DE60129409T2 - Apparatus for coating a moving web, in particular a paper or board web - Google Patents

Abstract

Apparatus for coating a moving web (16), in particular of paper or carton, on one or both sides with a liquid or pastous coating material (28) comprising a coating station (12) for applying the coating material (28) onto the web (16), as well as a non-contact turning apparatus (14) following the coating station (12) in the moving direction of the web (16). According to the invention, the web moves in one plane only from the point at which it is leaving (36) the coating station (12) to the point at which entering (52) the non-contact turning apparatus (14) without changing direction. <IMAGE>

Description

The The present invention relates to a device for coating one or both sides of a running web, in particular one Paper web or a board web, with a liquid or pasty coating material, comprising a coating station for applying a coating on the web and a non-contact deflection device in the connection - in the Direction of the train seen - at the coating unit.

Out WO 98/32921 For example, there is known an apparatus for coating a paper web on one side comprising a coating station and a non-contact diverter station. After the coating station, in which a coating material is applied to the moving paper web, which is supported by a support roller, the paper web continues to a deflection roller on. From there it moves to a non-contact diverter and dryer. Then, it is fed into calender-type cylinders in contact with the paper web to completely dry the paper web, and then moved for further processing. In WO 98/32921 For example, an arrangement of four such coating apparatuses in continuous sequence is shown wherein a coating material is applied twice to each side of the paper web. A disadvantage of this prior art coating device is, on the one hand, that the coating is adversely affected by the deflection of the wet paper web before it is at least partially dried. This is all the more the case because, due to the available space for the construction usually deflection rollers are used with small roll diameters, resulting in a sharp bending of the paper web at the deflection point.

Additional power it is impossible to use such a guide roller, a Coating device to convert into a device with the a Doppelbe coating can be realized, since the guide roller in this case in direct contact with the wet coating would stand what the quality the coating unbearable would affect.

In the WO 98/32921 For example, shown combination of a non-contact diverter and a non-contact air dryer in connection with the non-contact deflection and drying device is already off DE 295 11 089 U1 known. Out EP-0 777 731 A1 It is also known to arrange a deflecting device and a drying device under a common housing in order to prevent moist exhaust gas and / or moist exhaust air from escaping into the machine hall.

A device for coating a traveling web according to the preamble of claim 1 is in DE 40 29 487 A1 shown.

It is therefore the object of the invention, a coating device to provide the risk of quality losses of the coated web at least reduced, if not eliminated.

This Problem is according to the invention by a device according to claim 1 solved. The train is running between leaving the coating station and entering the non-contact diverter without changing the direction in only one level. This means that the train from the point of leaving the coating station until entering the non-contact deflection device in a free run without exercise an external force is running, which guarantees that the coating layer in the coating station was applied to the web, fixed in the deflection device can be while the quality, which was obtained in the coating station is maintained.

Here refers to the "leaving the coating station "on the point at which the web of the web guide element, the purpose of the directly applying a coating to the web, separates. Such a guide element can For example, an applicator roller, a carrier roller or a belt, the endlessly around a shoe or similar Devices running, be. It is crucial that the coating state of the web at affected guide element changed is, and, with the exception of some desired drying effects, from the point of separation remains unchanged.

If to the web entering the non-contact diverter is taken to the point where the deflector significantly affects the path, that is, the point at which gas from the Deflecting device flows out or infrared rays strike the web in such a way that changed the temperature of the web is referenced.

In the present invention, the length of free travel of the web, ie, the length of the path of the web between two guide members in contact with the web, is increased as compared to the prior art ^dispensing devices. This is even more extraordinary, as many experts believe that as the length of free run increases, so does the instability of the pathway, and thus the skilled person should be urged to reduce the length of free runs. Surprisingly, the beneficial effects of the present invention without taking additional measures or setting up further components to increase the stability of the path of the web as it passes through the coater.

In addition to the fact that quality-reducing Effects on the web during the deflection can be avoided by the coating device The present invention achieves a further advantage: in contrast to the coating device, which is from the state of the art Technique is known, it is unaffected by the level and externally Way of the web after leaving the coating station now possible, at one Coating station a coating material on both sides to apply the web. Therefore, the space, in particular the longitudinal dimension, the through the coating stations, where a web once or several times double coated, is needed, considerably be reduced. This means that valuable space for the construction can be saved.

The quality The coated web can be further improved by the web covers the coating station in an upward direction, preferably in a substantially vertical direction, leave. It is common the case that when, for example, the web from the applicator roll or a similar one Coating element for the indirect application of a coating material used on the web solves one effect called "fogging" occurs, i.e., in the wedge between the web and the surface of the coating element a vapor is formed from small coating beads or droplets becomes. However, if the web is moving the coating station in an upward direction, preferably in a substantially vertical direction, leaves the probability that the small beads on the coated Track fall off with the increasing pitch angle. The pearls Instead, they are more likely to be on the coating element fall behind.

As already mentioned was the free run of the web after the coating station the purpose of removing moisture from the web. If the Traverse the coating station in an upward or downward direction leaves, is a sufficient way for the web is present to dry without the length of the coater and thus increase their space requirements to have to, since the deflecting device in this case either essentially over or can be located below the coating station.

