EP0882839A2 - Apparatus and method for the application of a liquid or pasty fluid to a moving web - Google Patents

Abstract

The apparatus to apply a coating (M) to a moving material (U) has a feed (18) in front of the build-up chamber entry limit unit (22), in the direction (L) of (U) web travel. Also claimed is a coating application operation where the required coating is adjusted by setting the build-up chamber entry limit unit (22) against the web (U) and/or the vol. of the build-up chamber (16) and/or the shape of the build-up chamber (16) and/or the feed rate of the coating medium (M). A number of coating sections of the web (U) are set and adjusted independently of each other across the web width, next to each other.

Description

The invention relates to a device for applying a liquid or pasty application medium on a moving surface, for example a material web made of paper, cardboard or cardboard or a Applicator roller, comprising a stowage chamber which is on the underground inlet side of a storage chamber inlet limiting element and on the underground outlet side is limited by a storage chamber outlet limiting element, and a feed device for feeding the application medium.

Such application devices are, for example, in the prior art known as the short-dwell applicators which the application medium directly into an order or storage chamber is initiated, which is on the outlet outlet side of a doctor blade or a squeegee bounded by a stowage plate on the underground inlet side or another doctor blade is completed. With such Shortdwell applicators there are various problems that the Achieve an even layer application on the moving past At least complicate the underground.

On the one hand, the squeegee has to be used to achieve an even layer application also be "rinsed" evenly. That means the pressure of the inflowing Application medium must be so even across the entire width of the order the squeegee are exercised that this to form an order gap of desired thickness of the passing substrate sufficient is lifted off evenly. In the known application devices however, there is no one in the order chamber directly in front of the squeegee sufficiently uniform pressure, so that usually with a relative high pre-metered amount must be worked, otherwise in some places The application width of the squeegee is not the minimum coverage required Can guarantee the substrate with the application medium. On the other hand the even application of layers to the substrate by air bubbles hindered past the storage chamber inlet limiting element in the Stowage chamber can get.

A generic application device is known from EP 0 319 503 B1, in which in the baffle chamber inlet delimiting element formed by a doctor blade Passages are provided through which in the Excess medium introduced into the storage chamber against the Direction of the underground can emerge from the storage chamber. The leaked Application medium collects in front of the storage chamber in the area between the subsurface and the storage chamber inlet limiting element where as a "seal" it prevents the entry of air bubbles. The related discussed with the "flushing" discussed above However, the problem arises with that known from EP 0 319 503 B1 Application device still on.

In contrast, the object of the present invention is an application device of the generic type to indicate with which at the same time A more uniform reduction in the required amount of pre-dosing Layer job can be achieved.

This object is achieved according to the invention in a generic application device solved in that the feed device in the direction of the Seen underground arranged in front of the storage chamber inlet delimitation element is. Through this arrangement of the feeder strikes Invention "two birds with one stone". On the one hand, this is like with EP 0 319 503 B1 prior to the stowage chamber entry restriction element Get accumulation of application medium that the storage chamber against the Seals air bubbles. In addition, the invention exceeds sealing effect achieved is the sealing effect achieved by EP 0 319 503 B1 considerably since this accumulation is not just from excess Application medium is formed, but from the entire of the storage chamber amount of order medium supplied. On the other hand, the storage chamber inlet limiting element a throttling point, which is the entrance of application medium in the storage chamber in a desired and controllable Dimensions hindered. Due to this throttling effect, it already comes in the application medium accumulating in front of the storage chamber for an equalization in the transverse direction, i.e. to an equalization over the Order width. As a result, the one already entering the storage chamber points Application medium on an even pressure distribution, and it there is a further equalization of the distribution in the storage chamber and the pressure profile of the application medium in the transverse direction.

The application medium is thus at the application device according to the invention over the entire width of the order at the storage chamber outlet limiting element, for example a doctor element, with essentially the same pressure, so that the latter according to the invention in high Dimensions are "flushed" evenly and ultimately become even Layer application can be achieved on the substrate. As a result of the pressure equalization effect the arrangement according to the invention is sufficient in Comparison to generic devices of the prior art lower pre-metering quantity to achieve the desired layer application out. Another advantage of the application device according to the invention is to be seen in the fact that as a result of the possibility of having a smaller excess to work on order medium, the acquisition and operating costs of Let application device according to the invention keep low. The for Circulation of excess pump medium required pump power can be kept small.

