DE102012201378A1 - Device for setting squeegee to outer surface of rotatable roller, has control unit which controls engagement force against outer surface of roller and/or position of squeegees, so that squeegees comprise value exhibited before change - Google Patents

Abstract

The device has a measuring element (11) which detects the strain at the outer surface of roller (04), and squeegees (03,06) are arranged facing against the outer surface of roller. A control unit controls the engagement force against outer surface of roller employed with squeegees and/or position of squeegees holding the squeegee joist (01) relatively to the outer surface of roller, in such a way that the squeegees comprise the value exhibited before change under consideration of specified tolerance range, if change of value of the earlier detected strain is set to new value. An independent claim is included for method for setting squeegee to outer surface of rotatable roller.

Description

The invention relates to a device for adjusting a doctor blade to a lateral surface of a rotatable roller according to the preamble of claim 1 and to a corresponding method according to the preamble of claim 9.

By the GB 1,000,840 A is a device for adjusting a extending in the axial direction of a rotatable roller doctor blade to a lateral surface of this roller known, the doctor by means of one at its two spaced axially in the axial direction of the roller hydraulic device parallel to the roller self-aligning and with a constant contact pressure to the lateral surface this roller is employed. In this case, the hydraulic device acts as a pressurized by a pneumatic device damping device to a rapid change in the setting of the doctor blade z. B. due to vibration, but a slower adjustment in the setting of the doctor z. B. due to their wear.

By the US 6,576,059 B2 is a to a roller, z. B. to an anilox roller doctor blade bar, each with a rotatably employed for rotating the roller doctor and with a counter to the rotation of the roller doctor employed, the employment of the two doctor blade by means of a hydraulic device with a constant contact pressure on the lateral surface of the respective roller , wherein a rapid change in the setting of the two doctor blade z. B. prevented due to vibration and a slower adjustment in the setting of the two doctor blade z. B. is made possible due to their wear.

The respective devices for the employment of a doctor blade according to GB 1,000,840 A and US 6,576,059 B2 is common that they make the relevant doctor blade with a defined preset force against the lateral surface of the relevant respective roller, these devices are designed such that they keep this preset contact force constant over the entire duration of the application to the lateral surface of the respective roller. As a result of wear of the doctor blade on its end projecting on the lateral surface of the roller, the latter is shortened at its other end to a holder which is held on a holder. As a result, a bending of this doctor blade changes due to the constant contact force. At constant contact force and a shortening distance between the holder of the doctor blade and the lateral surface of the respective roller increases the bending of the doctor blade. However, the changed bending of this doctor blade causes the liquid to be applied by the squeegee on the lateral surface of the respective roller, in particular a printing ink, to be no longer applied in an optimal dosage on the lateral surface of the relevant roller, because the doctor blade can be used, for example. B. with an inappropriately large part of its side surface on the lateral surface of the respective roller grinds (see 3 illustrated operating situation of a doctor blade).

In addition, the respective solution is according to GB 1,000,840 A and US 6,576,059 B2 suitable only for the application of certain liquids on the lateral surface of the respective roller, namely only of such liquids, for. As printing inks, paints or the like, which have an approximately constant viscosity or flowability during the entire duration of the application to the lateral surface of the respective roller. These aforementioned devices are not suitable for use of a non-Newtonian, especially thixotropic liquid, ie they are not suitable for a non-Newtonian liquid in which the viscosity decreases as a result of continuous mechanical stress and at least partially increases again after completion of stress. The lack of suitability results from the fact that these devices respond solely to a wear-related shortening of the doctor, but not to a change of a pressure exerted by the liquid to be applied to the doctor pressure, z. B. not on a pressure increase within a liquid to be applied to the roller providing doctor chamber.

A non-Newtonian fluid is a fluid whose viscosity does not remain constant as shearing forces on that fluid change. In the case of a thixotropic liquid, its viscosity is also time-dependent even at a constant shear rate. A thixotropic liquid thus becomes less viscous with the duration of its deformation, but upon completion of the shear stress, its viscosity increases again over time. If the liquid no longer reaches the initial value of its viscosity, then such a liquid is referred to as partially thixotropic.

