DE4138807C1 - Colour chamber doctor - is for colour-transfer, screened circular cylindrical body such as screen roller or engraved cylinder - Google Patents

Abstract

The device works in a printing machine with a colour chamber and walls limiting the chamber space against the body. It incorporates a device for colour feed and discharge of used colour and a profile body extending axially in the colour chamber, fixed to a retainer on a doctor box between the colour input and output guides. The profile body (11) is provided with a pressure nose formation (10) spaced from the body cover surface and forming an axially extending flow gap (12). The pressure nose formation has a recess (14) in the rotary direction of the body (2) on the colour discharge side for a cross-sectional widening for sudden pressure drop in the part space of the chamber space behind the pressure nose (10). USE/ADVANTAGE - In colour printing processes, to improve the colour chamber doctor by simple technical means.

Description

The invention relates to an ink chamber doctor blade according to the Oberbe handle of claim 1.

In known single-chamber doctor blades, the printing ink is in the bottom part of the ink chamber either in the middle or on the fed to both chamber ends and then flows in the doctor box in the longitudinal direction parallel to the anilox roller under interlacing by the rotating anilox roller to in the upper part of the Ink chamber to be led away again. The single chamber squeegee has a positive squeegee and a negative squeegee that over Shot color when rotating the anilox roller with a circumference speed of, for example, 100 m / min in the upper part of the ink chamber.

The disadvantage here is that the very numerous small Well on the perimeter of the anilox roller over time Gradually fill in residual ink and old printing ink and then  can no longer absorb enough new ink, whereby the print quality deteriorates considerably.

The anilox rollers must therefore be in shorter regular intervals stands, for example weekly, with very aggressive Means are brushed out and cleaned, which is in the external very small grid spacing of the wells very labor intensive is siv when proper cleaning is achieved should.

In addition, in the known single-chamber doctor blade higher speeds of the anilox roller a higher Pressure build-up in the ink chamber through which the upper negative arched outwards in the direction of rotation of the anilox roller can be, so that the knife edge of the negative squeegee is not fits snugly around the perimeter of the anilox roller, but lightly is tilted, which results in a kind of aquaplaning effect through which the squeegee edge extends from the circumference of the anilox roller is lifted off, so that this on the webs between the Ra star bowls no longer properly cleaned from the printing ink is inclined.

It should also be borne in mind that the liquid printing ink among other components from solvents and solid particle is composed. These solid particles that serve the coloring are intimate with the solvent mixed, but the solid particles can be centrifuged gas forces are separated from the solvent what color changes.

This danger arises in particular from an uncontrolled one Swirling of the ink in the squeegee box, which at the inlet in the ink chamber of the squeegee box is the largest and between Intake duct and outlet duct assume different dimensions  can, in order to stabilize again only in front of the outlet duct ren.

It also becomes largely the case with the known ink chamber doctor blades leave to chance whether a well of the anilox roller at Passing the squeegee box filled with fresh ink will or not. This results in imperfections in the printed image. This also applies accordingly to ink chamber doctor blades with depth printing roller on gravure printing machines as well as for chamber doctor blades with anilox roller for even application of thin adhesive layers of fabric on carrier films or web materials or Application of thin magnetic layers on magnetic tapes for example for tapes or video cassettes.

From DE 37 37 531 A1 an ink chamber doctor blade is the beginning known type known as a paint application bar for a Flush inking unit of a rotary printing machine is formed. In the paint distribution chamber of this paint application bar is between between two doctor blades a profile body freely flowable and arranged pivotable or rotatable. This is supposed to be achieved be that by building a uniform flow of paint an even color contact with the paint without turbulence application roller at high peripheral speeds is possible and a color liquid print for better filling of the wells Chen the inking roller is adjustable. The profile body is elliptical in cross section. Swiveling the profile body around its axis of rotation thus has a change in one smallest gap width, the gap from the Anilox roller and the outer surface facing the anilox roller of the profile body is formed. A power of color in As seen in the direction of rotation of the anilox roller, the gap is just before the smallest gap width largest. After a specified there The formula below has a change in the smallest column width thus an immediate change in the force of the color on the Ra result roller. A pivoting of the profile body  is done by the outside on the side plates of the color Applicator devices attached to the application bar. The Verstel can be done by hand or by an actuator.