The above-described effect of the application device according to the invention can be further improved by the fact that the storage chamber entry limiting element or / and an underground inlet side and Storage chamber wall connecting the outlet outlet side of the storage chamber with regard to an equalization of the application medium is formed in the transverse direction. This can be done, for example be provided that the storage chamber has a smoothing section and has a subsequent order section. The order section the storage chamber ensures that, if necessary, in the Storage chamber still existing pressure differences, for example due to of eddies or the like, not going into the immediate Can spread near the squeegee.

In the area of the storage chamber entrance, the compensation can be done in the transverse direction are supported, for example, by the fact that the storage chamber entry limiting element seen uneven in the direction of the underground, for example corrugated, stepped or with a predetermined roughness, is formed, preferably in the area of its closest approximation to the underground. In this case you make one of these Use unevenness caused diffuser effect. This diffuser effect can also in the area by appropriate design of the stowage chamber wall the storage chamber can be used. In addition to the above Possibilities of a corrugated, graded or rough formation of the The stowage chamber wall also includes the installation or attachment of webs, rods or the like into the storage chamber.

It is true that if you work with an excess of application medium, basically conceivable that in the area of the storage chamber entrance Form flow conditions in which the application medium in one Inlet flow into the stowage chamber near the ground in the running direction enters and away from the ground, against the direction of travel directed excess current again the excess application medium the storage chamber emerges. However, at least one is preferred Provide backflow passage through which excess into the storage chamber Order medium that has entered can emerge from it again.

The advantage of such backflow passages can be seen in the fact that they are in the area of the through the storage chamber inlet limiting element formed inlet to defined flow conditions to lead. These backflow passages can, for example, separate that Lines or channels penetrating the doctor bed. Furthermore, the Reverse flow passages optionally and preferably independently of one another be openable or closable.

The storage chamber inlet limiting element can be, for example, a a holder of the storage chamber outlet limiting element in one piece be a trained element. However, it is also possible that the baffle entry restriction member from the holder of the storage chamber outlet limiting element separately formed element. The first-mentioned embodiment is characterized by simple and robust construction, whereas the latter variant offers the possibility of depending on the stowage chamber entry limiting element the properties of the respective application medium and others Operating parameters of the application device, in particular the running speed of the underground to choose. As separately trained Damage chamber inlet limiting elements come in particular doctor blades in question, both in terms of training as a drag blade as well can be thought of as a stabbing blade. Because pricking blades due to the fact that they are directed against the direction of travel of the subsurface are pressed against the surface by the incoming application medium they should preferably be near the surface have at least one entry passage. In both cases in addition, the return flow passages mentioned above in formed simply by holes provided in the blade elements be.

Regardless of the one, one-piece or separate mentioned above Formation of the storage chamber inlet limiting element can this is a training area for the from the feeder to the Application medium applied underground and entering the storage chamber exhibit. Through this instruction or funnel surface, the desired pressure equalization in the transverse direction improved and the proper Entry of the application medium into the storage chamber ensured will.

A particularly advantageous influencing of the flow dynamics in the Storage medium entering or entering the application medium can, for example be obtained in that the from the instruction surface or / and the stowage chamber wall with the cavity-limited cavity has a venturi tube-like cross section.

An edge of the storage chamber inlet limiting element adjacent to the ground can be seen in the transverse direction, for example, rectilinear run. However, this edge has protruding towards the surface Sections and recessed with respect to the subsurface Sections or has an edge of the storage chamber inlet limiting element adjacent to the subsurface at least one entry passage on, a desired minimum inlet cross-section for Application medium can be guaranteed in the storage chamber. Furthermore is by the latter training also a targeted non-uniformity of the application medium possible in the transverse direction, with the corresponding resultant Uneven line application. For example, the edge wavy, sawtooth, step-like or the like.