The invention has for its object to provide an apparatus and method for the employment of a doctor blade to a lateral surface of a rotatable roller, said apparatus and method are also suitable for the use of a non-Newtonian, especially thixotropic liquid.

The object is achieved by the features of claim 1 and 9.

The advantages achieved by the invention are, in particular, that this apparatus and method for the employment of a doctor blade on a lateral surface of a rotatable roller even when using a non-Newtonian, in particular thixotropic liquid, the scraper preferably during the entire or at least for a major part of the time in which this doctor applies the liquid to the lateral surface of the roll, respectively taking into account the actual viscosity of this liquid in an optimal manner to the lateral surface of this roller. In addition, the adjustability and the actual employment of extending in the axial direction of the rotatable roller doctor blade to the lateral surface of this roller by regulating the employment is also improved so that even more accurate metering of the applied to the lateral surface of the roller liquid, eg. B. a printing ink, in particular a thixotropic printing ink is made possible. The improved setting of the squeegee also reduces their wear, thus extending the intervals for changing the squeegee. The employment of the doctor blade is preferably carried out remotely, z. B. from a printing machine associated control center.

Embodiments of the invention are illustrated in the drawings and will be described in more detail below.

Show it:

1 a first arrangement comprising a squeegee bar and a roller with a squeegee which is set against the roller with too little contact force;

2 the arrangement of 1 with the squeegee with proper contact with the roller;

3 the arrangement of 1 with the squeegee set to great force against the roller;

4 a diagram showing a control for setting the squeegee;

5 a second arrangement comprising a squeegee bar and a roller.

The invention will be explained using the example of belonging to a printing unit of a printing press inking unit, in particular short inking unit or anilox inking unit, wherein in the inking unit in question as a liquid ink on the lateral surface of a z. B. roller formed as an anilox roll is applied by means of at least one co-operating with a doctor blade doctor, wherein the printing ink on the anilox roll providing doctor blade chamber and the associated doctor blade each extend their respective length parallel to the axis of rotation of the anilox roller. The squeegee consists essentially of a knife-shaped metal strip, in particular steel strip, wherein an edge of this metal strip is employed with a force acting in the direction of the anilox adjusting force in a contact against or against the lateral surface of the anilox roller. The squeegee is z. B. formed as a metal strip with a width of about 20 mm, said doctor blade after a caused by operation in the printing machine wear of z. B. 10%, d. H. here maximum 2 mm of the aforementioned width, to renew.

Doctor chamber and associated squeegee are z. B. components of a doctor blade. The squeegee chamber is essentially a channel extending in the axial direction of the screen roller, to which channel at least one connecting line to a container storing the ink is connected, the ink being directed out of this container into the at least one connecting line and into the squeegee chamber by means of at least one pump and preferably pumped through the channel. This at least one pump will i. d. R. operated so that it always pumps the same amount of ink into the doctor chamber, said pump adjusts the pressure generated by it in the at least one connecting line and in the doctor chamber depending on the current viscosity of the ink. The pressure generated by the at least one pump is z. B. in the range of 0.2 bar to 2.2 bar.

The anilox roller has on its lateral surface a plurality of in a z. B. introduced regular pattern, usually very small wells - often called cups - on, in which liquid, especially ink storable and for further transport z. B. to a forme cylinder of the printing press can be provided. The non-recessed locations on the lateral surface of the anilox roller are referred to as webs, wherein z. B. 30 or up to several hundred linear depressions per centimeter z. B. are introduced by an engraving in the lateral surface of the anilox roller. The doctor employed on the lateral surface of the anilox roller in particular in opposite directions to the direction of rotation of this anilox roller frees the webs of protruding printing ink. The webs bear the mechanical stress of the staff employed against the lateral surface of the anilox roller doctor. This leaves only in the wells of the anilox roll a defined and thus controllable amount of ink, which during the rotation of this anilox roller at least partially z. B. to another roller of the inking unit of the relevant printing unit and finally z. B. is transmitted to the form cylinder of the printing press.

