EP2748003B1 - Method for determining a particular position of at least one type area on a web of material to be imprinted with at least one print image in a printing press - Google Patents

Description

The invention relates to a method for determining a respective position of at least one type area on a material web to be printed in a printing press with at least one printed image according to claim 1.

By the EP 1 167 035 A2 is known a synchronous control with automatic register adjustment functions for cutting and printing in a rotary press, comprising a plurality of printing mechanisms for multicolor printing on a paper web, at least one cutting mechanism for cutting the multicolored printed paper web into predetermined units of printed images, wherein the pressure mechanisms and the cutting mechanism be driven by separate drive means.

By the WO 2006/117291 A2 a method is known for controlling and / or regulating a register in a printing machine having at least one printing unit, wherein a positioning of at least one printed image on a material web is set by means of an adjustment of a circumferential register of the printing cylinder producing the at least one printed image relative to a cutting line relating to the material web becomes.

The object of the invention is to provide a method for determining a respective position of at least one type area on a material web to be printed in a printing machine with at least one printed image.

The object is achieved by the features of claim 1.

The achievable with the present invention consist in particular in that a relative position between a position of at least one arranged in a certain section of a material web set level and a position of a transverse fold indicating fold line remains unchanged even if the position of the transverse fold indicating fold line within the changed certain section of the material web. The position of the at least one sentence mirror is accordingly dependent adapted from the current position of the transverse fold indicating fold line.

An embodiment of the invention is illustrated in the drawings and will be described in more detail below.

Fig. 1

einen Ausschnitt aus einer Materialbahn;

Fig. 2

den Materialbahnausschnitt der Fig. 1 mit einer veränderten Position einer einen Querfalz anzeigenden Falzlinie;

Fig. 3

einen Abschnitt der Materialbahn der Fig. 1 mit mehreren Satzspiegeln;

Fig. 4

den Materialbahnabschnitt der Fig. 3 mit einer veränderten Position der einen Querfalz anzeigenden Falzlinie;

Fig. 5

eine Steuerung zur Ausführung eines Verfahrens zur Festlegung einer jeweiligen Position von mindestens einem in einer Druckmaschine auf einer Materialbahn mit mindestens einem Druckbild zu versehenen Satzspiegel relativ zur Position eines Querfalzes.

Show it:

Fig. 1

a section of a material web;

Fig. 2

the material web cut the Fig. 1 with a changed position of a fold line indicating a transverse fold;

Fig. 3

a section of the web of material Fig. 1 with several typesetting levels;

Fig. 4

the web section of the Fig. 3 with a changed position of the fold line indicating a transverse fold;

Fig. 5

a control for performing a method for determining a respective position of at least one in a printing machine on a material web to be provided with at least one print image type area relative to the position of a transverse fold.