The storage chamber inlet limiting element can be attached to the bracket Damage chamber outlet limiting element be firmly connected. However, it is also possible, the stowage chamber entry limiting element on the bracket of the storage chamber outlet limiting element can be displaced relative to this to arrange or the stowage chamber entry limiting element with the holder of the storage chamber outlet limiting element via a web section to connect, the limited tilting movement of the storage chamber inlet limiting element allows relative to the bracket. All these Design variants allow the stowage chamber to be influenced in a targeted manner regardless of the respective position of the storage chamber outlet limiting element against the underground. In the case of the first variant can this influence, for example, by changing the Relative orientation of the bracket and the surface. In case of second- and third-mentioned design variants can additionally one Relative movement of the storage chamber entry limiting element relative to the bracket used for this influencing the storage chamber will.

For example, using an adjusting device to change the position of the storage chamber outlet limiting element against the underground First, the desired size of the order gap is specified. With the help of an actuator to change the employment of Damming chamber entry limiting element against the underground can then the size of the entry opening into the storage chamber and / or the size and Shape of the storage chamber can be influenced. Any of the above Adjustment devices can be a plurality of across the width of the substrate distributed control units, which are independent are operable from each other, so that there is a profiling of the storage chamber inlet opening or / and profiling the size and shape of the Storage chamber across the width of the applicator, i.e. in the transverse direction, can be achieved.

In order to achieve a desired order cross profile, this is before Squeegee-forming pressure cross profile of importance. To set a desired one Pressure cross profile you can see the volume of the storage chamber in Profiling the cross direction or the shape with a constant storage chamber volume of the baffle cross section in the transverse direction or the passage cross sections a plurality provided in the transverse direction next to each other Specify return flow passages independently of each other.

The actuating units can be electrical and / or hydraulic or / and pneumatic or / and be hydropneumatic or / and manually operable. For example, at least some of the adjusting units can be set screws be educated. Additionally or alternatively, at least part of the Adjustment units of pressure hose units can be formed. It is also possible that the actuator divided into a plurality of chambers Pressure hose includes. Remote actuators or remote actuators Actuators can easily be in the stroke order control loop be involved. In addition, the actuating force or the actuating intensity the actuating device (s) and / or actuating unit (s) can be controlled or be controllable.

As can be seen from the discussion above, it works through cooperation formed by the storage chamber inlet limiting element and the subsurface Entry into the storage chamber on the application medium a certain Throttling effect. This throttling effect has a pre-metering of the Order medium. An even finer pre-metering can, for example can be achieved in that the feed device a plurality of has feed elements arranged distributed over the width of the substrate. The application medium application rate of these feed elements is preferably adjustable independently of each other, especially with regard to achieve a transversely changing stroke profile of Advantage is.

The invention further relates to a method for applying a liquid or pasty application medium on a moving surface, for example a web of paper, cardboard or cardboard or an application roller. With regard to the achievable with this method Advantages are on the above discussion of the invention Application device referenced.

Figur 1

eine schematische, teilweise im Schnitt gehaltene Seitenansicht einer erfindungsgemäßen Auftragsvorrichtung;

Figur 2

eine schematische Seitenansicht der wesentlichen Elemente einer zweiten Ausführungsform;

Figuren 3 bis 11

Ansichten analog Figur 2 weiterer Ausführungsformen; und

Figuren 12a bis 12c

Schnittansichten längs der Linie XI-XI in Figur 2 dreier Kantengestaltungen zwischen Staukammereintritt-Begrenzungselement und Untergrund.

The invention will be explained in more detail in the following using some exemplary embodiments with reference to the accompanying drawings. It shows:

Figure 1

is a schematic, partly in section side view of an application device according to the invention;

Figure 2

is a schematic side view of the essential elements of a second embodiment;

Figures 3 to 11

Views analogous to FIG. 2 of further embodiments; and

Figures 12a to 12c

Sectional views along the line XI-XI in Figure 2 of three edge designs between the stowage chamber entry-limiting element and the ground.