In the case of printing in a waterless offset printing process printing unit, which method is dispensed with a application of a dampening solution and a preparation of an existing of the ink and the dampening emulsion, an in the Apply doctor blade held thixotropic ink on the outer surface of the respective anilox roller. In such an ink used in the offset printing process, the viscosity of which, besides having the property of thixotropy, is also temperature-dependent to a considerable extent, so that the ink is in its cold operating state, eg. B. after a prolonged shutdown of the relevant printing unit of the printing press, very tough and can be conveyed by the pump in question only with a high pressure in the doctoring chamber. Due to the shear stress of the ink on the employed against the outer surface of the respective anilox roller and taking place during the rotation of the anilox roller heating of the ink, however, this ink is time-dependent increasingly thinner, which is why for an appropriate dosage of the ink and to avoid unnecessary wear on the doctor a change in the position of the doctor chamber with respect to the respective anilox roller is required. This change in the position of this doctoring chamber with respect to the respective anilox roller is brought about by a preferably a control method exporting control unit in conjunction with a controlled by this control unit, acting on the doctor bar drive, said control unit z. B. is arranged in one of the printing machine associated control station.

According to the invention, at least one measuring element is provided, which measuring element supplies a, in particular electrical, measurement signal which corresponds to a deflection of the squeegee attached to the lateral surface of the respective anilox roller with the contact force. In the preferred embodiment, this measuring element is directly on the doctor blade, z. B. on a surface of the doctor blade, arranged. The measuring element is z. B. formed as a strain gauge. By means of the measuring signal generated by the measuring element, the control unit determines a measured value for an expansion or a bending stress corresponding to this elongation, which strain on the doctor blade is generated by its current position against the lateral surface of the respective anilox roller. On the basis of the measuring signal generated by the measuring element or the measured value determined therefrom, the control unit controls in conjunction with the controlled by this control unit, acting on the doctor bar, z. B. trained as an electric motor drive the strain on the employee against the lateral surface of the respective anilox roller doctor by a change in the applied force acting thereon in dependence on the current viscosity of the applied to the outer surface of the respective anilox roller printing ink on one for the current operating situation the squeegee-bearing printing unit optimum value. This happens because in a first embodiment, the contact force of the staff employed against the lateral surface of the roller doctor in the control method z. B. during the entire or at least for a major part of the time in which this squeegee applies the liquid to the outer surface of the roller is continuously reset so that the strain or bending stress occurring in this squeegee preferably taking into account allowable tolerance limits in an optimal Value range remains. These tolerance limits define a tolerance range in which a value for the strain or bending stress occurring in the doctor blade should lie, in order to ensure an optimum operating situation for the doctor blade.

