EP0807710B1 - Process and device for direct or indirect application of a liquid or pasty media on a running material web,in particularly of paper or board - Google Patents

Abstract

The assembly, to apply a liquid or paste coating to a paper or cardboard web, has a carrier beam mounted at least at two points across the web width. The carrier beam carries a scraper blade against the counter roller (14). Each mounting point has two spaced setting rods (6) with one end at linkages (P1,P5) at the carrier beam and the other ends linked (P2,P6) to at least one foundation (12,12'). At least one support rod (10) has one end at a linkage (P3) at the carrier beam, and the other end linked (P4) to the foundation (12'). At least one rod (6,10) has a length adjustment. Also claimed is a web coating operation with a related and/or unrelated controlled length setting of at least one setting rod (6) or support rod (10) for each mounting point, to adjust the coating scraping angle ( alpha ) between the scraper blade and the facing counter roller (14) and/or a scraper pressure unit and/or the carrier beam for positioning in a working, inactive or intermediate setting.

Description

The invention relates to a device for direct or indirect application of a liquid or pasty medium a running material web, in particular made of paper or Carton, according to the preamble of claim 1.

Furthermore, the invention relates to a method for direct or indirect application of a liquid or pasty Medium on a running material web, in particular from Paper or cardboard.

Such devices and methods are diverse Design known. Known devices include Commissioned works resting on a supporting beam and either for the direct or indirect application of a liquid or pasty coating medium on a running material web or for final dosing of a previously applied onto the material web Coating medium are designed. Usually the Application of the coating medium via a pressure chamber with a Doctor element, a free jet nozzle or a comparable other known application device. With the so-called the coating medium is applied directly to the e.g. from a counter roller opposite the support beam supported running material web applied, while at indirect application of the coating medium, e.g. on a applicator roller opposite the support beam and then from the surface of which is transferred to the material web. in the second case, that is to say with an order unit for final dosing a doctor blade or a comparable other known Doctor element provided to the already on the material web applied coating slip to the desired application quantity fine dosing.

From DE-C-4130118, such as and WO-A-9516073 and US-A-5035196, a generic device for direct or indirect application of a liquid or pasty medium on a running material web, in particular made of paper or cardboard, known, with a supporting beam, the in its longitudinal direction essentially over the entire Width of the material web extends at two bearing points is stored and a final metering device in the form of a Squeegee blade, a squeegee or a scraper bar. In this device, the two bearings are in two each at the front ends of the support beam, i.e. outside the web width of the running material web, arranged long swivel arms, by means of which the support beam about an axis parallel to the longitudinal axis of the supporting beam into a Working, intermediate and maintenance position is pivotable. However, this type of device does not only have that Disadvantage of problematic supporting beam deflections and comparatively low natural frequencies, too undesirable resonances, e.g. with vibration frequencies of Base of the device or the hall floor in which the Device is set up, lead, but requires about it a very large, massive and therefore heavy and costly pivoting device. An adaptation in itself changing operating conditions, such as changing Counter roll diameter, wear of the final metering device, Change the coating angle setting between the Enddosiereinrichtung and the counter roller or a change in Contact pressure of the final metering device is with this Device, however, only with considerable effort and partially not possible at all. Fast swiveling movements of the The supporting beams can be moved due to the high masses and long lever arms only using powerful and so that expensive actuators are executed.

Furthermore, it has been found in conventional devices proved problematic when using doctor blades an adjustment of the Blade angle, i.e. the angle between the doctor blade and one placed on the opposite application roller Tangent, by swiveling the supporting beam to one unwanted changes in the blade pressure or even Lifting off the doctor blade and secondly a change in the Blade contact pressure to undesirable changes in the Blade angle and thus to an irregularity of the Coating profile results in what the quality of the finished Product.

The invention is therefore based on the technical problem to create a generic device that the above avoids mentioned problems of the prior art and the a simple and effective way to adapt the Device to changing operating conditions, in particular a change of the string or Blade angle and the contact pressure of the final metering device, enables.

This object is achieved by a device according to the invention solved the features of claim 1.

Accordingly, a respective storage location of the device comprises two spaced apart bearing rods, each with one end articulated at articulation points of the support beam and with its other end articulated on at least one foundation are fixed. The support beam thus comprises a total of two Bearing rod pairs, i.e. one bearing rod pair per Depository. Furthermore, at least one support rod is included one end articulated to the support beam and with its other end articulated to the foundation. Furthermore, at least one of the aforementioned rods adjustable in length. It should be noted that under a length adjustment of one of the two bearing rods one Bearing position of course a synchronous adjustment of the corresponding bearing rod of the two bearing rods on the other Bearing point is to be understood to tilt the support beam to avoid and to evenly adjust the To ensure the supporting beam. Just as synchronous Adjustment is required if there is more than one support rod is used. The hinge point or the Joint axis of the at least one support rod is to be reached a certain desired support beam movement preferably spaced from the hinge points of the two bearing rods or differs from the joint axes of these two bearing rods. With a suitable arrangement of the articulation points or hinge axes of the two bearing rods can Hinge point or the hinge axis of the at least a support rod, however, with the hinge point or Joint axis of one of the two bearing rods coincide.