In Figure 1, an application device according to the invention is generally 10 designated. It is used to apply a uniform layer S one liquid or pasty application medium M on one on the application device 10 moving underground U. The underground U can for example, be formed by an application roller; layer S can but also directly onto a moving past the application device Material web made of paper, cardboard or cardboard can be applied.

In the illustrated embodiment, the application device comprises 10 a doctor device 12 with a doctor blade 14, a storage chamber 16 and a feed device 18, by means of which the application medium M is roughly distributed is applied to the underground U. The doctor blade 14 is in one Doctor bed 20 supported, which has a conventional structure and therefore will not be described in more detail below. The underground U moves on the application device 10 in the direction of the arrow L (running direction) past. The stowage chamber 16 is on the outlet side of the doctor element 14 limited, which serves as a storage chamber outlet limiting element, and inlet side closed off by a stowage chamber entry limiting element 22. In addition, the storage chamber 16 from the underground U and one of the storage chamber inlet limiting element 22 and the doctor blade 14 interconnecting storage chamber wall 24 limited.

According to the invention, the application medium M is supplied by the feed device 18 in the direction of travel L before the storage chamber entry 26 onto the underground U applied, but with a rather uneven layer structure, such as in Figure 1 by the irregular arrangement of the plurality of black dots is indicated. When moving with the underground U, the Application medium M in the area of the entry gap 26, in front of it consequently throttling action accumulates. This collection 28 of order medium M seals the storage chamber 16 on the inlet side against the unwanted Entry of air from. As a result of the hydrodynamic inflow pressure of the application medium M in front of the entry gap 26 is widened and enables application medium M to get into the storage chamber 16. Finally, the application medium passes through the underground U and Roller doctor blade 14 existing outlet gap 30 again from the stowage chamber 16 from, as a result of the effect of the application device according to the invention 10, in particular of the storage chamber entry limiting element 22, the stowage chamber 16 and the doctor device 12 as a uniform layer application S on the underground U.

The uniformity of the applied with the device 10 according to the invention Layer S is based above all on the fact that at the Roller doctor blade 14 pending application medium M an even distribution and a uniform transverse pressure profile, i.e. in one for Drawing plane of Figure 1 essentially orthogonal direction, having. This even profile is based on the one hand Throttling effect of the storage chamber inlet limiting element 22, as a result of which there is already a compensation in the order medium accumulation 28 comes in the transverse direction Q, and on the other hand on the effect of the storage chamber 16, which leads to a further compensation in the transverse direction Q.

The cross compensation in the order medium M can by the design of the Storage chamber wall 24, of the storage chamber inlet limiting element 22, in particular of the entry gap 26, are influenced, and by the Design of a guide surface 32, which extends from the stowage chamber delimitation element 22 starting against the direction L of the Underground U extends. Particularly favorable hydrodynamic conditions In the order medium jam 28, for example, if the underground U and the guide surface 32 are essentially one have a venturi tube-like cross-section.

In the exemplary embodiment shown in FIG. 1, the stowage chamber entry limiting element is 22 integrally formed with the doctor bed 20. The doctor bed 20 is attached to the doctor bar 36 via a leaf spring 34, in particular by means of an adjusting device 38 on this doctor bar 36 clamped. The adjusting device 38 is shown in FIG. 1 by a double arrow only roughly indicated and can for example by one Pressure hose to be formed.

By the width of the exit or order gap 30 depending on Operating parameters such as viscosity of the application medium M, running speed of the underground U and the like to achieve the desired It is also necessary to be able to adjust the layer thickness an actuating device 40 for influencing the setting of the doctor element 14 provided against the underground U. Finally, in the embodiment 1 also affects the width of the entry gap 26 be, by means of an actuator 42. As actuators 40 and 42 any suitable actuating devices can be used, for example, manually operated set screws, electromotive Actuable actuators or also hydraulically, pneumatically or hydropneumatically actuatable actuating units, such as pressure hoses. In order to influence the layer application more precisely and if necessary to be able to achieve a desired profiling of the layer application the actuators 40 or / and 42 in the transverse direction Q in a plurality Control sections divided, both independently and in their actuating force or actuating intensity are adjustable or controllable. This is indicated in Figure 12a by the actuators 42a, 42b and 42c. At the It is above the use of remote-controlled actuating devices or units also possible to include this in the control loop of the entire order setup 10 to include.