The profile body can with this known paint application bar also have a wing profile or two opposite each other have concave lateral surfaces, but always after narrowing the gap between the profile body and the lateral surface of the anilox roller the gap width gradually expanded again and thus a correspondingly all gradual relaxation in the wells of the anilox roller pressed ink after passing through the anilox roller in the direction of rotation behind the profile body. The Ink is reduced by narrowing the gap width in the Cups of the anilox roller are only slightly compressed and then not suddenly relaxed again, so that the in the color parts of the wells are not replaced by new color flows be replaced. A special cleaning and color The exchange effect is only due to the narrowing of the Gap width not achieved.

In another known inking unit for the improvement of the Ink application in high-pressure newspaper presses (DE- Magazine ifra newspaper technology, September 1989, pages 1 to 5) is an ink chamber with a lower inlet and an upper outlet between two doctor blades known with one Narrowing in the direction of rotation of the anilox roller towards the ink outlet, but is also in this known paint application device the constriction is formed so that the grid in the direction of rotation do not apply a sudden drop in pressure behind the constriction occurs. The pressure present in the wells of the anilox roller liquid becomes therefore after passing through the constriction the ink chamber before the passage of the Anilox roller behind negative squeegee no further swirled.  

In another known coating device for coating running webs with a coating slip (DE 34 46 757 A1) is between the anilox roller in the direction of rotation an inlet for the coating slip and one for the order mer delimiting doctor element a guide body arranged, the but has a large distance from the anilox roller and therefore neither a pressure increase nor a pressure drop in the Coating compound as the anilox roller runs past the guide body can cause.

In another known chamber doctor blade for rotary printing maschinen (DE 38 23 340 C1) is inside the ink chamber at least one additional doctor blade provided, the or the additional doctor blades in the work position the squeegee chamber device on the applicator roller can be without necessarily touching them. The additional doctor knife can also be a wiper knife, which, however, with a pressure build-up on the edge of the squeegee the application roller lifts off.

From CH 663 362 A5 is a device for loading layers of material webs running over a support roller known with adjustable application thickness with a dosing chamber, in which a return lip is arranged so adjustable that through the return lip to a pre-metering chamber formed pre-metering gap the generation of a counter to the Direction of rotation of the material web directed barrier beam enables. This is said to be the entry of an air boundary layer with the surrounding material web at very high Ge speeds in the dosing chamber can be prevented.

The invention has for its object a Farbkammerra kel according to the preamble of claim 1 with simple tech African means to improve so that the printing ink in the Cup on the circumference of the screened or engraved cylinder  body when passing through the ink chamber better is swirled and mixed so that the wells every pass through the ink chamber evenly with new one Ink to be refilled and a deposit of solid Substance particles from the printing ink in the wells largely prevented and thereby the print image on the on the flexo Printing products manufactured in the printing press also in the long term is significantly improved.

This task is done with a generic ink chamber doctor blade according to the invention by the characterizing part of claim 1 solved while particularly advantageous developments of Invention contained in claims 2 to 15.

The invention has the advantage that as a press stud trained profile body when rotating the cylindrical Body in the wedge-shaped narrowing flow gap high pressure between the pressure nose and the surface of the body is built up, through which the liquid printing ink in the Cups on the circumference of the anilox or applicator roller presses and is constantly swirled in these.

By a sudden expansion of the cross-section in Drehrich tion of the cylindrical body behind the pressure nose then creates a sudden drop in pressure that causes that in the wells and depressions on the cylindrical Body compressed by the pressure nose, containing solvents and also suddenly compressed fluid with air bubbles relaxed and thereby at least partially from the well or recesses on the surface of the body are rinsed out again and immediately by the hydraulic fluid on top is filled up, so that also in the area behind the pressure nose color residues and impurities from the cells or Wells constantly removed and with the hydraulic fluid  continuously discharged from the upper part of the ink chamber will.

The one through the jump back and the leaping cross section extension behind the pressure nose generated lower pressure in the rinse chamber has the further advantage that a Limit the ink chamber in the direction of rotation of the cylindrical body negative squeegee is not bulged outwards, but rather, always flawless with its knife-like squeegee edge and fits snugly against the circumference of the cylindrical body without that there is an aquaplaning effect or increased wear as occurs in the prior art. This has a better one Stripping of the roller circumference by the negative doctor Episode. In addition, the service life is significantly longer for the doctor knife.

The invention thus has the advantage that the cells or Increase depressions on the circumference of the cylindrical body th pressure in the wedge-shaped narrowing pressure zone between pressure nose and body surface and through the closing sudden pressure drop with cavitation effect in the depth can be rinsed out, giving an even color take through the anilox roller / gravure roller and thus one results in constant color intensity.