Fig. 1 shows a section of a material web 01, z. As a paper web, in a printing machine, for. B. in a web printing press, in particular in a web-fed rotary printing press, by means of at least one printing unit of this printing press continuously sections with at least one print image 02, z. B. with a text or a graphic or an image, preferably in a tabloid production is printed. The tabloid production concerns a production format in which z. B. text lines of the print image 02, in the FIGS. 1 to 4 each by z. Three parallel lines are indicated, at least in their main orientation in each case in the transport direction T of the web 01 extend. The at least one of the at least one printing unit printed on the material web 01 printed image 02 is disposed within a rule rectangular set mirror 03. The type area 03 defines a usable area available for the at least one print image 02, wherein subsequently the position of the type area 03 is considered only with reference to the material web 01 to be provided with the at least one print image 02. The type area 03 is usually at all its four straight edges 04; 06; 07; 08 through bars 09; 11; 12; 13 limited, each web 09; 11; 12; 13 a generally unprinted distance a09; a11; a12; a13 between one of the edges 04; 06; 07; 08 of the type area 03 and a respective edge 04; 06; 07; 08 nearest boundary line 14; 16; 17; 18 of the respective type mirror 03 receiving portion 19 of the material web 01 forms, wherein this portion 19 in the transport direction T of the moving material through the printing press web 01 at least for a particular of the printing machine concerned production has a constant length a19. In a continuous printing process carried out by the printing press, therefore, a plurality of such sections 19 are lined up seamlessly. Two of the boundary lines 16; 18 are aligned parallel and in each case along the transport direction T of the material web 01 and limit the respective section 19 through the respective edge of the material web 01. Two other boundary lines 14; 17 are also parallel, but each directed transversely to the transport direction T of the material web 01 and limit the respective section 19 respectively in the transport direction T of the material web 01. In the following it is assumed that each of a section 19 limiting positions of each transverse to the transport direction T of Web 01 directed boundary lines 14; 17 are not changed in their respective distance from each other and thus the respective length a19 in the same production of successive sections 19 remains the same. By a successive at least along one of these in the transport direction T of the web of material 01 at a distance of length a19, transversely to the transport direction T of this Web 01 directed boundary lines 14; 17 executed separation process is the relevant of the boundary lines 14; 17 limited section 19 separated from the web 01. The separation process is carried out in particular in one of the printing machine associated folding apparatus 32 and consists for. Example, in a cutting process, wherein a cutting blade 41 arranged on a rotating during the printing machine concerned by the production of cutting cylinder 41 continuously separates a section 19 after the other of the web 01 ( Fig. 5 ). The along the transversely to the transport direction T of the web 01 directed boundary lines 14; 17 with the cutting blade 41 of the cutting cylinder 33 performed separation method is in the Fig. 1 by a these boundary lines 14; 17 respectively associated scissors symbol indicated. It is provided that preferably each separated from the web of material 01 section 19 at one between its two transverse to the transport direction T of the web of material 01 boundary lines 14; 17 fixed position with a parallel to these boundary lines 14; 17 extending transverse fold is provided, said transverse fold in the Fig. 1 is indicated by the position of its fold line 21. The Querfalzung, ie the formation of a fold break along this fold line 21, takes place in a sequence of the production process after the executed separation process with a Querfalzeinrichtung preferably also in the folder 32nd

The proposed solution provides that the relevant position of the at least one directed between the two transverse to the transport direction T of the web 01 boundary lines 14; 17 set masking level 03 relative to the position of the between the two boundary lines 14; 17 to be arranged transverse fold, that is, to the fold line 21, is set. If the position of the fold line 21 of the transverse fold changes, the position of the at least one boundary line 14 delimiting this section 19 depending on this change in position in the relevant section 19 should also be determined. 17 arranged set level 03 are changed, so that the position of the type area mirror 03 with respect to the position of belonging to this section 19 fold line 21 of the transverse fold remains unchanged.

That is through the Fig. 2 illustrated. Fig. 2 shows like that Fig. 1 a material web 01, which is continuously printed in sections in its transport direction T. The respective section 19 limiting, transverse to the transport direction T of the web 01 directed boundary lines 14; 17 are in their respective position in the Fig. 2 opposite to their respective position in the Fig. 1 unchanged, because at the setting of arranged in the folder 32 rotating cutting cylinder 33 together with its cutting blade 41 has not changed in this executed by the printing machine production. The material web 01 is thus - as in the operating situation of Fig. 1 - In each case according to the length a19 cut to produce the individual sections 19. In contrast to Fig. 1 was or is in the Fig. 2 the position of the fold line 21 of the transverse fold about a directed in the transport direction T of the web 01 distance x changes what his cause z. B. in a desired during production or unintended changed setting of preferably provided in the folder 32 Querfalzeinrichtung can have. By changing the position of the fold line 21 of the transverse fold, both the distance a09, the width of the web 09, and the distance a12, which defines the width of the web 12, wherein these two webs 09; 12 here each with respect to the respective section 19 form an outer web. The web 12 forms in the relevant section 19 a so-called puncture part, because in the region of this web 12 id R. several z. B. along a row arranged point needles of a folding device 32 arranged Punktur- and folding blade 34 attack and pierce the web of material 01 ( Fig. 5 ), whereby at the relevant section 19 so-called punctures are formed. Since the at least one print image 02 associated with print area 03 has remained unchanged in its in the transport direction T of the web 01 extending length a03 in the above-described change in the position of the fold line 21 of the transverse fold, because in the relevant current production of Printing machine z. B. on the setting of the relevant print image 02 printing unit and also on the type 03 has not changed in itself is in the in the Fig. 2 opposite example Fig. 1 the distance a09 belonging to the web 09 has become wider by that amount as the distance a12 belonging to the web 12 has become narrower. The web 11, which forms a head land in the relevant section 19, as well as the web 13, which forms a foot web in the relevant section 19, remain unaffected by the change in the position of the fold line 21 of the transverse fold.