Although in Figure 1 and also in the other embodiments according to Figures 2 to 10 always shown doctor devices with a doctor blade 14 in connection with the present invention other doctor or leveling elements can also be used, for example Doctor blades, air brushes or the like. Also are the design there are no limits to the surface of the squeegee. Furthermore it is understood that the doctor blade 14, as is customary in the prior art, driven in the same or opposite direction to the running movement of the underground U. can be.

It should also be noted that any type of feed device can be used. With regard to the above Profiling the stroke order, however, it is advantageous if the Feeding device 18 in a plurality arranged next to one another in the transverse direction Q. Feed sections is divided, which the application medium M with the desired line profile corresponding to different feed rates apply the underground U. For this purpose, the feed device 18 can, for example a plurality of arranged over the width of the order Include application nozzles, the throughput of application medium preferably can be set separately for each of these application nozzles.

The one applied to the substrate U by the feed device 18 The amount of application medium M can correspond to the desired layer application S. applied precisely dosed. However, it is also possible apply the application medium M to the underground U in excess. In this case, however, it is then advantageous to use the stowage chamber 16 outgoing return flow passages 44 (shown in dashed lines in FIG. 1) provide through which excess introduced into the storage chamber 16 Application medium M can emerge from the storage chamber again. Of the The passage cross section of the return flow passages 44 can be, for example, by means of Valves 44a to any desired value, including full opening and closing. The Excess application medium emerging from the return flow passages 44 M can be collected by means of a sump 46 and the Order process are fed again.

As already mentioned above, the equalization of the Order medium or the pressure prevailing in it through the design the storage chamber 16, in particular the storage chamber wall 24 thereof by influencing the position of the storage chamber inlet limiting element 22 against the underground U depending on operating parameters such as viscosity of the application medium M, running speed of the underground U and the like can be influenced. Regarding Figures 2 to 10 are therefore different design options of the storage chamber and the storage chamber wall are discussed.

In the embodiment according to FIG. 2, the storage chamber 116 has one equalization section 116a adjacent to entry gap 126 and an order portion 116b adjacent the exit gap 130 on. In the equalization section 116a, the pressure of the through the entry gap 126 inflowing application medium to the in the pressure prevailing in the stowage chamber 116. In addition, it comes to Uniformization of the pressure profile in the transverse direction Q. In the order section 116b, the application medium M then already has a uniform one Pressure profile on, so that the doctor element 114 correspondingly even is "rinsed", and ultimately the desired uniform layer application results. In addition, an adjusting device 141 is provided for example an expandable pressure hose, by means of which the shape of the Storage chamber 116, for example the one taken orthogonally to the transverse direction Q. Cross section of the storage chamber 116, can be changed.

In the embodiment according to FIG. 3, the storage chamber 216 has a the baffle entry restriction member 222 with respect to the direction of travel L of the subsurface U undercut section 216c. Such one undercut section 216c is always with respect to one complete filling of the storage chamber 216 is favorable.

In the embodiment according to FIG. 4, the storage chamber 316 is on the one hand through the doctor bed 320 and on the other hand through one on the doctor bed 320 fixed blade 346 limited. The free end of this blade 346 forms in in this embodiment, the jam entry restriction member 322. The above-mentioned free end of the blade 346 points in the running direction L, the blade 346 is thus designed as a drag blade. The Return flow passages 344 can be used in the embodiment according to FIG formed by holes made in the blade 346.

The storage chamber 416 is also in the embodiment according to FIG. 5 partially delimited by a blade 446 attached to the doctor bed 420. in the Differing from the blade 346 is the blade 446 of the embodiment according to FIG. 5, however, designed as a piercing blade, i.e. as one against the direction L of the substrate U directed blade. Because such Pricking blade due to the hydrodynamic pressure of the application medium supplied to it is pressed against the surface of the underground U, points the piercing blade 446 has perforations that function as the entry slit 426 take over.