The Non-contact diverter can deflect the web about 90 °. This is advantageous if the deflection device web processing units with big ones Length, e.g. a calender, follow. The web can be the coating station for example, leave in a vertically upward direction, is deflected by the deflection device by 90 ° to the machine direction, and then through a vertically arranged calender to the height level the coating station returned.

there can the available space for the structure by arranging the web processing units a compact way to be used optimally. The machine direction is the direction in which the web begins to unwind To be coated web supply until rolling up the coated Train moves.

If the non-contact deflection devices no further web processing devices a sufficient drying length can also be obtained by the web is deflected by non-contact diverters by about 180 ° becomes. This means that twice the distance between the Coating station and the non-contact deflection device as drying length available is.

If only a limited one Construction height and / or Depth (dependent of whether the web is the coating station in an up or down in a downward direction leaves) available is, can the required height the coating station are reduced when the first redirecting, which is performed in the deflection device, to the machine direction is directed. If the first redirecting in a direction to the Machine direction opposite would be done, the Rail inevitably need to be redirected to move in the machine direction to move, which is only about or be performed below the first deflection of the web can.

The The above-described deflection of the web can in the deflection executed in a simple way be when the deflection device comprises a deflection, the is located on the concave side of a deflection section of the web. The deflection unit may be, for example, a so-called "air deflection".

Particularly stable locomotion of the web, which is desirable, for example, in cases where the web travels in a free run, can be achieved if the diverter comprises a stabilizing unit located on the opposite side of the diverter, on the convex side of the deflection, is located. Such a stabilizing unit can be made, for example, from a non-contact drying unit in the Form of a hood for a forced convection, which will achieve the same or a different drying from both sides of the web at the same time, if it is considered together with the drying effect of Luftumlenkeinheit.

One decisive factor of economic efficiency of, for example, Paper or board processing machines is the speed with which the web to be processed runs. This running speed can without sacrificing quality the railway increased when at least one noncontact drying unit - in the Direction of the railway seen - before and / or after the deflection unit is located. This can improve the drying performance the drying device is increased in relation to the path of the web, thereby reducing the time for which the railway in the Drying device is enabled.

If the web is double coated, the length of the free run can be reduced or the running speed will be increased if at least two non-contact drying units on different sides the railway opposite each other are located. The at least one drying unit may be an air dryer or an infrared dryer or an infrared preheater. It is also possible, in the deflection both infrared dryer and air dryer to use. It may be beneficial to wet track first Pre-dry by infrared rays, whereby the web opposite the subsequently impinging air jets or air streams is made insensitive.

After that The web can be dried by air drying, due to The turbulence of the air jets near the surface of the web is very homogeneous. For the purpose of raising the speed of drying under the rays and therefore the advancement An improved finish quality can also be advantageous be, the damp web before drying with the impinging air jets first preheat by infrared rays.

In Connection with the drying of the web to a certain degree and at some point of the pathway it may be desirable to the free run depends to extend the degree of moisture of the coated web to more time to dry for to get the orbit while She moves at a constant speed. This can by providing - in seen the direction of the web - at least one other Non-contact deflection unit after a non-contact deflection unit be achieved in a space-saving manner. In addition, at least one the non-contact deflection units in addition to deflecting the web also have a drying function, for example by their heating with gas, the warmer is the ambient temperature of the impinging air, and / or by elevating the impact jet velocity of the Luftumlenkeinheit, whereby the Reynolds number of impinging flow on the product surface is increased.

There the functions of drying and redirecting in a device can be combined it is also conceivable, by structurally combining a drying unit and a deflection unit in one element a combined drying and deflecting device.

During the Drying process of the coated web gives the coating, which was first applied in a moist or pasty form, Moisture and / or solvents into the atmosphere that off when dealing with the ambient air in the machine hall mix, a harmful impact on the health and well-being of the staff working in the Machine hall works, as well as on the building itself can exhibit. These harmful Effects can be avoided when the non-contact deflection unit and / or the at least one further deflection unit and / or the at least a non-contact drying unit are located in a common housing, that, if desired, from several housing parts can exist. The common housing may, for example, a Have suction hood, the moist or / and solvent-containing Exhaust gas directly from the area around the web sucks, so it is not in the ambient atmosphere of Machine hall can get.

The Coating station used to apply the coating can, at least one coating unit for direct application of the coating material on the web or / and at least one Coating unit for the indirect application of the coating material show the track. This guarantees a desired coating result considering of the available Place for the construction. If for the coating station has limited space available, and if a coating desired on both sides For example, one side of the web may be through an applicator roll can be coated indirectly and the other side by a Coating unit are coated directly, the applicator roller as a carrier roll for the coating unit is used. In addition, the use of each any kind of desired Coating device conceivable, such as coating devices, the experts as JetFlow F, SDTA (Short Dwell Time Applicator - Applicator with short residence time), LDTA (Long Dwell Time Applicator - Applicator with long residence time), curtain coaters, etc. are known.

If The web can be coated in several layers, in a coating device two or more coating units according to the invention are arranged one behind the other, each single coating unit a coating layer on a or both sides of the current web can muster.