Within the meaning of the invention, bars are any Understand transmission links with two pivot points. In the inventive design form either the two spaced apart bearing rods together with the Support beam or one of the two bearing rods together with the at least one support rod and the support beam at the side Examination of the application work, a kind of quadrilateral joint, the Support beam as a connecting link between the bearing bars or between a storage stick per storage location and serves the support rod. At least one of the mentioned bars, the as a simple lever or adjustable in length can be designed, this stabilizes itself movable structure. That from the bearing rods, the support beam and the at least one support rod The overall construction is therefore rigid, if not at least one of the rods is adjusted. In a top view of the Support beam form the two bearing rod pairs together with the at least one support rod a kind of tripod. As joints for the rods can also be suitable flexible or serve elastic components or hinges.

The device according to the invention allows the application mechanism of the device to be adapted to changing operating conditions in a simple and effective manner, in particular it enables the strike angle (or blade angle if a doctor blade is used as a final metering device) and the contact pressure of the final metering device to be changed easily ongoing operation as well as at standstill. Not only this adjustment of the end metering device, but also a movement of the entire support beam into an operating, standby or service or maintenance position can be done universally by only one. Functional component, namely the length-adjustable rods. This saves complex and expensive additional individual adjusting devices and therefore allows a simplified and less expensive overall construction. Since in the case of a length adjustment, in particular an opposing length adjustment, one of the two bearing rods and the at least one support rod, which together with one of the bearing rods takes on a substantial part in the adjustment of the supporting beam and the components associated with the supporting beam, is an essentially rotary or combined one rotatory-translational movement of the support beam around an axis or on a short movement path near the axis of the lowest moment of inertia of the support beam, the adjustment movements can be carried out very quickly and with little effort.
Due to its specific design, the device according to the invention, with a suitable choice of the respective rod lengths and positions and the arrangement of the articulation points of the support beam, also opens up the possibility of setting a largely arbitrary blade angle of the final metering device without the blade lifting off the counter roller during the adjustment process, the contact pressure changes unintentionally or there is an impermissible deflection of the blade. This ensures a regular coating profile and contributes to the creation of a high quality end product. It should be noted that the position of the point of contact between the blade tip of a doctor blade used as a final metering device and the counter roller, ie the applicator roller, changes slightly when the blade angle is adjusted due to the special design of the device according to the invention. However, this does not affect the application of the liquid or pasty medium in any way, since the blade tip follows when the roller contour is adjusted and is always optimally in contact with the counter-roller when the component geometries and positions are selected appropriately. In this way, the device can be easily adapted to different roller diameters and to any blade wear. The device according to the invention is also suitable for various types of final metering devices, for example for doctor bars (for example PC-Rollflex®), scraper bars, or when using doctor blades for both so-called stiff-blade and bent-blade operation. In this way, the device can adapt flexibly to any larger blade angle changes or deviations. The device according to the invention is therefore basically suitable for processing a wide variety of material web types.

According to an advantageous embodiment of the invention it is provided that the hinge points of the support beam the two bearing rods essentially match. This Configuration is particularly convenient to the one previously described desired movement of the support beam to adjust the Blade angle and the contact pressure to realize.

In a preferred embodiment of the invention, the Bearing rods and / or the at least one support rod further than length-adjustable actuators designed. In such Actuators can be suitable, for example mechanical, hydraulic, pneumatic, electrical, electromagnetic actuators and the like, and more Act combinations of these.

Another advantageous embodiment of the invention provides that the length-adjustable actuators are dependent and / or are adjustable independently of one another. To this Way can be by a suitable, coordinated Movement of one or more of these actuators Desired movement of the support beam and directly on it or indirectly attached components, especially the Final metering device, such as a doctor blade and the like, relative to one of the support beams opposite counter roller are executed.