A piercing blade 546 is also used in the embodiment according to FIG. 6 intended. In contrast to the embodiment according to FIG Prick blade 546, however, has an instruction surface at its free end 532 designed for incoming application medium M, so that it is due to the hydrodynamic inflow pressure of the application medium with release of an entrance slit 526 lifts from underground U.

In the embodiment according to FIG. 7, this is the storage chamber on the inlet side limiting stowage chamber entry restriction element 622 in the area of the entry gap 626 in the running direction L of the underground U is stepped. The one of this design of the storage chamber entry limiting element 622 step diffuser effect improves smoothing of the pressure prevailing in the application medium M in the transverse direction Q. The mentioned diffuser effect can also be used with others Direction of travel of the subsurface seen specifically uneven formation of the Damage chamber inlet restriction member can be obtained.

According to FIG. 8, the entire storage chamber wall 724 can also be The stowage chamber 716 is stepped in the running direction L of the underground U. be.

In the above-described embodiments according to FIGS. 1 to 8 can the size of the storage chamber 16, 116, ..., 716 or the size of the Entry gap 26, 126, ..., 726 with the same size of the exit gap 30, 130, ..., 730 only by changing the relative orientation of the Doctor bed 20, 120, ..., 720 can be changed with respect to the underground U. With reference to Figures 9 and 10 are two embodiments in the following are presented, in which the stowage chamber restriction element is displaceable relative to the doctor bed.

In the embodiment according to FIG. 9, the storage chamber entry limiting element 822 on the doctor bed 820 in the direction of the double arrow V attached linearly displaceable, for example by means of a dovetail guide or similar. With a linear adjustment of the storage chamber inlet limiting element 822 remains the size of the storage chamber 816 essentially unchanged, only the size of the entry gap 826 increases or decreases according to this adjustment.

In the embodiment according to FIG. 10, the storage chamber entry limiting element 922 formed in one piece with the doctor bed 920. However, this is only about a relatively weak dimension Bridge 950 connected. The elasticity of the web 950 leaves a limited Tilting of the storage chamber entry limiting element 922 by one in Transverse direction Q, axis A essentially extending through the web 950 to. In one caused by the actuation of the actuating device 942 Tilt change both the size of the storage chamber 916 and the width of the entry gap 926. Of course it is in one Modification of the embodiment according to FIG. 10 is also possible, doctor bed and stowage chamber entrance limiting element as separate from each other Form elements that can be tilted together about the axis A. are.

Although in the exemplary embodiments explained above according to figures 1 to 10 the storage chamber outlet limiting element always from one Doctor element is formed, the invention is not limited to this. As in Figure 11 is shown, the metering chamber 1016 on one of of the doctor device 1012 separately formed and arranged separately Bracket 1060 may be provided. Both the stowage chamber entry limiting element 1022 as well as the storage chamber outlet limiting element 1062 with the mounting part 1060 also in one piece be formed, as shown in Figure 11, in which case Element 1060 does not actually take on the function of a holder. With regard to the possibilities of forming the mounting part 1060 on the possibilities of the formation of the doctor device described above and especially the doctor bed.

In Figure 12, three variants of the design of the between underground and Of the stowage chamber entrance delimiting element. In the variant shown in Figure 12a, both the Underground U 'as well as the storage chamber entry limiting element 22' Via straight edge lines K1 'running in the transverse direction Q and K2 '. In the extreme case, the entry gap 26 'can thus be complete getting closed. In contrast, in the variant according to FIG Edge K1 '' of the storage chamber inlet limiting element 22 '' step-shaped with sections 22 '' a projecting towards the underground U '' and with respect of the subsurface U '' recessed sections 22''b while the edge K2 '' of the underground U '' runs in a straight line. When the projecting Sections 22''a on the underground U '' thus remain a minimal entry opening 26 '' between subsurface U '' and storage chamber inlet limiting element 22 ''. A minimal entry opening 26 '' 'can also be used according to FIG. 12c with the help of the openings provided in the area of the edge K1 '' ' 22 '' 'c of the storage chamber inlet limiting element 22' '' can be achieved.