The Gas nozzle arrangements which are used in deflection and drying devices play an important role for the functionality of such Coaters. It is important, for example, that on Deflection point of non-contact deflection devices, such as air deflector, a stable air cushion is present. The requirements by Such an air cushion and its stability must be met, take with an increasing length the free run of the train too. If an inhomogeneity, for example by a fluctuating degree of moisture of the web in the width direction, is to be avoided, is also a uniform gas distribution over the Length of a gas nozzle arrangement or a gas distributor very important. In this regard, too the distribution, the speed and the direction of the air coming out the air cushion area exits, of importance.

From the state of the art WO 98/56985 For example, certain gas distributors used for drying paper webs are known, which essentially consist of an elongated hollow body extending in its longitudinal direction perpendicular to the running direction of the web. This hollow body comprises a gas inlet and a gas outlet, the gas outlet being at the wall portion of the hollow body (at the gas outlet portion) which is substantially parallel to the face of the web and facing the moving web. The gas distributor of the prior art is characterized in that the introduction of the gas takes place on the side wall. The height of the gas flow-relevant cross-section in the interior of the gas distributor decreases linearly from the gas inlet side to the side relative to this gas inlet side. A disadvantage of this gas distributor is that not always a homogeneous gas flow over the entire length of the gas distributor is guaranteed. Attempts have been made to compensate this circumstance by linearly reducing the gas flow-relevant cross-section, which, however, again due to the asymmetric gas absorption from a side wall, leads to an unnecessarily large build-up volume, in particular an unnecessarily high construction, of the gas distributor.

Around space for to save the structure as well as a uniform gas delivery over the whole length to guarantee the gas distributor, it is suggested that an above described gas distributor of the generic type to use whose Gas inlet is in the middle in the longitudinal direction of the hollow body in Non-contact deflection and / or drying devices for moving webs.

Of the Gas distributor does not necessarily have to be in its longitudinal direction extend transversely to the direction of the web. He can in his longitudinal direction also be arranged parallel to the running direction of the web to affect certain zones such as the edge of the web and they too dry. additionally he can do any desired Have intermediate position.

The Arranging the gas inlet in the middle in the longitudinal direction of the elongated hollow body means that the distance from the gas inlet point to the farthest Gas outlet point is halved, which makes it more likely that the gas discharge flow over the whole length of the distributor is homogeneous.

A smaller width of the gas distributor, which may be desirable if several Gas distributors are arranged side by side in a small space can be achieved by the gas inlet on the wall section of the hollow body across from the gas ejection section is arranged.

Of the elongated hollow body can have many different forms. Building the hollow body as hollow parallel-sided Body can a particularly simple and cost effective version. But if the vertical space of the gas flow cross section in the interior of the hollow body starting from a central portion in the longitudinal direction of the gas inlet comprises, towards the two ends in the longitudinal direction of the hollow body decreases, preferably decreases continuously, the homogeneity of the gas discharge flow can still further increased become. Particularly preferably changed the vertical space of the gas flow cross-section of the hollow body at a certain point in the longitudinal direction proportional to the amount of gas at this point in the longitudinal direction of the hollow body to be delivered.

When another measure to increase the homogeneity the discharged gas flow can the hollow body be symmetrical in its longitudinal direction with respect to its median plane.

Out WO 98/56985 is a device for drying a paper web with gas distributors, which are arranged parallel to each other and perpendicular to the running direction of the web under a common gas suction hood known. But in the disclosed drying apparatus, those gas distributors which are supplied with gas from a side wall and which are also in WO 98/56985 are described, ver turns, which leads to an unnecessarily high construction of the drying device.

As already mentioned is the gas distributor for use in drying or deflecting devices for drying or / and deflecting a running web, in particular in the coating devices described above, especially suitable. According to the invention extends in the deflection at least one gas distributor transverse to the direction of the web. In contrast required to the state of the art the above-described drying and / or Deflection unit of the present invention less height. One Another advantage is that in the case of a deflection of the web a so big Width range of the web as possible supported by an air cushion becomes. And if a gas distributor, in a drying unit is used in such a way can be a so big Width range as possible be influenced by the drying gas.

It has already been mentioned that the moist or even solvent-containing Exhaust gas from the drying and / or deflection is to be sucked, adverse effects on the personnel and the building fabric the machine hall nearby to avoid the device. This can be solved for example if the deflection device, in particular a drying or / and deflection unit, comprises a gas extraction hood, the at least surrounds a gas distributor open towards the web, and connected to at least one gas discharge line. Of the at least one gas distributor is then through a gas supply line provided.

One particularly safe deflection and homogeneous drying of the web can be achieved when the at least one gas distributor essentially about the entire width of the moving web extends.

If the running speed of the web should be increased without the drying performance to impair and without any stability at the turning point can lose under the gas extraction hood several gas manifolds parallel to each other and spaced apart in the running direction of the web. The spaced arrangement of the multiple gas distributors guarantees that the unit is provided with slots or openings, through the moist or / and solvent-containing Exhaust gas through the gas discharge line can be sucked off.

Around the effort for the processing of the gas extraction hood as low as possible hold when using multiple gas distributors under a gas exhaust hood can be a central gas supply line in the interior of the Gas exhaust hood are introduced, with advantageous distribution lines inside the gas exhaust hood from the at least one gas supply line lead to the individual gas distributors. It is known from experience that a single gas supply line is not capable of to supply any number of gas distributors. Depending on The number of distributors may therefore be convenient to the multiple gas distributors to divide into groups, advantageously each group having a gas supply line and a gas discharge pipe allocated to the gas distributors of the corresponding groups supply with gas or moist and / or solvent-containing exhaust gas from the area suck the web.