The in the Fig. 2 shown change, in particular displacement of the position of the fold line 21 of the transverse fold leads to the preferably produced in the folding device 32 printed product to an overfold or Nachfalz, in which the type area 03 is moved towards to be attached to the respective section 19 Punkturen out, if no countermeasures taken become. Related to an originally z. B. exactly in a middle of the length a19 of the section 19 arranged position of the fold line 21 of the transverse fold ( Fig. 1 ), which position is preferably set as a target position, is in the in the Fig. 2 example shown a negative compensation required to those in the Fig. 2 due to the distance x changed position of the fold line 21 of the transverse fold in the relevant section 19 to its original position. However, it is also a contrary to the transport direction T of the web 01 directed change in the position of the fold line 21 of the transverse fold by a distance y possible ( Fig. 4 ), wherein this change, in particular displacement of the position of the fold line 21 of the transverse fold then leads to a Unterfalz or prefold in the preferably produced in the folding apparatus 32 printed product, in which the type area 03 is moved from being attached to the relevant portion 19 Punkturen away. In this second case is based on an originally z. B. exactly in the middle of the length a19 of the section 19 arranged position of the fold line 21 of the transverse fold ( Fig. 1 ) a positive compensation is required to return the position changed by the distance y of the fold line 21 of the transverse fold to its original position. According to the invention, it is provided that during a displacement of the Position of the fold line 21 of the two transverse to the transport direction T of the web of material 01 directed boundary lines 14; 17 transverse fold to be arranged by the distance x; y in the direction of one of these two boundary lines 14; 17 the relevant position of the at least one between the two boundary lines 14; 17 to be defined set mirror 03 in particular by a changed setting in which the print image 02 printing unit in each case in the same direction as the shift of the position of the fold line 21 of the transverse fold is shifted, wherein in the displacement of the position of the fold line 21 of the transverse fold the relevant position of the at least one Sampling mirror 03 is preferably displaced by an equal amount in the same direction as the displacement of the position of the fold line 21 of the transverse fold. The respective displacement of the position of the fold line 21 of the transverse fold is preferably carried out starting from the setpoint position determined for the fold line 21. When the fold line 21 of the transverse fold assumes its desired position, the respective webs forming an outer web are 09; 12 preferably formed the same width. A changed production attitude z. B. in the folder 32 is thus z. B. in the printing unit of the printing machine to the effect that with respect to the respective portion 19 of the relevant production to be printed web 01, the position of the record mirror 03 relative to the position of the respective section 19 associated fold line 21 of the transverse fold remains unchanged. This fixed relation between the position of the set mirror 03 and the fold line 21 of the transverse fold should also be maintained or at least restored by a corresponding control or regulation executed by a control unit, if, conversely, the arrangement of the print image 02 is causally related to the previously described example in the respective section 19 relevant attitude z. B. changes in the printing unit of the printing press and then a position of the fold line 21 of the transverse fold production adjustment z. B. in the folder 32 is adapted. In the case of an existing or an expected deviation of the position of the fold line 21 of the transverse fold from its desired position, the control or regulation executed by the control unit can therefore be applied to the printing unit the printing press and / or on the press associated with the folder 32 act.