Although in FIG. 12b a step-like course of the edge line K1 '' is shown, it is understood that any edge course is provided can be a minimal cross-section of the inlet opening ensures. For example, the edge K1 '' could also be wavy, sawtooth or the like.

It should be noted that the numerous design options described above the application device 10 according to the invention also for embodiments can be combined with each other, the above have not been explicitly described as variants of the invention are. For example, it is possible to use the edge variants according to FIG. 12 to provide for drag or pricking blades, as they with respect to the Figures 4, 5 and 6 have been described. It is also the case with the blade variants 4, 5 and 6 possible to provide backflow passages, that do not run through the blade body, but through the Doctor bed. Furthermore, they can serve as a storage chamber entry limiting element acting blades on the doctor bed based on the embodiments 9 and 10 linearly displaceable or pivotable on the doctor bed be arranged. In addition, it is also possible with the Embodiments according to Figures 3 to 10 based on the storage chamber to the embodiment of Figure 2 with a pressure build-up and Training section and an order section. The application device according to the invention can also advantageously be used for so-called "Speedsizer" of the applicant are used, i.e. one with Application roller-working system for coating a material web on both sides.

Claims (33)

Device (10) for applying a liquid or pasty application medium (M) to a moving substrate (U), for example a material web made of paper, cardboard or cardboard or an application roller, comprising: a stowage chamber (16) which is delimited on the underground inlet side by a delimitation chamber entry limiting element (22) and on the underground outlet side by a stowage chamber outlet delimitation element (12), and a feed device (18) for feeding the application medium (M),
characterized in that the feed device (18), viewed in the running direction (L) of the subsurface (U), is arranged in front of the storage chamber inlet limiting element (22). Application device according to claim 1,
characterized in that the storage chamber inlet limiting element (22) and / or an underground inlet side and underground outlet side of the accumulation chamber (16) connecting the accumulation chamber wall (24) is designed with regard to an equalization of the application medium (M) in the transverse direction (Q) . Application device according to claim 2,
characterized in that the storage chamber (116) has a smoothing section (116a) and an adjoining application section (116b). Application device according to claim 2 or 3,
characterized in that, as viewed in the direction of travel (L) of the subsurface (U), the stowage chamber entrance limiting element (622) is uneven, for example corrugated, stepped or with a predetermined roughness, and preferably in the region of its closest approach (at 626) the underground (U). Application device according to one of claims 2 to 4,
characterized in that the stowage chamber wall (724) is uneven, for example corrugated, stepped or with a predetermined roughness, as seen in the running direction (L) of the subsurface (U), or that in the stowage chamber fittings or attachments such as webs or rods , are provided. Application device according to one of claims 1 to 5,
characterized in that at least one return flow passage (44) is provided, through which excess application medium (M) which has entered the storage chamber (16) can emerge from the latter again. Application device according to claim 6,
characterized in that the passage cross section of at least one return flow passage (44) can be optionally changed. Application device according to one of claims 1 to 7,
characterized in that the storage chamber inlet limiting element (22) is an element formed in one piece with a holder (20) of the storage chamber outlet limiting element (12). Application device according to one of claims 1 to 7,
characterized in that the storage chamber inlet limiting element (322; 422; 522; 822) is an element which is formed separately from a holder (320; 420; 520; 820) of the storage chamber outlet limiting element. Application device according to claim 9,
characterized in that the baffle entry restriction member (322) comprises a drag blade (346). Application device according to claim 9,
characterized in that the stowage chamber entry limiting element (422; 522) comprises a piercing blade (446; 546) preferably formed with at least one entry passage. Application device according to one of claims 1 to 11,
characterized in that the stowage chamber entrance limiting element (22; 522) has an instruction surface (32; 532) for the application medium (M) applied to the substrate (U) by the feed device (18) and entering the stowage chamber (16; 516) . Application device according to claim 12,
characterized in that the cavity delimited by the instruction surface (32) and / or the stowage chamber wall (24) with the sub-surface (U) has a cross-section shaped like a venturi tube. Application device according to one of claims 1 to 13,