If there is only one gas extraction point, compared by the gas from one - with the cross section of the gas discharge pipe - large area is sucked off, it can non-uniform gas emissions over the area come. It may be that sections in the vicinity of the gas discharge line a stronger Experience gas emission, as sections further from this opening. Usually this is undesirable and it can be avoided by using the gas exhaust hood with a flow balance means for the Gas, which flows from the running track in the gas exhaust hood provided becomes. The flow balance means may for example openings show, some of which have cross-sections of different sizes to to provide partially adjusted flow resistances. A flow balance effect However, it can already be achieved if the flow balance means over their the whole area a constant flow resistance provide. These flow balance means can be realized in a material-saving way by putting between the gas distributors are arranged parallel to the surface of the web. The fluids can out various materials such as a perforated plate, a flow-permeable bound Fiber fabric, honeycomb structures, grids or similar materials.

Another possible reason for inhomogeneity in gas exhaust flow may be that the gas exhaust ducts used for each group work differently. This effect can be avoided or at least reduced if flow throttling means are established in the gas suction space between the gas distribution groups in a substantially vertical direction and parallel to the gas distributors. These flow restricting means extend at least over part of the cross section and preferably over the entire cross section of the gas exhaust hood. These flow restrictors can be understood as flow-permeable, but resistance-to-flow dividing walls between the individual gas distributor groups. she may also be made of the above-mentioned materials such as perforated plates, honeycomb structures, meshes, flow-permeable bonded fiber fabrics, or similar materials.

The Drying a double coated running web is a special one technical challenge, because of almost the same volume of material twice as much moisture per unit of time must be removed. This can be solved, for example be by at least two drying devices or at least a deflection and at least one stabilization unit each other opposite be arranged on different sides of the moving web. This not only for that Drying the web, but also for diverting the web, and though in cases where a special stability the web needed such as in the case of long free runs of the web. The least two Drying units or the at least one deflection and the at least a stabilization unit can be arranged in such a way that at least some the gas distributor on both sides of the web at substantially the same places in the longitudinal direction as seen in the direction of travel of the web are in pairs opposite each other. This has the advantage of being able to train the most to dry gently as the forces, which flows through the gas exercised on the track will compensate each other. This avoids bending of the web become.

It but it is also possible at least some of the gas distributors on one side of the web and at least Regarding some of the gas distributors on the other side of the lane their longitudinal places in to arrange the direction of the web seen alternately. With others Words is a gas distributor on one side of the web and is located - in seen the direction of the web - another gas distributor spaced from this gas manifold on the other side of the web etc. With this arrangement, the web can enter under certain circumstances Bending experienced, but this arrangement has the advantage that the area the web in the drying section is widened by this bending, allowing a greater drying performance can be achieved without the construction or the running parameters of To change drying and / or deflection device. It is also possible to have some the gas distributor in one way and some of the other gas distributors in the other way, that is, they may be in some areas the same places in the longitudinal direction opposite each other and alternately arranged in other areas. This can for example, a wet web that has just been coated, be applied. This web can initially be replaced by an array of alternated gas distributors which results in the formation of waves on the web, thereby increasing its area. This increases the drying power in the drying device, and then smooth the web with an already pre-dried coating the gas distributors of the drying device, which are opposite each other, emotional.

Summarized the air deflection has been specially designed to ensure that by generating a dynamic air pressure support pad, that in the desired Fly height above the Luftumlenkfläche in equilibrium with the acting web tension, to Stable carrying the running track comes. The resulting generated support cushion pressure was essentially affected by the impact velocity at the nozzle exit independently made to ensure that high heat and mass transfer rates can be achieved. This is effected by the pressure of the gas in changed the Luftumlenkelementen is going to be at the track area to achieve the required impact gas velocity. The desired Bahnschwebeföhe is meanwhile maintained by the speed of the air, the leaves the pressure pad area, is regulated by ensuring that they are replaced by a variable Gas distributor flows, between the impact elements, which are parallel to the track surface, is arranged. By this means the distribution of air, which emerges from the pad pressure area, evenly over the Width of the unit spread while you at the desired Cushion pressure level is maintained.

Advantageously, as in EP-B1-0 728 285 described nozzle systems are used, the disclosure of which is hereby incorporated by reference as included in the present application. By using such nozzle systems, it is possible to substantially shorten the required drying lengths and thus the space taken in the machine direction through the entire apparatus.

in the Below, the present invention will be described with reference to FIGS accompanying drawings are described, wherein

1 is a rough schematic cross-section of a coating apparatus according to the present invention, wherein the web is coated on one side and deflected by 90 ° in the Umlenkvorrich,

2 is a rough schematic cross-section of a coating apparatus according to the present invention, wherein the web is double-coated and deflected in the deflecting device by 180 °,

3 another embodiment of Be coating device of the present invention,

4 a coating apparatus of the invention with a subsequent calender,

5 another embodiment of the coating apparatus of the present invention wherein the web is coated on one side and deflected by 90 ° in the diverter,