Of particular advantage for a uniform color intensity it is also when the distance of the pressure nose from the body lateral surface of the circular cylindrical body by means of a Mounting neck adjustable perpendicular to the axis of rotation of the body adjustment on the squeegee box is adjustable, which means the further forward has part that the pressure nose for cleaning the Rakelka least by using the mounting bracket in a simple manner Squeegee box can be removed and reinstalled and this in no way hinders the cleaning of the squeegee box different.  

For an even supply and distribution of the printing ink It is still along the entire length of the ink chamber doctor blade of advantage if the in the flow direction of the Druckfar be in front of the pressure nose extending flow chamber through a leading edge parallel to the cylindrical body into an spray chamber and a prewash chamber which is divided through one over the entire length of the flow chamber between the leading edge and the lower side wall of the Squeegee box extending passage connected together are.

For the manufacture and assembly of the ink chamber doctor blade it is also advantageous that the squeegee box from one Bottom with lower and upper side walls between endsei term end walls is composed, and that as the lower and upper inlets and outlets in the lower and upper side wall horizontal or vertical holes are provided, each of which has a vertical or oblique Boh leads into the ink chamber.

This makes it possible in a structurally simple manner that from the inlet an injection bore perpendicular against one Injection channel is directed to the bottom of the Rakelka least substantially over its entire length in addition to the Leading edge extends, with a particularly intimate mixing and uniform distribution of the ink in the injection channel can be achieved in that the injection channel a cross widening in a V-shape towards the ink chamber cut with a rounded bottom.

The feature of the An is particularly advantageous for this award 7, while by the feature of claim 8 a even further equalization of the supply of the printing ink be to the rasterized or engraved cylindrical body can be reached. As a result, the printing ink does not get through  immediately to the circumference of the cylindrical body, but must first through a very narrow longitudinal slot of about 1 to 2 mm wide under the partition in the lower part the ink chamber with a uniform laminar flow to pass from the injection chamber to the prewash chamber to get from which the printing ink then, as before described standing, through the wedge-shaped longitudinal slot the pressure nose of the profile body over with subsequent Cavitation swirl reaches the upper ink chamber.

The upper ink chamber can also be vertical upper partition with a wider upper longitudinal slot in an upper rinse chamber and in a return chamber below be divided by the hydraulic fluid through the outlets is returned to the paint pump. The upper color chamber is through the trigger lines for the ink under a kept constant negative pressure, so that in the upper Ink chamber can not build up any significant pressure. Nevertheless is due to the cavitation vortex and the constant order Rolling of the pressure fluid in the upper ink chamber sufficient even filling of the cells or ver deepening on the cylindrical body guaranteed.

The invention thus has the advantage that the cells or Depressions on the surface of the body due to increased pressure in the wedge-shaped pressure zone and through the subsequent one Cavitation effect behind the pressure nose of the profile body in the depth can be rinsed out, which is a very even color Delivery to the grid or engraved body surface and results in a constant color intensity. By the laminar flow of ink through the narrow bottom Longitudinal slot on the partition to the prewash chamber also an even pre-rinsing of the cells on the rollers extent reached.  

Due to the low pressure in the upper ink chamber, too higher peripheral speeds with the anilox roller / deep printing roller are driven without one against the Negative direction of rotation of the cylindrical body deform and due to an aquaplaning effect of the Can lift the circumference of the anilox roller.

Preferred embodiments of the invention are in the Drawing shown schematically. Show it

Fig. 1 is a perspective depiction of a Farbkammerra kel for flexographic printing presses / gravure printing machines with screen roller / gravure roll coater, and positive and negative blade,

Fig. 2 is a vertical cross-section through a first embodiment of such an ink chamber doctor blade with a pressure nose having profiled body in the ink chamber,

Fig. 3 is a Fig. 2 corresponding cross-section through such a chamber doctor blade in operation with durchströ mender ink,

Fig. 4 shows a cross section through a comparison with FIG. 2 and 3 further modified embodiment of a like chamber doctor blade,

Fig. 5 and 6 are cross-sections of such doctoring ink chamber through further modified in detail embodiments

Fig. 7 is a rear view of the doctor blade box of the Farbkammerra angle in the direction of arrow VII of Fig. 2 and

Fig. 8 is a rear view of the modified embodiment of the ink chamber doctor blade in the direction of arrow VIII of Fig. 4.