The 1 to 3 each show in a sectional view each one with respect to a roller 04 positionally adjustable doctor bar 01 with a respective printing ink leading doctor chamber 02 and at least one squeegee 03 where these are at least one squeegee 03 each with respect to a direction of rotation of the particular as an anilox roller 04 trained roller 04 preferably in opposite directions to the lateral surface of this roller 04 or anilox roller 04 is employed, this squeegee 03 with her from the lateral surface of the anilox roller 04 opposite end on one of the legs of the substantially z. B. U-shaped doctor blade 01 is arranged. The squeegee 03 is thus by means of its holder with the squeegee bar 01 firmly connected. This squeegee 03 is at least at its the lateral surface of the anilox roller 04 facing end formed flexible. The respective anilox roller 04 belongs each z. B. to an inking unit of a printing unit of a printing machine, not shown, in particular to an inking unit of a printing in a waterless offset printing process printing press. The respective squeegee bar 01 can also each one with respect to the direction of rotation of the anilox roller 04 co-rotating squeegee 06 have, with this other squeegee 06 with her from the lateral surface of the anilox roller 04 opposite end respectively on the other leg of the substantially z. B. U-shaped doctor blade 01 is arranged. Also this other squeegee 06 is by means of its holder with the squeegee bar 01 firmly connected and at least at its the lateral surface of the anilox roller 04 facing end formed flexible. The direction of rotation of the anilox roller 04 is in the 1 to 3 each indicated by a rotation arrow. An axis of rotation 09 the anilox roller 04 and a longitudinal extension of the respective squeegee bar 01 are aligned parallel to each other. There is one z. B. on the respective squeegee bars 01 acting drive 07 provided, wherein by means of the respective drive 07 in each case a distance a1; a2; a3 between a respective squeegee bar 01 firmly assigned reference point 08 and the rotation axis 09 the anilox roller 04 and thus also a contact force F of the respective doctor blade 03 ; 06 to the lateral surface of the anilox roller 04 are adjustable, as the respective the respective squeegee bars 01 assigned reference point 08 z. B. also in each case a certain edge or surface of the respective squeegee 01 can be chosen. The respective z. B. designed as a motor drive 07 is preferably in each case remotely controllable, in particular of an electrical, in particular electronic, z. B. a control station of the printing machine associated control unit 12 out.

The 1 to 3 show various operating states of a first arrangement comprising a squeegee bar 01 and a roller 04 , in particular an anilox roller 04 , where the three different in the 1 to 3 shown operating states in each case at the set distance a1; a2; a3 between the respective squeegee bar 01 assigned reference point 08 and the rotation axis 09 the anilox roller 04 and thus in the squeegee 03 ; 06 occurring strain or in the doctor blade in this 03 ; 06 distinguish prevailing bending stress. In the 1 is shown an operating state in which the distance a1 too large and thus the contact force F of the respective doctor blade 03 ; 06 are set too low (therefore, the Anstellkraft F with an index as Anstellkraft F _- called). The flexible squeegee 03 ; 06 are z. B. completely unbent. At the squeegee 03 ; 06 is the respective strain or bending stress practically equal to zero. In the in the 2 Operating state shown are the distance a2 and the corresponding contact force F of the squeegee concerned 03 ; 06 set properly. 2 shows the normal state, in which the contact force F is optimally set (therefore, the Anstellkraft F is denoted by an index as Anstellkraft F _N ). The squeegee 03 ; 06 each have at least at their respective the lateral surface of the anilox roller 04 facing end z. B. one for doctor blade chamber 02 directed slight curvature. The squeegee 03 ; 06 detectable strain or bending stress has its normal value at least within a predetermined tolerance range. The 3 shows an operating state in which the distance a3 too low and thus the contact force F of the squeegee concerned 03 ; 06 is set too high (therefore, the Anstellkraft F is designated with an index as Anstellkraft F ₊ ). The flexible squeegee 03 ; 06 here are each at least at their respective the lateral surface of the anilox roller 04 facing end z. B. too much in the direction of the doctor chamber 02 curved. The squeegee 03 ; 06 Measured strain or bending stress is much too large. The respective to the squeegee concerned 03 ; 06 acting contact force F; F _- ; F _N ; F ₊ is z. B. by one of the respective drive 07 on the respective squeegee bars 01 applied and in the direction of the anilox roller 04 acting pressure of a pneumatic and / or hydraulic device generates.