It has proven to be of advantage that the device according to the invention further at least one Control and / or control and / or regulating device for controlled adjustment of the length-adjustable rods or actuators. When using a Control device advantageously includes one automatic control loop based on measured values for example the blade angle, the contact pressure, the Cross profile or other properties of the counter roll applied liquid or pasty medium especially the Final dosing device, i.e. the blade angle and if necessary, the contact pressure of the doctor blade suitable adjustment of the length-adjustable actuators and thus readjusted by moving the supporting beam. This permits the fastest possible adaptation of the commissioned work the device to changed conditions and avoids also longer downtimes. The invention Control and / or control and / or regulating device can further include components that also include a manual, automatic or remote-controlled actuation of the actuators allow. It also enables a central one if required Control or regulation and control-related linkage of the length-adjustable actuators with other components the device.

According to a further advantageous embodiment of the Invention is provided that the at least one articulated Supported support rod related to the longitudinal direction of the supporting beam in Bar center is arranged. According to an equally advantageous one Design variant of the at least one articulated Supported support bar related to the longitudinal direction of the supporting beam however, it may also be arranged asymmetrically to the center of the supporting beam. In this way, the two can be hinged Bearing rods and movable structures shaped the supporting beam stabilized particularly easily and the distance of the support beam over its entire length relative to opposite counter roll to a constant value being held.

Another cheap modification according to the invention provides that the at least one articulated support rod at least one bearing point is provided. Using it is therefore only a support rod also an arrangement asymmetrical to the center of the supporting beam. This also allows a very stable and rigid fixation of the Beam and an exact positioning relative to opposite counter roller. Furthermore, the support rod in this position due to its proximity to the side Beam ends also easily accessible and easy to maintain.

For the device according to the invention there is a doctor blade as a particularly advantageous final metering device exposed. As already mentioned above, at However, the device according to the invention not only different doctor blade designs, such as stiff blade and bent blade driving style, but also various others Final metering devices such as doctor blades or the like successfully used.

According to the invention it is provided that the Bearing points of the supporting beam in the longitudinal direction of the beam in each case a distance to its two front ends inside the longitudinal beam extension are arranged. This arrangement the bearing points of the support beam decreased at the same Cross sections and wall thicknesses the deflection of the support beam compared to conventional designs. Furthermore, at this solution according to the invention the natural frequency of Support beam higher than with conventional configurations. This results in a larger distance between the natural frequency of the Support beam from the vibration frequencies e.g. of Machine foundations and the hall floor on which the Applicator is at rest so that a resonance oscillation in the supporting beam is reliably prevented. Due to the higher natural frequency there is also greater flexibility in terms of constructive design of the supporting beam.

In a preferred embodiment of the invention, the two bearing points of the supporting beam in the longitudinal direction of the beam arranged symmetrically to the center of the beam. In case it's due structural conditions is appropriate, the two Bearing in a further favorable embodiment of the Invention in the longitudinal direction of the bar, however, also asymmetrical Bar center can be arranged.

In a particularly favorable embodiment of the invention are the distances between the bearing points and the front Bar ends each 15% to 30% of the bar length. there can the distances of the bearings to each adjacent end ends of the beam equal to or be different, so that a symmetrical or there is an asymmetrical arrangement of the bearing points. At a preferred embodiment with symmetrical to the center of the bar arranged bearings is the distance between Bearing point and end of the beam with regard to one as little beam deflection as possible in a length range, which is about 22% to 25% of the beam length.

A further advantageous embodiment of the invention exists in the support beam with a known Deflection compensation device. At a such deflection compensation device can be one on a thermal, pneumatic or hydraulic Equalization based configuration, but also about one on another balancing principle, such as one magnetic, inductive or mechanical compensation based Configuration. For example, there is a convenient solution in extending in the longitudinal direction of the support beam or push rods that are connected via pulling or Printing devices are operated to avoid unwanted Compensate deflections. Because the higher Natural frequency in the solution according to the invention the wall thicknesses of the supporting beam can also be reduced Deflection compensation device compared to one conventional construction can be dimensioned smaller because the support beam with the smaller wall thicknesses in can compensate for its deflection. Both through the lower wall thickness of the support beam as well as by the less complex deflection compensation device you get a lighter according to the invention Supporting beams. The solution according to the invention can therefore also be used Realize cheaper. The cross-sectional shape of the The supporting beam can vary depending on the structural conditions triangular, polygonal, round or in any other suitable way to get voted.

The object underlying the invention is further solved by an inventive method for direct or indirect application of a liquid or pasty medium a running material web, in particular made of paper or Carton, by means of a device according to claim 1, wherein the Method comprising the features of claim 16.

In such a method, one according to the invention comprises Process step an independent and / or dependent controlled length adjustment of at least one of the bearing rods of the device per bearing or that at least one support rod to Bell angle between the final metering device and the Opposing roller and / or a device Contact pressure of the final metering device on this counter roller adjust and / or the support beam in an operating, Move intermediate or maintenance position. In the sense of the Invention can adjust the different rods can also be executed sequentially.