6 another embodiment of the coating apparatus of the present invention wherein the web is double-coated and deflected by 180 ° in the diverter,

7 one embodiment of a coating apparatus not included in the present invention wherein the web is coated on one side and leaves the coating station in a vertically downward direction,

8th another embodiment of a coating apparatus not included in the present invention, wherein the web is double-coated and leaves the coating station in a vertically downward direction,

9 is a rough schematic cross section of a gas distributor of the prior art,

10 is a rough schematic cross-section of a gas distributor that can be used with the present invention,

11 another embodiment of the gas distributor which can be used with the invention,

12 is a rough schematic longitudinal section of two structurally equivalent drying and deflection devices that can be used with the invention,

13 a rough schematic cross section of the drying and deflection of 12 is, wherein the cross section along the line XIII-XIII of 12 is made,

14 a further embodiment of two drying and deflection devices that can be used with the invention, with an alternating arrangement of the gas distributor,

15 is a rough schematic cross-section of another embodiment of two drying and deflection devices, wherein the gas distributor of each device are divided into groups.

In 1 For example, a coating apparatus of the invention is generally included 10 designated. The coating device 10 includes a coating station 12 as well as a non-contact diverter 14 , A train 16 runs in the direction of the arrow 18 in the coating station 12 ,

The coating station 12 comprises a support element in the form of a support roller 20 that are in the direction of the arrow 22 around its axis 24 which rotates in such a way perpendicular to the plane of drawing of 1 that runs the track 16 by the scope 20a the carrier roll 20 is supported without slippage.

The coating station 12 further comprises a coating unit 26 from which a liquid coating material 28 directly to the page 16a the train 16 that are not for the carrier roll 20 directed, is applied. In the direction of the train 16 is after the coating unit 26 a matching device 30 provided. This matching device 30 includes a stiff bar 32 on which a squeegee 34 attached, which is the liquid coating 28 on the train 16 is applied, dosed and balances. In the direction of the train 16 the railway separates 16 that now with the coating 28 is coated after being at the top of the squeegee 34 has passed, at one point 36 from the carrier roll 20 , This point 36 denotes the point at which the train 16 the coating station 12 leaves. At this point, the process of applying a coating is quantitatively and qualitatively finished, except that the drying process is inevitably started due to the convection. In addition, there is no possibility that any element or component that directly applies a coating 28 on the train 16 designed, an impact on the web 16 after the train 16 the exit point 36 happened. It also starts from the point 36 the free run of the train 16 and he lasts until the train 16 again with a guiding and / or guiding element that is not in 1 shown is in contact.

The non-contact deflection device 14 includes a housing 38 that consists of a first housing part 38a and a second housing part 38b consists. Between the two housing parts 38a and 38b is a Zwischenram 40 provided in which the railway 16 running. In the first housing part 38a located on the concave side of the web in the running direction of the web 16 is located, there is a drying unit 42 on the input side, a deflection unit 44 as well as a drying unit 46 at the exit side. Both drying units 42 and 46 as well as the deflection unit 44 include gas distribution ler 48 , which are transverse to the running direction of the web 16 , ie, perpendicular to the plane of drawing of 1 , are arranged, and whose cross-sectional outline in 1 shown in dashed lines. Warm air gets through gas distributor against the damp side 16a the train 16 on which a coating 28 was applied, led to moisture from the web 16 to withdraw or / and to redirect the course. The first housing part 38a further comprises an ejection device not in 1 shown is the humid exhaust air from the area near the side 16a lead the way away.

In the second housing part 38b which is located on the convex side of the web and in the radial direction opposite to the deflecting unit is a stabilizing unit 50 provided. The stabilization unit 50 also includes gas distributor 48 , which are transverse to the running direction of the web 16 are arranged and blow air to the track. The stabilization unit 50 serves the purpose in the deflection of a stable leadership for the web 16 provide and the web 16 to press against an air cushion, by the deflection unit 44 is formed, whereby the realization of long free runs of the web is facilitated. In the non-contact deflection device 14 takes place a deflection by 90 ° in the machine direction R instead. As a result, the non-contact deflection device 14 be realized with a relatively low height.

The coated web 16 enters the non-contact diverter 14 at the point 52 , The entry point 52 is the beginning of the interval 40 because here - in the direction of the train 16 seen - the area begins in which the drying device 42 on the input side can significantly influence the web.

Between the points 36 and 52 the train is running 16 essentially in a plane containing the points 36 and 52 contains, and in the example that in 1 is shown, perpendicular to the plane of the drawing. The train 16 is between leaving the coating station 12 and entering the non-contact diverter 14 not mechanically affected, thereby reducing or even avoiding the risk of deterioration of the web coating. The quality of the coating can therefore be guaranteed or even increased.

In 2 are the same ingredients as in 1 with the same reference numbers, but around 100 increased, designated. It is hereby expressly based on the description of 1 directed.

In 2 enters a train 116 a coating station 112 in the direction of the arrow 118 , The coating station 112 serves the purpose of the railway 116 double coat. The combined carrier and applicator roller 120 turns around its axis of rotation 124 , which is perpendicular to the plane of the drawing, in such a way in the direction of the arrow 122 that between the perimeter 120a and the train 116 no relative movement occurs.