Fig. 3 also shows a printed material web 01 as in the Fig. 1 , but with the difference that within a same between adjacent boundary lines 14; 17 trained portion 19 in the transport direction T of the web 01 side by side several, z. B. two type mirrors 03 are arranged, each of these typesetting 03 each having a in the transport direction T of the web 01 extending length a03, wherein the respective length a03 of different typesetting levels 03 may also differ from each other. Thus, at least two type mirrors 03 are arranged or at least assigned to this section 19 in the respective section 19 of the material web 01 to be provided with at least one printed image 02, at least one first leveling mirror 03 at a first position in a first area between the first boundary line 17 of the relevant section 19 in the transporting direction T of the material web 01 and the position of the fold line 21 of the transverse fold and at least one second leveling mirror 03 at a second position in a second region between the position of the fold line 21 of the transverse fold and the transport direction T the material web 01 second boundary line 14 of this section 19 are arranged or are. Fig. 4 shows the in the Fig. 3 shown portion 19 of the web of material 01 with a changed position of the transverse fold indicating fold line 21, wherein both typesetting 03 are displaced from being attached to the relevant portion 19 Punkturen away. Between each of the fold line 21 facing edge 24; 26 of the respective typesetting mirror 03 is in each case a web 22; 23, which is in each case referred to as a gutter, wherein between the one of the fold line 21 facing edge 24 is a distance a22 and between the other of the fold line 21 facing edge 26 a distance a23. These distances a22; a23, each having a respective width of the respective webs 22; 23 define, remain unchanged in a change in the position of the transverse fold indicating fold line 21.

The relevant position of the at least one directed between the two transverse to the transport direction T of the web 01 boundary lines 14; 17 set masking level 03 relative to the position of the between the two boundary lines 14; 17 to be arranged transverse fold is z. B. determined that the relevant position of the at least one typeset mirror 03 is determined by an adjustment of a circumferential register on a printing unit of the printing machine at least one print image 02 in the respective type area 03 producing printing cylinder.

The respective circumferential register for determining the respective position of the at least one set mirror 03 and the position of the folding line 21 indicating the respective section 19 are preferably defined by data obtained from a control unit belonging to the printing press, e.g. As a control center of the printing press, in a virtual, preferably electronic lead of this printing press are communicated. An aforementioned negative or positive compensation of a change in the position of the transverse fold indicating folding line 21 is z. B. carried out in that at least a part of the determination of the respective circumferential register and / or the position of the transverse fold indicating folding line 21 required data z. B. be acted upon by the belonging to the printing machine control unit with at least a corresponding increment. This increment changes the respective position of the at least one set mirror 03 as well as the position of the fold line 21 indicating the transverse fold corresponding to the relevant section 19, preferably in a sum of predetermined steps with a minimum step size of z. B. 0.5 mm. For setting longer distances x; y are correspondingly many steps each with the minimum step size required. The maximum adjustment is in the range of z. B. 10 mm to 20 mm, preferably at about 15 mm. By imprinting a corresponding increment on the data communicated in the master axis, the data printed in the printing press with at least one printed image 02 or at least with respect to a cutting position of the web 01 to be printed with respect to their transport direction T either forward or backward, wherein the respective cutting position by the respective position of the transversely to the transport direction T of the web 01 directed boundary lines 14; 17 is fixed and usually not changed. The data defining the circumferential register and / or the position of the transverse fold data z. B. set by the control unit supplied production data.

Fig. 5 explained in a schematic representation by way of example, as the relevant position of the at least one directed between the two transverse to the transport direction T of the web 01 boundary lines 14; 17 set set level 03 relative to the position of the fold line 21 of the between the two boundary lines 14; 17 transverse fold z. B. in conjunction with an existing in the printing machine automatic cut register control can be set. In the in the Fig. 5 The example shown in at least one printing unit of the printing machine with at least one print image 02 provided material web 01 in its transport direction T z. B. via a stationary guide roller 27 and a variable position register roller 28 and a hopper roller 29 a former 31 is fed, by means of which the web 01 is folded longitudinally, after which this web 01 introduced into a folder 32 and other devices of the folder 32 is supplied. In the folder 32 z. B. at least one cutting cylinder 33, a Punktur- and folding blade 34 and a jaw cylinder 36 is arranged, wherein in a Nipp between the cutting cylinder 33 and the Punktur- and folding blade 34, a section 19 after the other from the run into the folder 32 and z. B. already longitudinally folded web of material 01 are separated. This separation method is z. B. executed after each full revolution of the cutting cylinder 33. The separated from the web 01 sections 19 are held on the circumference of the Punktur- and folding blade 34 by means arranged there holding elements, in particular Punkturnadeln, and during a rotation of this Punktur- and Folding blade 34 passed to the jaw cylinder 36, wherein z. B. with the transfer of the relevant section 19 from the Punktur- and folding blade 34 to the jaw cylinder 36 Querfalzung of the relevant section 19 is executed. From the jaw cylinder 36 from the individual reach now at least once also cross-folded portions 19 z. B. via a tape guide to a delivery of the folder 32, where they z. B. are tapped as finished printed products or at least can be tapped.