According to the invention, as in the 1 to 3 represented, z. B. at the respective opposite direction to the lateral surface of the anilox roller 04 employed squeegee 03 at least one measuring element 11 arranged, wherein the respective measuring element 11 each z. B. is designed as a strain gauge. The measuring element 11 However, it can be done on the other squeegee 06 be arranged or it can be at both squeegees 03 ; 06 in each case at least one measuring element 11 be arranged. The respective measuring element 11 detects the respective strain or bending stress of the respective squeegee 03 ; 06 at their respective the lateral surface of the anilox roller 04 facing the end. The respective measuring element 11 conducts its respective corresponding with the detected strain or bending stress corresponding measurement signal of the control unit 12 to. When the viscosity of the doctor blade in the chamber 02 provided ink changed because the ink z. B. is heated and therefore thinner or because the viscosity of this ink by their ongoing mechanical stress in the boundary region between the doctor chamber 02 and the lateral surface of the anilox roller 04 decreases, also changes of this ink in the doctor blade chamber 02 applied pressure, which pressure on the respective squeegee 03 ; 06 acts. When the pressure generated by the ink in the doctoring chamber 02 becomes smaller, the position variable blade bar arises 01 with his doctoring chamber 02 closer to the lateral surface of the anilox roller 04 at. When the pressure generated by the ink in the doctoring chamber 02 rises, moves the position variable blade beam 01 with his doctoring chamber 02 from the lateral surface of the anilox roller 04 , Thus, the respective distance a1 changes; a2; a3 between the respective squeegee bar 01 firmly assigned reference point 08 and the rotation axis 09 the anilox roller 04 , The position change of the squeegee bar 01 is caused by the squeegee 03 ; 06 on the lateral surface of the anilox roller 04 supported. A change in the doctor blade chamber 02 However, prevailing pressure also affects the elongation or bending stress of the respective squeegee 03 ; 06 at their respective the lateral surface of the anilox roller 04 facing the end, resulting from the control unit 12 based on the respective measurement signal of the respective measuring element 11 is ascertainable and actually detected. In determining a change in the preset and considered correct value, ie the normal value for the elongation or bending stress of the respective doctor 03 ; 06 puts the control unit 12 by means of the respective drive 07 the respective contact force F of the respective doctor blade 03 ; 06 to a new value that is considered correct for the respective current operating situation, this value being given for the respective setting force F by the fact that the squeegee at the respective squeegee 03 ; 06 detected strain or bending stress has their respective normal value ( 4 ). Thus, the control unit provides 12 the contact force F against the outer surface of the respective anilox roller 04 employed or at least to be set up squeegee 03 ; 06 depending on the actual viscosity of the surface of the respective anilox roller 04 be applied, in particular thixotropic ink on a for the current operating situation of the doctor blade 03 ; 06 optimal value, wherein this optimum value changes during operation of the inking unit according to a change in the viscosity of the ink used.

5 shows a second arrangement comprising a squeegee bar 01 and a roller 04 , in particular an anilox roller 04 , wherein the squeegee bar 01 with a stop surface 13 against at least one of a drive 16 adjustable stop 14 is employed. The squeegee bar 01 corresponds in its constructive structure z. B. in the 1 to 3 illustrated squeegee bars 01 why identical components are provided with the same item number. The at least one stop 14 is from the z. B. designed as a motor drive 16 along one in the 5 by a double arrow indicated travel s adjustable and thus variably positionable. The one of the with the squeegee 01 connected drive 07 applied contact force F acts on the stop surface 13 against the at least one stop 14 , The contact force F, with which the squeegee bar 01 against the at least one adjustable stop 14 hired is in 5 characterized as Anstellkraft F _A , wherein this Anstellkraft F _{A is} dimensioned such that the squeegee bar 01 with its stop surface 13 in each of the at least one position variable stop 14 occupied position against the relevant adjustable in position stop 14 remains struck. The adjusting force F _A is therefore in terms of magnitude very large compared to that Anstellkraft F, which in the first arrangement according to the 1 to 3 is spent.