On the side 116a the train 116 that by the extent 120a is directed away, by a like in 1 shown directly applying coating unit 126 a coating 128 applied. In the direction of the train 116 is following the first coating unit 126 a like in 1 shown balancing device 130 provided. In addition, the coating station includes 112 another coating unit 154 , This second coating unit 154 brings a coating 156 first on the circumference 120a the combined carrier and applicator roller, from which they then on the side 116b the train 116 is applied to the scope 120a is directed. Depending on the target to be met by the coating, the liquid coating can 128 and the coating 156 be the same or different coatings.

At the exit point, where the wet track 116 on both sides with the coatings 128 and 156 coated from the combined support and applicator roller 120 separates, leaves the track 116 the coating station as defined in a vertical direction. It is an advantage to have the train 116 the combined carrier and applicator roller 120 leaves in a vertical direction, since the pearls 158 the coating 156 that are in the wedge 160 between the applicator roll 120 and the train 116 very likely instead of the train 116 rather, on the roller 120 fall. This remarkably increases the coating results.

At the point 152 enters the track 116 the non-contact deflection device 114 , The train 116 moves between the points 136 and 152 in one plane without changing the direction.

The non-contact deflection device 114 steers the train 116 a total of 180 °, ie, at two points by 90 °, to. The train 116 leaves the non-contact diverter 114 in the direction of the arrow 118 ' , The deflection device 114 shows a housing 138 with a first housing part 138a which is on the concave side of the deflected path 116 (= the page 116a in 2 ), and a second part 138b on the convex side of the deflected path 116 (= the page 116b the train 116 ) is located. In the first housing part 138a are located in the running direction of the web, a first drying unit 142 on the input side, a first deflection unit 144 , another drying unit 162 on the concave side as well as a second Um steering unit 164 , In contrast, the second housing part shows 138b - Also in the direction of the web 116 seen - a second drying unit 166 on the input side, a first stabilization unit 150 , another drying unit 168 on the convex side as well as a second stabilization unit 170 , By arranging the drying units and the deflection and / or stabilization units - which can be operated with hot or hot gas and thus also for drying the web 116 can be used - on both sides of the train can due to the U-shaped path of the train 116 a long free run of the track 116 and a correspondingly good drying effect can be realized without having to take up unnecessary space in the machine hall. This reduces, for example, the imputed expenses for the place of the drying device 110 ,

The schematically shown drying units 142 . 162 . 166 . 168 , in the 2 are infrared drying units. You can, however, also like in 1 Be gas and / or air drying units.

In 3 are the same ingredients as in 2 with the same reference numbers, but around 100 increased, designated. The following will be 3 only described as far as they differ from 1 and 2 different. For the other components, this is based on the descriptions of 1 and 2 directed.

In 3 becomes a train 216 by indirect application of a coating 228 on the side 216a the web through a coating roller 270 and the coating 256 on the side 216b the web through a coating roller 220 coated. The rotation axis 274 the applicator roller 270 runs parallel to the axis of rotation 224 the applicator roller 220 , The applicator rollers 270 and 220 turn in such a way in the direction of the arrows 216 and 272 about its axis, that at the pressing nip 276 provided to apply the coating from the applicator rollers to the web, no relative movement between the web 216 and the circumferences 220a and 270a the two applicator rolls takes place.

As in 3 shown is the point 236 where the web is the coating station 212 leaves - seen in the running direction of the web - something behind the pressing nip 276 which lies in the plane, both axes of rotation 224 and 274 combines. This is due to the delayed release of the web 216 from one of the two applicator rollers 220 and 270 due to adhesion effects of the wet web 216 ,

Due to the indirect double coating with the coatings 228 and 256 on the train 216 on both sides 216a and 216b the railway comes to a fogging after the train 216 from the two applicator rollers 220 and 270 has separated. Again, the quality of the application and the coating of the web 216 by stripping the web in a vertical upward direction so that the coating particles 158 less likely on the coated web 216 fall back, be guaranteed.

At the point 252 enters the coated track 216 the non-contact deflection device 214 , The housing of the non-contact deflection device 214 is the gas extraction hood, which is assigned to the individual deflection and drying units. The train 216 is in the Nichtkon clock deflection 214 a total of 180 ° deflected. In the deflection device 214 are located on the concave side of the U-shaped path of the web - seen in the running direction of the web - a deflection unit 244 on the input side, a drying unit 262 on the concave side, and a deflection unit 264 at the exit side. On the convex side of the U-shaped path of the web there is a stabilization unit 250 on the input side, a drying unit 268 on the convex side, and a stabilizing unit 270 at the exit side (also seen in the running direction of the web). All components are gas powered, to be more specific. However, it is also conceivable to use gases other than air, such as nitrogen or carbon dioxide. In contrast to the example that is in 2 is shown, the drying units 262 and 268 which are located opposite each other on different sides of the web, the same length.

The train 216 runs between the points 236 and 525 in a plane.

In 4 are the same ingredients as in 3 with the same reference numbers, but around 100 increased, designated. 4 is only described as far as they differ from 1 to 3 different. For the other components, this is based on the descriptions of 1 to 3 directed.