Establishing the respective cutting position, which the respective position of the transverse to the transport direction T of the web 01 directed boundary lines 14; 17 correspond, z. B. an automatic cut register control is used, which has at least one in the transport direction T of the web 01 position-fixed, directed to the web 01 detection device 37, wherein the z. B. formed as a camera or a scanner detection device 37 is arranged in particular in the region between the registration roller 28 and the funnel inlet roller 29 and at least one on the surface of the web 01 z. B. registered in a printed image 02 register mark and a signal corresponding to this detection of a z. B. electronic control unit 38, wherein this control unit 38 executes at least the cut-off register control in this example. This control unit 38 then controls, depending on the detection of the at least one register mark, the execution of the cutting process 33 to be performed by the cutting cylinder. For this purpose, this control unit 38 outputs a signal z. B. to the effective in the printing machine virtual master axis, which in the Fig. 5 is indicated by an output 39 to the control unit 38, from which leading axis and a drive for the rotation of the cutting cylinder 33 and a drive for the rotation of the puncturing and folding blade 34 and a drive of the relevant at least one print image 02 in the respective type mirror 03rd be controlled producing printing cylinder of a printing unit of the printing press. Since the distance between the position of the registration of the registration mark and the cutting position of the cutting cylinder 33 a is constant from the machine design known machine size, can be with knowledge of a current transport speed of the web 01 and a time for a registered register mark z. B. by means of the control unit 38 readily calculates at what time the separation process is carried out by the cutting cylinder 33. The cutting cylinder 33 is then adjusted by a provided by the virtual lead axis, acting on the relevant drive signal in its rotation angle and thus in its circumferential register such that it executes exactly at the calculated time at the correct position for the supplied material web 01 the separation process. In this way, in this example, the respective cutting position is determined in particular in relation to the respective position of the at least one set level mirror 03 arranged in the respective section 19 or at least one printed image 02 contained therein.

To control the cutting cylinder 33 is an angular position z. B. from the axis of rotation z. B. detected by means of a preferably optoelectronic encoder, said encoder provides in particular digital data. The respective angular position of the cutting cylinder 33 is always related to a specific, predetermined reference position. With reference to this reference position, that angular position of the cutting cylinder 33 is determined at which the cutting blade 41 of this cutting cylinder 33 is preferably oriented orthogonally to the peripheral line of the puncturing and folding blade cylinder 34 and capable of performing the separation process. It is envisaged that z. B. after each full revolution of the cutting cylinder 33 exactly generates a reference position indicating its reference position and passed to a cutting cylinder 33 associated control device 42, said control device 42 z. B. with the control unit 38 of the cut register control and / or with a control unit for an actuator in the Fig. 5 is indicated by a double arrow position variable register roller 28 in a data connection. The control device 42 also has an input 43, to which a control unit 42 is supplied with a signal or at least can be fed, which Signal indicates a current actual position for the transverse fold indicating fold line 21. This the current actual position of the fold line 21 indicating signal is z. B. generated by a rotational angular position of the Punktur- and folding blade 34 or the jaw cylinder 36 detecting rotary encoder and / or picked up there at the respective rotary encoder.

Although the automatic cut register control can ensure that the at least one arranged in the relevant section 19 type set 03 as centrally as possible between the two transverse to the transport direction T of the web 01 boundary lines 14; 17 is arranged, because the respective cutting position at which the cutting cylinder 33 in cooperation with the Punktur- and folding blade 34 executes the separation method, due to at least one registered register mark is adaptable. However, such a cut-off register control has no possibility of automatically reacting to a change in the position of a fold line 21 belonging to the relevant section 19 and indicating a transverse fold. Therefore, it is provided that the relevant position of the at least one set mirror 03 is determined in relation to the position of the fold line 21 by an adjustment of a circumferential register, said circumferential register z. B. refers to a particular angular position of the relevant at least one print image 02 in the respective type 03 mirror printing cylinder of a printing unit of the printing press or to a specific angular position of the cutting cylinder 33 or a certain angular position of the Punktur- and folding blade 34. The drives driving these cylinders in rotation are each connected to the virtual leading axis of the printing press and are controlled or regulated by data or signals communicated on this leading axis.