A single rod length adjustment (always with the bearing rods related to a respective bearing point of the support beam) therefore perform several functions, i.e. the aforementioned Adjustment of the line or blade angle of the Enddosiereinrichtung, the change in contact pressure Final dosing device or moving the support beam into a Operating, intermediate or maintenance position. Additionally offers the method according to the invention which is already related advantages described with the device according to the invention.

Another advantageous process step of The method according to the invention provides for movement of the support beam on a predetermined trajectory by means of each other independent and / or dependent controlled Length adjustment of the two bearing rods of a respective one Bearing point of the supporting beam. At the same time Adjustment of both bearing rods per bearing, this Adjustment can be quite different, the length of the at least one support rod, it is adjustable in length or not, kept constant.

Moreover, according to another it is advantageous Embodiment of the method according to the invention Method step provided in which the support beam by means of independent and / or dependent controlled Length adjustment of at least one of the two bearing rods per Bearing point and the at least one support rod on one predetermined trajectory is moved. In this way, the Freedom of movement of the support beam can be expanded. Is at this process step only one of the two bearing rods per Bearing position adjusted, the length of the not operated Bearing rod, whether adjustable in length or not, constant held. With a suitable choice of lengths and arrangement of Rods of the device, the path curve can be influenced so that it shrinks to almost a point, i.e. the support beam essentially rotates. An adjustment of both two bearing rods as well as the at least one support rod also encompassed by this process step. The respective Adjustment movements can be in the same direction and / or in opposite directions his.

Another advantageous embodiment of the The inventive method provides that the support beam a predetermined trajectory by means of independent and / or dependent controlled length adjustment of at least one of the two bearing rods per bearing position and at least one a support rod is moved.

Depending on the application, the support beam can advantageously also by means of an independent and / or dependent one controlled length adjustment of the two bearing rods per Bearing point are moved on a predetermined trajectory.

Furthermore, it has proven to be particularly favorable that according to a further advantageous embodiment of the method of moving the supporting beam (2) and changing the strike angle only by controlled Length adjustment of the support rod is effected so that the Final metering device during the movement of the supporting beam and the Change the stroke angle of the contour of the counter roll in follows essentially exactly.

The possibility of using the previously described Process steps naturally depend on the particular one Design of the device according to the invention.

According to a further advantageous embodiment of the Invention is provided that the movement of the support beam automatically regulated by means of suitable control devices is, the regulation depending on a desired Coating weight and / or wear of the Final metering device and / or the counter roller takes place. This again allows the fastest possible adjustment of the Application of the device to changed conditions and avoids longer downtimes. This also enables Measure if necessary a central control and control engineering linkage of the movement of the Length-adjustable actuators with a supporting beam other components of the device.

The one provided according to the invention has proven particularly useful computer-aided regulation of the movement of the supporting beam.

A preferred embodiment and further details and Advantages of the device according to the invention and the The method according to the invention are now described below Described and explained with reference to the drawings.

Fig. 1

eine schematische Perspektivansicht einer ersten Ausführungsform der erfindungsgemäßen Vorrichtung,

Fig. 2

eine schematische Seitenansicht der in Fig. 1 dargestellten erfindungsgemäßen Vorrichtung im Bereich einer Lagerstelle, und

Fig. 3

eine der Fig. 2 vergleichbare Seitenansicht einer zweiten Ausführungsform der erfindungsgemäßen Vorrichtung.

It shows:

Fig. 1

2 shows a schematic perspective view of a first embodiment of the device according to the invention,

Fig. 2

2 shows a schematic side view of the device according to the invention shown in FIG. 1 in the area of a bearing point, and

Fig. 3

a side view comparable to FIG. 2 of a second embodiment of the device according to the invention.

In the description below and in the drawings to avoid repetition, the same components or Components also identified by the same reference numerals unless further differentiation is required.

Figure 1 is a schematic perspective Representation of a first general embodiment of a Device according to the invention for direct or indirect Apply a liquid or pasty medium to a running material web, in particular made of paper or cardboard refer to. The one not shown in this figure Counter roll (which is basically both a one running material support roller for a direct Application of a coating medium as well as around an application roller Execution of an indirect application of the coating medium opposite device comprises one Beam 2, consisting of an outer tube with a closed polygonal cross-section, i.e. in the present case an im essential triangular cross section. In principle, however, any other suitable one Cross section usable. Inside the outer tube is a Inner tube arranged with a closed circular cross section and connected in one piece to the outer tube. The inner tube and additional connecting web walls between the inner tube and divide the space between the inner tube and the outer tube Outer tube in several chambers. This interior structure of the Support beam 2, depending on the particular Use case quite from the one described above Construction may differ, is not in the figures shown in more detail.