The ink chamber doctor blade shown in FIG. 1 1 for squeegee printing with gravure roll / gravure roll to flexographic printing presses / gravure printing machines consists of a blade box 3 having an ink chamber 4 and a positive doctor blade 5 and a Negativra angle 6, which with its doctor blade or knife edge at the periphery of an ink-transferring, rest gridded circular cylindrical body 2 which rotates in the direction of arrow 7 . The color chamber 4 has a central lower inlet 8 and two upper outlets 9 for the forced circulation of the liquid pressure color by an ink pump, not shown.

As can be seen in FIGS. 2 to 8 in detail, the ink chamber doctor blades 1 shown there in cross section in the ink chamber 4 between the positive doctor blade 5 and the negative doctor blade 6 have a profile body 11 provided with a pressure nose 10 , which extends over the entire length of the circular cylindrical body 2 it stretches and forms a in the direction of rotation 7 of the body 2 increas ingly narrowing wedge-shaped flow gap 12, wherein said pushtab is located at such a small distance from the outer surface of the body 2 10 so that fluid pressure builds up in the flow gap 12 and the Printing ink during the circulation of the cylindrical body 2 past the pressure lug 10 into the upper part of the ink chamber 4 located behind the profile body 11 , which serves as a rinsing chamber.

In the direction of rotation 7 behind the pressure lug 10 , the profiled body is formed by 11 with a sharp-edged recess 14 for an abrupt cross-sectional expansion for generating a sudden pressure drop in the pressure fluid emerging from the flow gap 12 .

The distance of the pressure lug 10 from the circumference of the circular cylindrical body 2 can be adjusted in the embodiments of FIGS. 2, 3, 5 and 6 by means of a mounting bracket 16 adjustable vertically to the axis of rotation 15 on the squeegee box 3 , while in the simplified embodiment of FIG the profile body 11 of the doctor blade box is fixedly mounted. 3 4 at the bottom 17, so that the distance of the pressure nozzle 10 is constant from the periphery of the circular cylindrical body 2 and can not be changed ver.

In the two embodiments of FIGS . 2 and 3, the ink chamber 4 is formed on the rear wall of the squeegee box 3 above the lower inlet 8 for the printing ink with a horizontal injection channel 18 , which by a parallel to the circular cylindrical body 2 , pointing obliquely downward Leading edge 19 is limited. By the leading edge 19 which extends in the flow direction of the printing ink in front of the profile body 11 flow chamber is divided into an injection chamber 20 and a prewash chamber 21 which by an edge over the entire length of the flow chamber between the leading edge 19 and the lower side wall 22 of the squeegee box 3 extending passage 23 are interconnected. This passage 23 can be dimensioned further or narrower by appropriate formation of the leading edge 19 , as shown in FIGS . 2 and 3.

As can also be seen in the sectional representations of FIGS. 2 to 6, the doctor blade box 3 is composed of a base 17 with lower and upper side walls 22 , 24 and end walls at the end. As lower and upper inlets and outlets 8 , 9 , horizontal or vertical bores are provided in the lower and upper side walls 22 , 24 , each of which leads to the ink chamber 4 with a vertically or obliquely outgoing bore.

From the inlet bore 8 , an injection bore or an injection slot 25 is directed perpendicularly against the injection channel 18 , which extends to the bottom 17 of the doctor blade box 3 in wesent union over its entire length next to the leading edge 19 . The injection port 18 has a to the ink chamber 4 through a V-shape widening cross-section with a full-round th floor, and the injection bore or the injection slot 25 is opposite the bottom 17 of the doctor blade box 3 is inclined with the V-shape widening in cross-section an injection duct 18 in such a way arranged that the ver mixed in the injection channel 18 ink is passed under the leading edge 19 be the leading edge 19 into the prewash chamber 21 and against the circumference of the anilox roller 2 .

This configuration of the injection or distribution chamber 20 has the result that the ink after entering the unte ren central inlet 8 and the deflection through the injection bore or the injection slot 25 and the injection channel 18 on both sides of the injection chamber 20 over the entire length the squeegee box 3 is distributed and in the upper half of the mouth of the injection hole 25 an injection channel 18 is mixed approximately helically, to then enter between the front leading edge 19 and the lower side wall 22 of the squeegee box 3 in the pre-wash chamber 21 , where it is further mixed by, to then be drawn in by the circumferential circular cylindrical body 2 into the narrow flow gap 12 between the rollers and the parallel longitudinal edge of the pressure lug 10 , the printing ink being built up by the pressure build-up in the increasingly narrow flow gap 12 in the cups on the circumference the anilox roller is pressed in and mixed evenly.