To the relevant position of the at least one between the two boundary lines 14; 17 to be defined set level 03 relative to the position of the between these two boundary lines 14; 17 transverse fold to be arranged is determined, for. B. the reference position of the cutting cylinder 33 indicating reference pulse manipulated by an original value of this reference pulse is applied with a corresponding increment and then the increment of the changed reference pulse instead of the original reference pulse z. B. to the control unit 38 of the cut register control and / or to the control unit for the actuator of the position variable register roller 28 and / or to the control unit for which the at least one print image 02 in the respective type area 03 producing printing cylinder of the printing unit of the printing press is passed. The increment added to the original value of the reference pulse changes the reference position of the cutting cylinder 33 such that this reference position is assigned to a position other than the original angular position of the cutting cylinder 33. The supply of the modified reference pulse z. B. to the control unit 38 of the cut-off register control and / or to the control unit for the actuator of the position variable register roller 28 and / or to the control unit for the at least one print image 02 in the respective type area 03 producing printing cylinder of the printing unit of the printing press has the result that these control units incorporate the changed reference pulse into the respective control or control carried out by them, whereby the respective regulation or control takes into account the changed position of the fold line 21 of the transverse fold.

The increment added to the original value of the reference pulse is preferably signed to perform positive or negative compensation as needed. In the example described above, the reference pulse indicative of the reference position of the cutting cylinder 33 forms at least part of the data required for setting the respective circumferential register and / or the position of the fold line 21 indicating the transverse fold. The increment represents a rotation angle by which the reference position of the cutting cylinder 33 is changed from an original position for this reference position along a circumferential line of this cutting cylinder 33, so that the reference position of the cutting cylinder 33 is assigned to a different than the original angular position. One full revolution of the cutting cylinder 33 is in several, z. B. divided into one thousand, two thousand or more angle sections, wherein the original position of the reference position to be added increment represents a rotation angle, which preferably comprises a plurality of vorgenanten angle sections. If the increment is not automatically added to the original value of the reference pulse, it may be or may be provided that the increment is entered and / or changed at a control station belonging to the printing press, in particular at a screen mask displayed on a monitor. A value for the increment is z. B. depending on z. B. of the respective production, ie the production data underlying this production, automatically proposed or is at least selectable from a list of values.

This results in a summary of a method for determining a respective position of at least one print area 03 on a in a printing machine with at least one print image 02 to be printed web 01, wherein the at least one print image 02 on one of the respective type 03 mirror useful area of the web 01 is printed, wherein the relevant position of the at least one set mirror 03 is set in a section 19 of this material web 01, wherein this section 19 of two in the transport direction T of the web 01 at a distance successive, transverse to the transport direction T of the web 01 directed boundary lines 14th ; 17 is limited, wherein the relevant section 19 at one between its two boundary lines 14; 17 fixed position of a fold line 21 with a parallel to these boundary lines 14; 17 extending transverse fold is provided, wherein in the transport direction T of the web 01 successively a plurality of such each provided with a transverse fold portions 19 are provided, wherein in several of these sections 19, the relevant position of the at least one between the respective two boundary lines 14; 17 set level 03 to be defined by one of a Control unit is established, wherein at least one of a plurality of successive sections 19 with a data supplied to the control unit detecting device 37, an existing or expected deviation of the position of the folding line 21 of the transverse fold is determined by a desired position, the the control unit executed control or regulation in particular a circumferential register of acting on the web 01 or sections 19 cylinder counteracts this detected deviation such that at that portion 19, where the deviation was detected, and / or at least one portion 19 following this section 19 a respective existing before this deviation relative position of the set in the relevant section 19 set level 03 to the desired position of the folding line 21 of the transverse fold, taking into account a valid for this relative position Tol eranzbereiches is restored.