The support beam 2 is only clean on two in FIG. 1 schematically indicated bearings S stored, of which the one (the left in Figure 1) as a fixed bearing and the others (the right one in FIG. 1) are designed as floating bearings is. The bearing points S are symmetrical in the present case arranged to the middle of the supporting beam and are from the front Ends of the support beam 2 each by an equal distance A, A 'indented towards the center. The ratio of the distance A, A 'between bearing S and the neighboring one end of the beam to the total length L of the support beam 2 is in the range of 15% to 30%. With a view to there has been as little beam deflection as possible Range of about 22% to 25% is particularly suitable proven. With an asymmetrical, not shown Arrangement of the bearing points S can be the distance A of one Bearing position to the adjacent end of the beam end different be selected as the distance A 'to the second bearing point the adjacent front end of the beam.

To compensate for the deflection of the support beam 2 can Liquid, e.g. Water, through the above chambers of the Support beam 2 are passed, the flowing through Liquids in the individual chambers in their temperature are variable that they are the thermal Deflection compensation. To balance the Beam deflection can also be a mechanical one Deflection compensation device using Pressure hoses are used, as they are already from the DE-C-39 25 517 is known.

Fig. 2 shows a schematic side view of others Details of the invention shown in Fig. 1 Device in the area of a depository S. As in this Recognizing drawing, includes a respective bearing S Device two spaced-apart bearing rods 6 and 8, which have different lengths in the present case and each with one end articulated to each other spaced articulation points P1, P5 of the support beam 2 and with their other end in different points P2 and P6 articulated on a foundation 12 of the device are, the pivot point P5 of the lever 8 slightly above the upper pivot point P1 of the Bearing rod 6 lies. The device therefore has two Bearing rod pairs, each consisting of a bearing rod 6 and 8 are formed. Since the design and arrangement of the Bearing bars 6, 8 are the same for each bearing S, are in the following description only the bearing rods one individual depository S can be considered.

2, the bearing rod 6 runs essentially starting from the left side of the supporting beam vertically downward, while the bearing rod 8 of the left side of the supporting beam is essentially horizontal to the left and approximately at right angles to that Bearing rod 6 extends. The bearing rod 8 is the present case designed as a simple lever 8 of constant length. One starting from the right side of the supporting beam and in the extending substantially parallel to the bearing lever 6 individual support rod 10 is articulated at its upper end one spaced from the pivot point P1 of the bearing rod 6 Joint point P3 on the right side of the support beam 2 and with its lower end articulated to the foundation at point P4 12 of the device or another foundation 12 'fixed. The support rod 10 is related to the longitudinal direction of the supporting beam thus asymmetrical to the center of the supporting beam in the area of one individual bearing S arranged. In one in the figures Not shown top view of the support beam 2 forms the Support rod 10 together with the at the two bearings S provided bearing rod pairs 6, 8 a kind of tripod.

The lower pivot point P4 of the support rod 10 is compared to the lower pivot point P2 of the bearing rod 6 slightly arranged lower. The bearing rod 6 and the support rod 10 are in the present embodiment as length-adjustable actuators in the form of hydraulic cylinders 6, 10 designed. Basically, however, that is also Use of other suitable mechanical, pneumatic, electrical, electromagnetic actuators and the like more, as well as combinations of them. The two form spaced hydraulic cylinders 6 and 10 in the lateral view according to FIG. 2 together with the support beam 2 a kind of quadrilateral joint, the support beam 2 as a connecting link between the hydraulic cylinders 6 and 10 acts. This self-moving structure is created by the laterally on the support beam 2 attacking lever 8 stabilized, so that from the hydraulic cylinders 6, 10, the support beam 2 and the overall construction formed by the lever 8 is rigid in itself, if no length adjustment of at least one of the Hydraulic cylinder 6, 10 takes place.