As shown in Fig. 2 and 3 further shown, the printing ink after passing through the narrow flow gap 12 in the area of the recess 14 , where a sudden, ab rupter pressure drop occurs, through which the printing ink by a kind of cavitation effect is whirled that there is a washout effect in the wells or depressions of the circular cylindrical body 2 , which leads to a renewed exchange of the printing ink in the wells, which then pass under the negative doctor blade 6 as the roller rotates further and from it in the web areas of unnecessary Print color can be freed.

As can be seen in particular from the illustration of FIG. 3, occurs due to the cavitation effect behind the pressure nose 10 in the return chamber 26, a vacuum or at least such a low pressure that an arching of the negative doctor blade 6 is avoided, before the printing ink is led away through the two upper outlets 9 and after passing through a filter for a new injection into the ink chamber 4 is available again.

In addition to the two embodiments of FIGS. 2 and 3, as is shown in FIGS. 4 to 6, a dividing wall 27 which is fastened to or integrally formed therewith protrudes downward from the profile body 11 over its entire length and leads to the lower side wall 22 the squeegee box 3 a uniformly narrow longitudinal slot 28 for a laminar passes through the liquid ink from the injection or Ver sub-chamber 20 in the prewash chamber 21 leaves.

In addition, in these modified embodiments of the profile body 11 over its entire length still an upper partition 29 protrude upwards, which also has a longitudinal slot 30 for a laminar passage of the doctored ink to form a rinsing chamber 31 behind the upper side wall 24 of the doctor box 3 leaves the return chamber 26 free.

As shown in Fig. 4, where the lower and upper partitions 27 , 29 are subsequently attached to the profile body 11 , the upper partition 29 can also have a backflow slot 32 for circulation and additional swirling of the anilox roller / gravure roller 2nd doctored ink color between the return chamber 26 and rinse chamber 31 free.

Instead of the embodiment shown in FIG. 4, the pro filkörper 11 can be formed in one piece with both the lower partition 27 and the upper partition 29 , as shown in FIGS . 5 and 6, the protruding from the profile body 11 downwards and upwards partitions 27, 29 shaped or rounded longitudinal edges corresponding to FIG. 5 or FIG. 6 may have.

In all of the exemplary embodiments shown, the sharp-edged recess 14 is rounded off approximately in a circular shape behind the pressure lug 10 and follows the fillet 33 into a section 34 offset parallel to the circumference of the circular cylindrical body 2 , approximately tangentially increasing wall 34 . In addition to the positive squeegee 5 as well as next to the negative squeegee 6 , flow deflections 35 , 36 for the printing ink are arranged in the form of raised longitudinal edges, which also contribute to reducing the liquid pressure against the squeegee inner edge.

As for doctor blade printing units, such doctor blades can also be used for Applying thin layers of adhesive to web materials as well as for applying magnetic layers to the tape materials from tapes and video cassettes and for others comparable coating purposes advantageously used the.

List of reference numbers

1 ink chamber doctor blade
2 circular cylindrical bodies
3 squeegee box
4 color chamber
5 positive squeegees
6 negative squeegees
7 direction of rotation
8 inlet
9 outlet
10 press stud
11 profile body
12 flow gap
14 return
15 axis of rotation
16 mounting bracket
17 floor
18 injection channel
19 leading edge
20 injection chamber
21 prewash chamber
22 lower side wall
23 passage
24 upper side wall
25 injection bore / injection slot
26 return chamber
27 lower partition
28 longitudinal slot
29 upper partition
30 longitudinal slot
31 rinse chamber
32 backflow slot
33 Rounding
34 wall section
35 flow rejection (positive squeegee)
36 flow rejection (negative doctor blade)

Claims (15)

