of the print medium either upstream of or in a first print unit. With the aid of the marking device, a marking may advantageously be affixed to the print medium, either upstream of or in the first print unit, or may be incorporated therein, in particular through stamping, punching, applying color or gluing.
According to a different embodiment, the device may be provided with at least one pulse transmitter, in particular arranged on the drive system, for detecting the angular position of at least one of the print units and to transmit this position to the control unit as well as to the drive system.
It may be particularly expedient if a printing press is equipped with one of these devices.
The present invention will be more readily understood from the following detailed description when read in conjunction with the accompanying drawings, in which:
According to
This speed variation is valid to the same degree and/or the same speed difference for all print units 1, 2, 3, 4, 5. Each print unit 1, 2, 3, 4, 5 can be driven with an individual rotational speed w, either directly with a separate drive system 31, 32, 33, 34, 35 or indirectly via drive rollers that are not shown herein.
As seen in movement direction 12 of the print medium 9, a marking device 10 is provided upstream of a first print unit 1. Alternatively, the marking device 10 can also be arranged inside the first print unit 1.
During the start-up of the printing press 6 or for a change in the configuration, for example a change in the web guidance between the print units 1, 2, 3, 4, 5, the marking device 10 affixes a marking 8 to the print medium 9. The length of the section of print medium 9 between the print units 1, 2, 3, 4, 5, must therefore be determined only once and need not be repeated until the actual length of the print medium 9 section between the print units 1, 2, 3, 4, 5 is changed.
As seen in movement direction 12 of the print medium 9, a separate sensor 21, 22, 23, 24, 25 is arranged behind each print units 1, 2, 3, 4, 5, for example a sensor in the form of a light barrier. The sensors 21, 22, 23, 24, 25 generate a signal as soon as the marking 8 reaches their position and subsequently transmit this signal to a control unit 29 which is connected to the drive systems 31, 32, 33, 34, 35 for the print units 1, 2, 3, 4, 5. A distance s between a print unit 1, 2, 3, 4, 5 and the respectively following sensor 21, 22, 23, 24, 25 is known. A section of the print medium 9 with a defined length is located within this distance s.
Of course, the sensors 21, 22, 23, 24, 25 can also be arranged in the respective print unit 1, 2, 3, 4, 5 and can furthermore be used to detect tears in the print medium 9 web. The control unit for the printing press can additionally function as the control unit 29.
A section of the web 13, 13′ of print medium 9 with a first length l12 is located between the first print unit 1 and the second print unit 2. A second section with length l23, a third section with length l34 and a fourth section with length l45 of the web 13, 13′ of print medium 9 are accordingly assigned to the intermediate spaces following in movement direction 12 between the print units 2, 3, 4, 5. In particular with production changes, these sections with lengths l12, l23, l34, l45 of the web 13, 13′ of print medium 9 can vary.
A printing press 6 of this type can detect the respective length l12, l23, l34, l45 of the web 13, 13′ sections of print medium 9 between the print units 1, 2, 3, 4, 5 with the aid of the sensors 21, 22, 23, 24, 25 and the control unit 29, in particular also during changes in the machine operation.
Upon switching on of the printing press, or after it has been reconfigured by changing the length of the web 13, 13′ section of print medium 9 between two print units 1, 2, 3, 4, 5, a command is first issued to enable the measuring operation, meaning for detecting the new length of the web 13, 13′ section of print medium 9 between the print units 1, 2, 3, 4, 5. According to the sequence shown in
For a comparison,
According to
It will be understood that the above description of the present invention is susceptible to various modifications, changes and adaptations, and the same are intended to be comprehended within the meaning and range of equivalents of the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
00875/10 | Jun 2010 | CH | national |