In an operating position PB, which is shown in FIG Solid thick lines are illustrated Hydraulic cylinders 6, 10 of the device on each different defined lengths extended. This Length presetting can of course depend on the used cylinders and their arrangement from case to case vary considerably. The at the pivot points P1, P3 of the Support beam 2 attacking upper hinge points P1, P3 the Hydraulic cylinders 6, 10 are in this position in the essentially on the same horizontal plane and the Longitudinal axes of the hydraulic cylinders 6, 10 run as above already mentioned, approximately parallel to each other. In this Configuration is the lever 8 in the illustration according to FIG. 2 slightly to the lower right compared to the horizontal inclined so that the at the pivot point P5 the left Right pivot point P5 of lever 8 attacking the supporting beam side seen a little deeper in a vertical direction Position as the left lever pivot point P6. One on the support beam 2 attached as a final metering device Doctor blade 4 is given in the operating position PB Counter roll diameter with a defined contact pressure and a defined blade angle α on that of the device opposite counter roller 14 (the direction of rotation of the Counter roll 14 is indicated by an arrow). The Point of contact B1 between doctor blade 4 and counter roller 14 is in an ideal working position a straight line G through the center of the roller 14 and the Blade tip of the doctor blade 4. The blade angle α, i.e. the Angle between one at the point of contact B1 to the counter roll 14 applied tangent T and the doctor blade 4, is in the Operating position PB is usually around 40 °, but it is strong depending on the type of doctor blade used and the Doctor blade attachment and the liquid to be processed or pasty medium or the material web in the case a direct order. In the stiff blade driving style, the Blade angle α usually around 20-45 ° and in the bent blade style approximately up to 20 °. The settings mentioned however, they should only be understood as rough reference values.

To start from this operating position PB for example to decrease the blade angle α, the left one Hydraulic cylinder 6 raised by a certain amount, i.e. the length between the pivot points P1, P2 of the cylinder 6 adjusts what a rotation of the support beam 2 around Articulation point P3 causes to the right. Because the top hinge point P1 of the hydraulic cylinder 6, however, in the vicinity of the right one The pivot point P5 of the lever 8 lies, the pivot point P1 moves when starting up cylinder 6 also slightly to the right from the top, so that the support beam 2 in total on one predetermined trajectory moves. As shown in Figure 2 Dashed lines indicated, migrates in such a Adjustment movement of the point of contact B1 between the Doctor blade 4 and the counter roller 14 slightly up against the Clockwise until a new operating point, i.e. the Point of contact B2, is reached. This emigration of the However, the contact point affects the application process not because with a suitable choice of lengths or Extension lengths and the arrangement of the hydraulic cylinders 6, 10 and the lever 8 optimally selected the predetermined trajectory can be that the blade tip of the doctor blade 4 Contour of the counter roller 14 follows and indeed the blade angle α reduced, an increase in the contact pressure of the doctor blade 4 against the counter roller 14, however, does not take place.

To increase the blade angle α, the reverse is true method.

If the blade angle α is to be kept constant, the Contact pressure of the doctor blade 4 against the counter roller 14 increased a combined, i.e. here also one interdependent, adjusting movement of the two Hydraulic cylinders 6, 10, the right hydraulic cylinder 10 slightly up and the left hydraulic cylinder 6 slightly is shut down. Depending on the design of the The device according to the invention can be as in the previously explained blade angle adjustment the point of contact B1 between the blade tip of the doctor blade 4 and the Change counter roller 14. Generally, with certain Prerequisites also a length adjustment of one the hydraulic cylinder 6, 10 for changing the blade angle α and / or the contact pressure should be sufficient. At a However, changing each of these parameters will change with this type of adjustment due to the kinematic link of the individual device components mostly also the second one Change parameters too. If an influence on the second Parameters is not important, for example for short-term Lifting off the doctor blade 4 from the counter roller 14 for passage of a material web splice, it can do so Adjustment method can be used. Otherwise it is above-mentioned combined actuating movement of both Hydraulic cylinders 6, 10 are preferable.

The contact pressure is reduced in the opposite way.

Of course it is coordinated Adjusting the hydraulic cylinders 6, 10 also a simultaneous The blade angle α and the contact pressure can be changed.

To start from the operating position PB the support beam 2 an intermediate position in a maintenance or It is generally the case to transfer the standby position to PW sufficient to retract the right hydraulic cylinder 10, i.e. the length between the two hinge points P3 and P4 shorten. The support beam 2 then moves from the above operating position at a predetermined Path curve in the in Fig. 2 by a dash-dotted line Line indicated maintenance position PW. If necessary the left one can of course do this at the same time Hydraulic cylinder 6 adjusted and a combined Actuating movement are carried out.

To raise the support beam 2 from the maintenance position PW in the operating position PB in the opposite way method.

The device according to the invention comprises one in the Computer-aided control and not shown drawings Control device for controlled adjustment of the length-adjustable hydraulic cylinder 6, 10. This device has an automatic control loop, which due to Measured values of, for example, the blade angle α, the Contact pressure of the doctor blade 4 on the roller 12, the Cross profile or other properties of the counter roll 14 applied liquid or pasty medium Blade angle α and / or the contact pressure of the doctor blade 4 by suitable length adjustment of the hydraulic cylinders 6, 10 and thus readjusted by a movement of the support beam 2. The control and regulating device also comprises Components that are also manual or remote controlled Actuating the actuators, for example via a control panel Central computer or the like, allow to the support beam 2 for example from the operating position PB in the Move maintenance position PW and vice versa. This Components are not in the drawing for the sake of simplicity shown.