A coating 356 is through a coating unit 354 indirectly to the page 316b the train 316 applied to the applicator roller 320 is directed. The train 316 enters the coating station 312 from diagonally down in the direction of the arrow 318 and leave her at the point 336 , The contact angle α, in which the web 316 with the scope 320a the applicator roller 320 Being in contact can be reduced by moving the track 316 to enter from diagonally below. The optimum contact angle can vary depending on the running and material parameters meters such as the running speed of the web and the coating and the material used have different values.

At the point 352 enters the track 316 the non-contact deflection device 314 after getting off the point 336 where the train 316 the coating station 312 leaves, to this point 352 moved in one plane. The train 316 is in this deflecting device 314 deflected by 90 °. The first housing part 338a to the side 316a the concave side of the track 316 is directed, comprises - in the running direction of the web - a combined drying and deflection unit 378 followed by another drying unit 346 on the concave side. Both the combined drying and deflection unit 378 as well as the further drying unit 346 on the concave side are with gas manifolds 348 (shown in dashed lines) and are operated with gas having a higher temperature than the ambient air to achieve a drying effect.

The Combining a drying unit with a deflection unit in one single component facilitates the assembly of the non-contact deflection device considerably, because the number of components that need to be assembled decreases is.

In the second housing part 338b , the side 316b the train 316 is a drying unit 366 at the convex input side and a drying unit 380 provided on the convex output side. The two drying units 366 and 380 serve the purpose of the coating 356 on the train 316 to dry directly. The structural components 346 and 378 in the first housing part 338a serve to change the direction of the web in its deflection section and stabilize the path of the web in its straight sections and the web 316 to dry indirectly.

After leaving the non-contact diverter 314 enters the track 316 a vertically arranged calender 380 in which the railway 316 alternately the halves of six rolls 382 spans, which are arranged parallel to each other and with each other. The train 316 It then becomes the height level where it is the coating station 312 entered, returned. The train 316 leaves the calender 380 in the direction of the arrow 318 ' ,

In 5 are the same ingredients as in 4 with the same reference numbers, but around 100 increased, designated. 5 is described only insofar as it differs from the description of 1 to 4 different. For the other components is expressly based on the descriptions of 1 to 4 directed.

The train 416 enters the coating station 412 in the direction of the arrow 418 , The coating station 412 includes an applicator roll 470 and a carrier roll 420 , The applicator roller 470 and the carrier roll 420 turn in such a way in opposite directions that velocities of the sizes 420a and 470a the carrier roll 420 or the applicator roll 470 as well as those of the railway 416 are the same. A liquid coating 428 is through a coating unit 426 over the circumference 470a the applicator roller 470 indirectly to the page 416a the train 416 applied. The coating takes place at the pressing nip 476 instead, which lies in the plane, which is the two parallel axes of rotation 424 and 474 the application or the support roller comprises. The train 416 leaves the coating station 412 - Seen in the running direction of the web - after the pressing nip 476 as already related to 3 was declared. After getting the point 436 has happened, the train is moving 416 at least to the point 452 where the train 416 the non-contact deflection device 414 enters, continues in one level. In contrast to the deflection device described last, the deflection device comprises 414 no combined drying and deflection unit on the concave side leading to the web 416a directed, but a single drying unit 442. on the input side as well as a deflection unit 444 followed by a drying unit 446 at the exit side (seen in the running direction of the web). In addition, the second drying unit 466 on the input side as well as the drying unit 480 at the convex input side of the web, which is in the second housing part 438b located to the convex side of the web 416 is directed, shorter than the in 4 described. This is due to the fact that the page 416b the train 416 - The drying units are assigned to the convex side of the web - is not coated, which means that the web does not have to be dried directly. The drying units 466 and 480 On the convex side of the web, rather, serve the purpose of stabilizing the web and, in addition, indirectly drying the coating on the side 416a the web is applied. The train 416 leaves the non-contact diverter 414 in the direction of the arrow 418 ' ,

In 6 are the same ingredients as in 5 with the same reference numbers, but around 100 increased, designated. 6 is described only insofar as it differs from the description of 1 to 5 different. For the other components is expressly based on the descriptions of 1 to 5 directed.

In 6 enters the track 516 the Beschich processing station 512 from diagonally down in the direction of the arrow 518 , A coating 556 and 528 is through coating stations 554 respectively. 526 over two applicator rolls 520 and 570 indirectly on the train 516 applied. The rotations of the applicator roller 520 in the direction of the arrow 522 , the order roller 570 in the direction of the arrow 572 as well as the way of the railway 516 are coordinated in such a way that there is no relative movement between the circumferences 520a and 570a and between the perimeters and the web 516 gives. The coatings 528 and 556 be at the pressing nip 576 on the train 516 to be more precise, on both sides 516a and 516b the train 516 , applied. At the point 536 the web leaves the coating station 512 and moves in one plane until at the point 552 the non-contact deflection device 514 enters. The deflection device 514 essentially corresponds to the deflection device 214 from 3 but includes the non-contact diverter 514 at least on the convex side of the deflection housing 538 in which a drying unit 568 is arranged. In contrast to the deflection device 214 from 3 includes the deflection device 514 from 6 no stabilization units. Neither the diverters 544 and 564 which are arranged on the concave side of the web, nor the drying unit 562 are located in another housing. They each include a gas extraction hood. All diverters 544 and 564 as well as all drying units 562 and 568 the deflection device 514 are operated with air. This is exemplified by two gas distributors 548 shown in dashed lines.