In a preferred embodiment of the proposed method is used as a target position for the fold line 21 of between the respective two boundary lines 14; 17 to be arranged transverse fold a center of a directed in the direction of transport T of the web 01 length a19 of the relevant section 19. In the determined deviation of the position of the fold line 21 of between the respective two boundary lines 14; 17 transverse fold to be arranged from the desired position by a distance x; y in the direction of one of these two boundary lines 14; 17, the relevant position of the at least one between the respective two boundary lines 14; 17 set set mirror 03 preferably changed in several small steps in the same direction as the deviation of the position of the fold line 21 of the transverse fold.

It can be provided that the relevant position of the at least one typesetting mirror 03 produced by an adjustment of the circumferential register on a respective at least one print image 02 in the respective type area mirror 03 Printing cylinder of the printing unit of the printing press is set. Alternatively or additionally, it can be provided that the relevant position of the at least one set mirror 03 is determined by setting a circumferential register on the cutting cylinder 33 and / or on a puncturing and folding blade cylinder 34 and / or on a jaw cylinder 36 of the folding apparatus 32. In both embodiments, a compensation of the detected deviation of the position of the fold line 21 of the transverse fold can be effected in that for determining the respective circumferential register data required in each case be charged with an increment, wherein the peripheral register specifying data z. B. depending on production data. It can be provided that an original value of a reference position of the cutting cylinder 33 indicating reference pulse is applied to the increment. Then, the reference pulse applied to the increment is preferably applied to a control unit of a cut register control and / or to a control unit for an actuator of a position variable register roller 28 and / or to a control unit for the printing unit cylinder of the printing unit producing the at least one print image 02 in the respective type area mirror 03 Guided printing press and in the determination of the circumferential register of the respective cylinder, ie the printing unit cylinder or each arranged in the folding unit 32 cutting cylinder 33 and / or the Punktur- and folding blade 34 and / or the jaw cylinder 36 taken into account.

LIST OF REFERENCE NUMBERS

01

web

02

print image

03

type area

04

edge

05

-

06

edge

07

edge

08

edge

09

web

10

-

11

web

12

web

13

web

14

boundary line

15

-

16

boundary line

17

boundary line

18

boundary line

19

section

20

-

21

fold line

22

web

23

web

24

edge

25

-

26

edge

27

deflecting

28

register roll

29

Former inlet roller

30

-

31

formers

32

folding

33

cutting cylinder

34

Puncture and folding blade cylinder

35

-

36

jaw cylinder

37

detector

38

control unit

39

output

40

-

41

cutting blade

42

control device

43

entrance

a03

length

a09

distance

a11

distance

a12

distance

a13

distance

a19

length

a22

distance

a23

distance

T

transport direction

x

route

y

route

Claims (15)