In the in the 5 illustrated embodiment of the invention is the doctor bar 01 by tracking the at least one adjustable stop 14 so preferably continuously adapted in position that the at least one squeegee 03 ; 06 always optimally on the lateral surface of the roller 04 is employed. If the at least one squeegee 03 ; 06 or both squeegee 03 ; 06 during operation of the printing press by its mechanical contact with the lateral surface of the roller 04 wear and thus become shorter and shorter, the squeegee bar 01 that by the drive 07 against the at least one stop 14 applied contact force F _{A is} biased, in its distance from the lateral surface of the roller 04 repositioned, e.g. B. brought closer by the at least one position variable stop 14 is set again, in which case also the squeegee bar 01 due to his permanent employment against this at least one stop 14 to the new one from the attack in question 14 given position follows. The new position to be set of the at least one position-variable stop 14 depends on which value for the elongation or bending stress of the respective doctor blade 03 ; 06 assigned measuring element 11 currently to the control unit 12 supplies. The at least one position-variable stop 14 is adjusted by a change in its position so that the value of the strain or bending stress in the respective doctor blade 03 ; 06 is optimal or at least optimally. The value for the elongation or bending stress in the respective doctor blade 03 ; 06 then considered optimal if the squeegee concerned 03 ; 06 at least at its respective outer surface of the roller 04 facing end z. B. one for doctor blade chamber 02 directed slight curvature. Then point the squeegee 03 ; 06 detectable elongation or bending stress, at least within a predetermined tolerance range, again their current value for the current operating situation of the printing press normal value.

Both variants described above for carrying out the invention can also be carried out in their combination.

This results in a device for the employment of a doctor blade 03 ; 06 to a lateral surface of a rotatable roller 04 , wherein the one liquid on the lateral surface of the roller 04 applying squeegee 03 ; 06 at least at its the lateral surface of the roller 04 facing end is formed flexible, with a squeegee 03 ; 06 against the lateral surface of the roller 04 Anstellende adjusting force F is set, wherein at least one an elongation detecting measuring element 11 and a control unit detecting a measurement signal corresponding to the detected strain 12 are provided, wherein the of the at least one measuring element 11 detected strain at least on the lateral surface of the roller 04 facing the end against the outer surface of this roller 04 employed squeegee 03 ; 06 occurs, the control unit 12 upon a change in a value of the previously of the at least one measuring element 11 detected elongation, the contact force F against the lateral surface of the roller 04 employed squeegee 03 ; 06 and / or a relative to the lateral surface of the roller 04 related position of the squeegee concerned 03 ; 06 holding squeegee bar 01 so sets to a new value that the squeegee concerned 03 ; 06 has returned to its value prior to the change taking into account the specified tolerance. This readjustment of the contact force F and / or the position of the squeegee concerned 03 ; 06 holding squeegee bar 01 takes place especially when the viscosity of the squeegee 03 ; 06 on the lateral surface of the roller 04 changed to be applied liquid, wherein the control unit 12 a change in the viscosity of this ink by a change in the measured value for that of the at least one measuring element 11 detected elongation determines. This device is preferably used in a printing unit of a printing press that prints in a waterless offset printing process.

A corresponding method is characterized in that an elongation of the against the lateral surface of the roller 04 employed squeegee 03 ; 06 is detected, wherein the contact force F and / or a position of the against the lateral surface of the roller 04 employed squeegee 03 ; 06 then be readjusted when the strain of the against the surface of the roller 04 employed squeegee 03 ; 06 changes to a value outside the predetermined tolerance range, wherein the contact force F and / or the position of the against the lateral surface of the roller 04 employed squeegee 03 ; 06 be adjusted so that the strain again assumes a value within the specified tolerance range. In the preferred embodiment, the strain is applied against the shell surface of the roll 04 employed squeegee 03 ; 06 during the whole or at least for a major part of the time in which this squeegee 03 ; 06 the liquid on the lateral surface of the roller 04 applies, recorded continuously, taking this squeegee 03 ; 06 against the lateral surface of the roller 04 adjoining setting force F and / or the position of this squeegee 03 ; 06 relative to the lateral surface of the roller 04 be reset each time when the strain has changed to a value outside the tolerance range.