FIG. 3 shows a side view comparable to FIG. 2 a highly schematic representation of a second Embodiment of the device according to the invention. At this The variant provided at each storage location S is also a variant Bearing rod 8, the only in the embodiment of FIG. 2 is designed as a simple lever of constant length, designed to be adjustable in length. The bearing rod 8 is also thus articulated at one end to the supporting beam 2 connected that the hinge axis P5 this this Bearing bar 8 with the hinge axis of the left hinge point P1 of the support beam 2 and thus also with the support beam side Pivot point P1 of the bearing rod 6 matches. With his the other end is the length-adjustable bearing rod 8 in turn at point P6 articulated on one side of the foundation 12 fixed. Otherwise this device corresponds to essentially that shown in Fig. 2, so that more Explanations are not required. In the 3 has the support beam 2 due to the additional length adjustability of the bearing rod 8 a Another degree of freedom, so that if necessary, a still more differentiated movement of the support beam 2 and this attached doctor blade 4 is executable. Can also with Help of the length-adjustable bearing rod 8 through Installation tolerances or the like caused Positional inaccuracies of the support beam or the one assigned to it Components, such as the doctor blade 4, relative to the counter roller 14 by a coordinated length presetting of the Bearing bar 8 at bearing points S slightly balanced become.

The invention is not based on the above Embodiments, which are only examples, limited. Rather, the device and the inventive method depending on the application differ significantly from these variants. So in one device according to the invention different or different than the rod types described above are used, where always have a kinematic gear link under a "rod" two articulation points can be understood. The articulated storage the bearing rods, the at least one support rod and the Support beam 2 can also be used via other suitable flexible or elastic components or hinges. Can also both for a specific position of the device, for example the operating position, predetermined rod or Lever lengths as well as those with a length adjustment occurring changes in length of the respective rods or levers be different from each other. Furthermore, more than a support rod 10 may be provided. Here is the attachment one support rod per bearing S possible. The single ones Bars may also be other than those discussed above and in suitable arrangements to each other shown in the figures accept. So it is conceivable that the bearing rod 6 and the support rod 10 in one as in FIGS. 2 and 3 cross the view shown in an X shape. Further can adjust the positioning speeds of the individual rods differ from each other. In addition to the example described above an indirect application of a liquid or pasty Medium are the device according to the invention and the The inventive method also for direct Application of said medium is suitable.

Reference signs in the claims, the description and the drawings serve only for a better understanding of the Invention and are not intended to limit the scope.

Reference list

2

Tragbalken

4

Rakelklinge

6

Hydraulikzylinder

8

Hebel

10

Hydraulikzylinder

12, 12'

Fundament

14

Gegenwalze

α

Klingenwinkel

A, A'

Abstände der Lagerstellen S von Tragbalkenenden

B1, B2

Berührungspunkte Klingenspitze-Gegenwalze

G

Gerade

L

Tragbalkenlänge / Balkenlängserstreckung

P1 - P6

Gelenkpunkte

PB

Betriebsposition

PW

Wartungsposition

S

Lagerstellen

T

Tangente

Designate it:

2

Supporting beams

4th

Doctor blade

6

Hydraulic cylinder

8th

lever

10

Hydraulic cylinder

12, 12 '

foundation

14

Counter roll

α

Blade angle

A, A '

Distances of the bearing points S from the beam ends

B1, B2

Points of contact blade tip counter roller

G

Just

L

Support beam length / longitudinal beam extension

P1 - P6

Hinge points

PB

Operating position

PW

Maintenance item

S

Bearings

T

tangent

Claims (20)