1. Ink chamber doctor blade for an ink-transferring, screened circular cylindrical body, such as an anilox roller or an engraved cylinder, on a printing press with an ink chamber with the chamber space against the walls, with a device for an ink supply and a device for removing the used ink and with an axially extending in the ink chamber, on a holder on a squeegee between the ink supply and removal BEFE Stigt profile body, characterized in that the profile body ( 11 ) with a spaced from the body surface, an axially extending flow gap ( 12 ) forming pressure lug ( 10 ) is provided, and that the pressure lug ( 10 ) in the direction of rotation of the body ( 2 ) has a recess ( 14 ) for an abrupt cross-sectional expansion for the purpose of sudden pressure drop in the partial space of the chamber space behind the pressure lug ( 10 ). 2. ink chamber doctor blade according to claim 1, characterized in that the distance of the pressure lug ( 10 ) from the body surface of the circular cylindrical body ( 2 ) by means of a perpendicular to the axis of rotation ( 15 ) of the body adjustable mounting bracket ( 16 ) on Ra kelkasten ( 3 ) adjustable is. 3. ink chamber doctor blade according to claim 1 or 2, characterized in that a in the flow direction of the printing ink in front of the printing lug ( 10 ) he extending flow chamber through a parallel to the cylindrical body ( 2 ) leading edge ( 19 ) in an injection chamber ( 20 ) and a pre-wash (21) is divided, which are located tenwandung between the leading edge (19) and the lower be (22) of the doctor blade box (3) extending passage (23) connected to each chamber over the entire length of the flow through a. 4. ink chamber doctor blade according to one of claims 1 to 3, characterized in that the Ra kelkasten ( 3 ) from a bottom ( 17 ) with lower and upper side walls ( 22 , 24 ) is composed between end walls, and that as the lower and upper inlets and outlets ( 8 , 9 ) in the lower and upper side walls ( 22 , 24 ), horizontal or vertical holes are provided, each of which has a vertically or obliquely outgoing hole in the ink chamber ( 4 ). 5. ink chamber doctor blade according to claim 4, characterized in that from the inlet ( 8 ) an injection bore / injection slot ( 25 ) is directed vertically against an injection channel ( 18 ) which is on the bottom ( 17 ) of the doctor blade box ( 3 ) substantially above the entire length of which extends next to the leading edge ( 19 ). 6. ink chamber doctor blade according to claim 4 and 5, characterized in that the injection channel ( 18 ) to the ink chamber ( 4 ) towards V-shaped widening cross section with a rounded bottom has. 7. ink chamber doctor blade according to claim 5 and 6, characterized in that the injection bore or the injection slot ( 25 ) with the cross-sectionally V-shaped injection channel ( 18 ) inclined towards the bottom ( 17 ) of the squeegee box ( 3 ) is arranged that the printing ink is passed under the an injection channel ( 18 ) laterally delimiting leading edge ( 19 ) in the prewash chamber ( 21 ) and against the circumference of the body ( 2 ). 8. ink chamber doctor blade according to one of claims 1 to 7, characterized in that from the profile body ( 11 ) over its entire length an attached or thus integrally formed partition ( 27 ) protrudes downward, the lower Seitenwan extension ( 22 ) of Squeegee box ( 3 ) a uniformly narrow longitudinal slot ( 28 ) for a uniform laminar passage of the printing ink from the injection or United part chamber ( 20 ) in the prewash chamber ( 21 ). 9. ink chamber doctor blade according to any one of claims 1 to 7 or 8, characterized in that from the profile body ( 11 ) over its entire length an upper partition ( 29 ) protrudes upwards, one to the upper side wall ( 24 ) of the doctor box ( 3 ) Longitudinal slot ( 30 ) for a uniform laminar passage of the inks from the cylindrical body ( 2 ) cured ink to form a rinsing chamber ( 31 ) and a return chamber ( 26 ). 10. ink chamber doctor blade according to claim 9, characterized in that the upper partition ( 27 ) a backflow slot ( 32 ) for a circulation of the body ( 2 ) doctored ink between the return chamber ( 26 ) and rinse chamber ( 31 ). 11. Ink chamber doctor blade according to one of claims 8 to 10, characterized in that the partitions ( 27 , 29 ) projecting from the profile body ( 11 ) downward and upward have angular longitudinal edges. 12. Ink chamber doctor blade according to one of claims 8 to 10, characterized in that the dividing walls ( 27 , 29 ) projecting downwards and upwards from the profile body ( 11 ) have rounded longitudinal edges. 13. Ink chamber doctor blade according to one of claims 1 to 7 or 8, characterized in that the recess ( 14 ) behind the pressure nose ( 10 ) is approximately circularly rounded and subsequent to the rounding ( 33 ) in a relative to the circumference of the body ( 2 ) offset parallel, approximately tangentially rising wall section ( 34 ). 14. Ink chamber doctor blade according to one of claims 1 to 13, characterized in that flow deflections ( 35 , 36 ) for the printing ink are arranged on the walls of the doctor blade box ( 3 ) in addition to a positive doctor blade ( 5 ) and next to a negative doctor blade ( 6 ). 15. ink chamber doctor blade according to one of claims 1 to 14, characterized in that the gra fourth circular cylindrical body ( 2 ) is a gravure roll.