characterized in that an edge (K1 ') of the storage chamber inlet delimiting element (22') adjacent to the subsurface (U ') runs in a straight line as seen in the transverse direction (Q). Application device according to one of claims 1 to 13,
characterized in that an edge (K1 '') of the storage chamber inlet limiting element (22 '') adjacent to the base (U '') projects and recesses (22''a, 22''b) with respect to the base (U '') ) having. Application device according to one of claims 1 to 13,
characterized in that an edge (K1 ''') of the storage chamber inlet limiting element (22''') adjacent to the subsurface (U ''') has at least one inlet passage (22''' c). Application device according to one of claims 1 to 16,
characterized in that the storage chamber inlet limiting element (22; 122; 222; 322; 422; 522; 622; 722; 1022) with a holder (20; 120; 220; 320; 420; 520; 620; 720; 1060) of the Damage chamber outlet limiting element is firmly connected. Application device according to one of claims 1 to 16,
characterized in that the storage chamber inlet limiting element (822) is arranged on a holder (820) of the storage chamber outlet limiting element so as to be displaceable relative thereto. Application device according to one of claims 1 to 16,
characterized in that the storage chamber inlet limiting element (922) is connected to a holder (920) of the storage chamber outlet limiting element via a web section (950) which permits a limited tilting movement of the storage chamber inlet limiting element (922) relative to the holder (920). Application device according to one of claims 1 to 19,
characterized in that an adjusting device (40) is provided for changing the position of the storage chamber outlet limiting element (14) against the subsurface (U). Application device according to one of claims 1 to 20,
characterized in that an adjusting device (42) is provided for changing the position of the storage chamber inlet limiting element (22) against the subsurface (U). Application device according to one of claims 1 to 21,
characterized in that an adjusting device (942) is provided for changing the volume of the storage chamber (916). Application device according to one of claims 1 to 22,
characterized in that an adjusting device (141; 942) is provided for changing the shape of the storage chamber (116; 916). Applicator according to one of claims 20 to 23,
characterized in that at least one adjusting device (42) comprises a plurality of adjusting units (42a, 42b, 42c) which are distributed in the transverse direction (Q) and which can be actuated independently of one another. Application device according to claim 24,
characterized in that the actuating units can be actuated electrically or / and hydraulically or / and pneumatically or / and hydro-pneumatically or / and by hand. Application device according to claim 24 or 25,
characterized in that at least part of the adjusting units is formed by adjusting screws. Application device according to one of claims 24 to 26,
characterized in that at least some of the actuating units are formed by pressure hose units. Applicator according to one of claims 20 to 27,
characterized in that the adjusting device comprises a pressure hose divided into a plurality of chambers. Application device according to one of claims 20 to 28,
characterized in that the actuating force or actuating intensity of the actuating device or the actuating unit can be controlled or regulated. Application device according to one of claims 1 to 29,
characterized in that the feed device (U) has a plurality of feed elements arranged distributed in the transverse direction (Q). Application device according to claim 30,
characterized in that the feed elements can be set independently of one another with regard to their throughput of application medium (M). Method for applying a liquid or pasty application medium (M) to a moving substrate (U), for example a material web made of paper, cardboard or cardboard or an application roller, using a storage chamber (16) which is located on the inlet side of a storage chamber inlet-limiting element (22) and on the outlet outlet side is delimited by a stowage chamber outlet limiting element (12), this stowage chamber (16) being supplied with application medium (M) by a feed device (18), characterized in that, depending on the order result achieved affects the employment of the storage chamber inlet limiting element (22) against the underground (U), or / and affects the volume of the storage chamber (16), or / and affects the shape of the storage chamber (16), or / and affects the feed rate of application medium (M). A method according to claim 32,
characterized in that the influencing is carried out independently of one another in a plurality of influencing sections arranged next to one another in the transverse direction (Q) of the subsurface (U), ie in a direction of the subsurface (U) which is essentially orthogonal to the running direction (L).

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