1. Apparatus for the direct or indirect application of a liquid or pasty medium to a moving material web, in particular one of paper or board, having a supporting beam (2) which, in its longitudinal direction, extends substantially over the entire width of the material web, is mounted at at least two bearing points (S) and comprises at least one final metering means (4), and having a backing roll (14) opposite the supporting beam (2),
   characterized in that
   the bearing points (S) are arranged in the longitudinal direction of the supporting beam within the longitudinal extend (L) of the beam, in each case at a distance (A, A') from the two ends of the supporting beam (2),

   a respective bearing point (S) comprising two bearing rods (6, 8) which are spaced apart from each other and are each fixed with their one end in an articulated manner to articulation points (P1, P5) of the supporting beam (2) and with their other end in an articulated manner (P2, P6) to at least one foundation (12, 12'),

   at least one supporting rod (10) being connected with its one end in an articulated manner (P3) to the supporting beam (2) and with its other end in an articulated manner (P4) to the foundation (12'), and

   it being possible to adjust the length of at least one of the aforementioned rods (6, 8, 10).
2. Apparatus according to Claim 1,
   characterized in that
   the articulation points (P1, P5) on the supporting-beam side of the two bearing rods (6, 8) substantially coincide.
3. Apparatus according to Claim 1 or 2,
   characterized in that
   the bearing rods (6, 8) and/or the at least one supporting rod (10) are configured as adjustable-length actuating elements.
4. Apparatus according to Claim 3,
   characterized in that
   the adjustable-length actuating elements (6, 8, 10) can be adjusted in a relationship with one another and/or independently of one another.
5. Apparatus according to one of Claims 1 to 4,
   characterized in that
   this apparatus further comprises at least one monitoring and/or control and/or regulating device for the controlled adjustment of the adjustable-length rods (6, 8, 10) or actuating elements (6, 8, 10).
6. Apparatus according to one of Claims 1 to 5,
   characterized in that
   the at least one supporting rod (10), mounted in an articulated manner, is arranged in the centre of the supporting beam, as referred to the longitudinal direction of the supporting beam.
7. Apparatus according to one of Claims 1 to 5,
   characterized in that
   the at least one supporting rod (10), mounted in an articulated manner, is arranged asymmetrically in relation to the centre of the supporting beam, as referred to the longitudinal direction of the supporting beam.
8. Apparatus according to one of Claims 1 to 7,
   characterized in that
   the at least one supporting rod (10), mounted in an articulated manner, is provided at at least one bearing point (S).
9. Apparatus according to one of Claims 1 to 8,
   characterized in that
   the final metering device is a doctor blade (4) or the like.
10. Apparatus according to Claim 9,
    characterized in that
    the two bearing points (S) of the supporting beam (2) are arranged symmetrically with respect to the centre of the supporting beam in the longitudinal direction of the supporting beam.
11. Apparatus according to Claim 9,
    characterized in that
    the two bearing points (S) of the supporting beam (2) are arranged asymmetrically with respect to the centre of the supporting beam in the longitudinal direction of the supporting beam.
12. Apparatus according to Claim 10 or 11,
    characterized in that
    the distances (A, A') of the bearing points (S) to the ends of the supporting beam are in each case 15% to 30% of the supporting-beam length (L).
13. Apparatus according to Claim 10,
    characterized in that
    the distances (A, A') of the bearing points (S) from the ends of the supporting beam each lie in a length range which is about 22 to 25% of the supporting-beam length (L).
14. Apparatus according to one of Claims 1 to 13,
    characterized in that
    the supporting beam (2) is equipped with a deflection compensating device.
15. Method for the direct or indirect application of a liquid or pasty medium to a moving material web, in particular one of paper or board, by means of an apparatus according to Claim 1, comprising the step
    controlled length adjustment, independently of each other and/or in a relationship with each other, of at least one of the bearing rods (6, 8) of the apparatus per bearing point (S) or the at least one supporting rod (10), in order to set a coating angle (α) between the final metering device (4) and the backing roll (14) opposite the apparatus and/or a contact pressure between the final metering device (4) and this backing roll (14), and/or to move the supporting beam (2) into an operating, intermediate or maintenance position.
16. Method according to Claim 15,
    characterized by
    moving the supporting beam (2) on a predetermined curved path by means of controlled length adjustment, independently of each other and/or in a relationship with each other, of the two bearing rods (6, 8) per bearing point (S).
17. Method according to Claim 15,
    characterized by
    moving the supporting beam (2) on a predetermined curved path by means of controlled length adjustment, independently of each other and/or in a relationship with each other, of at least one of the two bearing rods (6, 8) per bearing point (S) and of the at least one supporting rod (10).
18. Method according to Claim 15,
    characterized by
    moving the supporting beam (2) and changing the coating angle (α) only by means of controlled length adjustment of the bearing rod (6), so that the final metering device (4) follows the contour of the backing roll (12) substantially exactly during the movement of the supporting beam (2) and the changing of the coating angle (α).
19. Method according to one of Claims 15 to 18,
    characterized by
    automatic regulation of the movement of the supporting beam (2), regulation being carried out on the basis of a desired coating weight and/or wear of the final metering device (4) and/or the backing roll (14).
20. Method according to Claim 19,
    characterized in that
    the regulation is carried out with computer assistance.

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