1. A method for determining a particular position of at least one type area (03) on a material web (01) to be imprinted with at least one print image (02) in a printing press, wherein the at least one print image (02) is printed on the usable area on the material web (01) defined by the respective type area (03), wherein the respective position of the at least one type area (03) is determined within a section (19) of said material web (01), wherein said section (19) is delimited by two boundary lines (14; 17) successively spaced in the running direction (T) of the material web (01) and arranged transversely to said running direction (T) of the material web (01), wherein the respective section (19) having a folding line (21) located at a position determined between its two boundary lines (14; 17) is provided with a transverse folding unit arranged in parallel to said boundary lines (14; 17), wherein it is provided that a plurality of said sections (19) each to be provided with a transverse folding unit are successively arranged in the running direction (T) of the material web (01), wherein in the plurality of said sections (19) the respective position of the at least one type area (03) to be defined, arranged between the respective boundary lines (14; 17), is determined by a control or regulation event performed by a control unit, characterized in that the position of the boundary lines (14; 17), arranged transversely to the material web (01) running direction (T) and delimiting each section (19), are not moved with respect to their relative distance from one another, thereby ensuring that a respective length (a19) of successive sections (19) within one production run remains the same, wherein in the event the position of the folding line (21) for the transverse folding unit to be provided between the boundary lines (14; 17), arranged transversely to the running direction (T) of the material web (01), is moved by a distance (x; y) in direction of one of said boundary lines (14; 17), the respective position of the at least one type area (03) to be defined, arranged between the two boundary lines (14; 17), is each moved in the same direction as the moved position of the folding line (21) for the transverse folding unit, wherein for at least one of several successive sections (19) an existing or expected deviation from the position of the folding line (21) from its target position is determined by a recording device (37) delivering data to the control unit, wherein the control or regulation of said deviation having been determined by the control unit is counteracted in a manner such that in the section (19) in which the deviation was determined and/or in at least one section (19) following said section (19) a relative position of the type area (03) to be arranged in the respective section (19), having been established prior to said respective deviation having been determined, is restored relative to the target position of the folding line (21) for the transverse folding unit, taking into account the valid tolerance region for said relative position.
2. The method according to Claim 1, characterized in that a target position of the folding line (21) for the transverse fold to be defined, arranged between each of the two boundary lines, (14; 17) is defined as being the mean length (a19) of the respective section (19) directed in the running direction (T) of the material web (01).
3. The method according to Claim 2, characterized in that in the event a deviation from the position of the folding line (21) for the transverse fold to be arranged between each of the boundary lines (14; 17) is determined from said target position having the distance (x; y) in the direction of one of said boundary lines (14; 17), the respective position of the at least one type set (03) to be determined between these two boundary lines (14; 17) is changed in several small steps in the same direction as the deviation of the folding line (21) for the transverse fold.
4. The method according to Claim 1 or 2, characterized in that the deviation of the position of the folding line (21) for the transverse fold from its target position is determined by means of a detection device (37) configured as a camera or scanner and focused on the material web (01).
5. The method according to Claim 1, characterized in that at least two type sets (03) are arranged in the respective section (19) of the material web (01) to be provided with at least one print image (02) in the printing press, wherein at least a first type set (03) is arranged at a first position in a first area between a first boundary line (17) in the running direction (T) of the material web (01) of the respective section (19) and the position of the folding line (21) for the transverse fold, and at least a second type set (03) is arranged at a second position in a second area between the position of the folding line (21) for the transverse fold and the second boundary line (14) of said section (19) running in the direction (T) of the material web (01).
6. The method according to Claims 1 or 2 or 4 or 5, characterized in that the respective section (19) is separated from the material web (01) by a separation procedure performed along at least one of the boundary lines (14; 17).
7. The method according to Claim 6, characterized in that the separation procedure is performed by a cutting cylinder (33) of a folding apparatus (32).
8. The method according to Claim 1 or 2 or 4 or 5 or 6, characterized in that the respective position of the at least one type area (03) is determined by a setting on a circumferential register arranged on a print group cylinder located on the print group of the printing press producing the respective at least one print image (02) in the respective type area (03).
9. The method according to Claim 1 or 2 or 4 or 5 or 6 or 8, characterized in that the at least one type area (03) is determined by a setting of a circumferential register located on the cutting cylinder (33) of the folding apparatus (32) and/or on a folding blade cylinder (34) located on the folding apparatus (32) and/or on a folding jaw cylinder (36) located on the folding apparatus (32).
10. The method according to Claim 8 and/or 9, characterized in that the determined deviation of the position of the folding line (21) for the transverse fold is effected by applying a respective increment to the data required for determining the respective circumferential register.
11. The method according to Claim 10, characterized in that the data determining the respective circumferential register are determined relative to the production data.
12. The method according to Claim 7 or 9 or 10, characterized in that said increment is applied to an initial value of a reference impulse indicating a reference position of the cutting cylinder (33) located on the folding apparatus (32).
13. The method according to Claim 12, characterized in that the reference impulse to which the increment was applied is directed to a control unit of a cut-off register regulator and/or to a control unit for an actuator for a position variable register roller (28) and/or to a control unit of the at least one printing group cylinder located on the printing group of the printing press producing the at least one print image (02) in the respective type area (03) and that the determination of the circumferential register of the respective cylinder is considered.
14. The method according to Claim 1 or 10 or 11, characterized in that the respective data is communicated via a virtual master axis located on said printing press.
15. The method according to Claim 14, characterized in that by application of a respective increment to the data communicated via the master axis, the type area (03) printed or to be printed with at least one print image (02) in the printing press is moved in either forward or backward position in terms of a cutting position of the material web (01) relative to its running direction (T).

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