LIST OF REFERENCE NUMBERS

01

 blade beam

02

 blade chamber

03

 doctor

04

 Roller; anilox roller

05

06

 doctor

07

 drive

08

 reference point

09

 axis of rotation

10

11

 measuring element

12

 control unit

13

 stop surface

14

 attack

15

16

 drive

a1

 distance

a2

 distance

a3

 distance

s

 Travel Range

F

 contact force

F _-

 contact force

F _N

 contact force

F ₊

 contact force

F _A

 contact force

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• GB 1000840 A [0002, 0004, 0005]
• US 6576059 B2 [0003, 0004, 0005]

Claims (10)

Device for applying a doctor blade ( 03 ; 06 ) to a lateral surface of a rotatable roller ( 04 ), wherein the one liquid on the lateral surface of the roller ( 04 ) applying doctor blade ( 03 ; 06 ) at least at its the lateral surface of the roller ( 04 ) facing end is flexible, wherein a squeegee ( 03 ; 06 ) against the lateral surface of the roller ( 04 ) adjusting adjusting force (F) is set, characterized in that at least one strain-detecting measuring element ( 11 ) and a control unit detecting a measurement signal corresponding to the detected strain ( 12 ) are provided, wherein the of the at least one measuring element ( 11 ) detected strain at least on the lateral surface of the roller ( 04 ) facing the end against the outer surface of this roller ( 04 ) employed squeegee ( 03 ; 06 ) occurs, the control unit ( 12 ) in the case of a change in a value of the previously determined by the at least one measuring element ( 11 ) recorded elongation of the contact force (F) against the outer surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) and / or a relative to the lateral surface of the roller ( 04 ) related position of a particular doctor blade ( 03 ; 06 ) holding doctor blade ( 01 ) is adjusted to a new value such that the respective doctor blade ( 03 ; 06 ), taking into account a specified tolerance, has returned to its value prior to the change. Apparatus according to claim 1, characterized in that on the lateral surface of the roller ( 04 ) to be applied is a thixotropic printing ink. Apparatus according to claim 1 or 2, characterized in that the at least one measuring element ( 11 ) is formed as a strain gauge. Device according to claim 1 or 2 or 3, characterized in that the roller ( 04 ) as an inking unit belonging to an inking unit of a printing unit of a printing machine ( 04 ) is trained. Device according to claim 1 or 2 or 3 or 4, characterized in that the control unit ( 12 ) is arranged in a control station of the printing press. Apparatus according to claim 1 or 2 or 3 or 4 or 5, characterized in that for positioning of the respective doctor blade ( 03 ; 06 ) holding doctor blade ( 01 ) at least one position-variable stop ( 14 ) is provided, wherein the squeegee bar ( 01 ) with a stop surface ( 13 ) against this at least one stop ( 14 ) is employed. Apparatus according to claim 6, characterized in that one of the control unit ( 12 ) controlled drive ( 16 ), wherein the at least one position-variable stop ( 14 ) by means of the drive ( 16 ) is adjustable in its position. Method of using the device according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7, characterized in that this device is used in a printing unit printing in a waterless offset printing process. Method for applying a doctor blade ( 03 ; 06 ) to a lateral surface of a rotatable roller ( 04 ), wherein a contact force (F) or a position of the against the lateral surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) is set, characterized in that an elongation of the against the lateral surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) is detected, wherein the contact force (F) of the against the surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) and / or a position of the against the lateral surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) can be readjusted when the expansion of the against the surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) to a value outside of a predetermined tolerance range, wherein the contact force (F) and / or the position of the against the outer surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) are adjusted so that the strain again assumes a value within the specified tolerance range. A method according to claim 9, characterized in that the elongation of the against the lateral surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) throughout or at least for most of the time in which this squeegee ( 03 ; 06 ) the liquid on the lateral surface of the roller ( 04 ), is recorded continuously, whereby the doctor blade ( 03 ; 06 ) against the lateral surface of the roller ( 04 ) Anstellende adjusting force (F) and / or the position of the against the outer surface of the roller ( 04 ) employed squeegee ( 03 ; 06 ) are reset each time the strain has changed to a value outside the tolerance range.

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