The train 516 leaves the non-contact diverter 514 in the direction of the arrow 518 ' ie vertically downwards.

In 7 are the same ingredients as in 6 with the same reference numbers, but around 100 increased, designated. 7 is described only insofar as it differs from the description of 1 to 6 different. For the other components is expressly based on the descriptions of 1 to 6 directed.

In 7 enters a train 616 the coating station 612 in the direction of the arrow 618 , The train 616 moves around a carrier roll 620 that move without any slippage in the direction of the arrow 622 around its axis of rotation 624 rotates. This is achieved by a coating unit 626 a coating 628 on the side 616a the train 616 applied by the carrier roll 620 is directed away. At the point 636 the railway separates 616 from the outer circumference 620a the carrier roll 620 and leaves the coating station 612 in a vertically downward direction. The train 616 runs in a plane from the point 636 to a point 652 to which it is the non-contact deflection device 614 enters.

The deflection device 614 that the railway 616 a total of 180 ° deflects - which takes place in two steps of 90 ° - includes on the concave side of the web and in the running direction of the web a deflection unit 644 on the input side, a drying unit 662 on the concave side of the track, and a diverter unit 664 at the exit side. The convex side is only through a housing 638 intended to prevent the escape of moisture or solvent gases or vapors into the machine hall. The diverters 644 and 664 as well as the drying unit 662 are operated with air that is warmer than the ambient air of the machine shop.

The like in 7 shown embodiment of a coating device 610 is chosen, for example, when an already existing paper processing machine is to be equipped with a coating device, and when there is no space available for the construction above the coating station.

In 8th are the same ingredients as in 7 with the same reference numbers, but around 100 increased, designated. 8th is described only insofar as it differs from the description of 1 to 7 different. For the other components is expressly based on the descriptions of 1 to 7 directed.

8th also shows a coating device 710 in which the railway 716 the coating station 712 at the point 736 leaves in a vertically downward direction. A coating 728 is through a coating station 726 over the applicator roller 770 on the side 716a the train 716 applied by the combined applicator and carrier roll 720 is directed away. A coating 756 is through a coating unit 754 over the applicator roller 720 indirectly to the other side 716b applied. In the running direction of the web it comes in the wedge behind the point 736 and between the two rolls and the web to fog in the form of coating particles 758 , These coating particles 758 endanger the desired coating quality as they fall down due to gravity and on the web 716 can land. If desired, can be on both sides of the track 716 near the point 736 a suction hood are attached, the coating particles 758 removed before they land on the train.

The train 716 moves in one plane from the point 736 to the point 752 where the train 716 the non-contact deflection device 714 enters. In the non-contact deflection device 714 will the train 716 deflected by 90 ° in the machine direction R. For this purpose, a deflection unit 744 which is operated with air, on the concave side of the web 716 arranged, followed by an infrared drying unit 746 follows. Opposite the deflection unit 744 ie, on the convex side of the web 716 , there is a stabilization unit 750 , which is also operated with air, after which an infrared drying unit 780 follows at the convex exit side of the web. The deflection unit 744 , the stabilization unit 750 as well as the infrared drying units 746 and 780 are not covered by additional housings or protective covers. The gas extraction hoods, which are assigned to the respective components, are sufficient to suck off moist and / or solvent-containing exhaust gas or exhaust air. The train 716 leaves the non-contact diverter 714 in the direction of the arrow 718 ' ,

9 is a schematic cross-section along a section IX-IX in 1 , wherein the image of the gas extraction hoods of the deflection unit 44 and the stabilization unit 50 is omitted. 9 shows an arrangement of gas distributors of the prior art, through which gas flows to a double-coated web. Since the arrangement of the gas distributor is axially symmetrical, in the following only the upper gas distributor 48 to be discribed.

The train 16 in 9 is seen in cross-sectional view, wherein the direction of travel of the web is indicated by the arrow L, which extends perpendicular to the plane of the drawing to the viewer. The elongated gas distributor 48 extends parallel to and substantially over the entire width of the web 16 , The gas distributor 48 shows a gas inlet on one side 84 , From this gas inlet gas, eg air, flows into the interior of the gas distributor and is passed through a gas outlet 86 which is located at a gas outlet section 48a of the gas distributor 48 is delivered. The gas outlet section 48a is a wall section of the gas distributor 48 , parallel to the running track 16 runs and is directed to this. The gas inlet section 48b of the gas distributor 48 The prior art is formed by a wall portion of a side wall. The height of the gas distributor decreases from the gas inlet section 48b to the end section 48c of the gas distributor 48 , the gas inlet section 48b in the longitudinal direction of the gas distributor in order to try to reduce the amount of gas that flows from the gas outlet section 48a flows to keep constant along the gas distributor. The gas going to the train 16 is flowing through arrows 88 specified. The gas flow inside the gas distributor to the gas outlet 86 occurs is greatly simplified by arrows 90 specified.

10 is a schematic cross-sectional view of a portion along the line XX in FIG 3 , 10 shows an arrangement with improved gas distributors 248 ,

In 10 are the same reference numerals as in 9 with the same reference numbers, but around 100 increased, designated. In the following, only the upper gas distributor of in 9 shown gas distributor 248 to be discribed. Its description also applies to the lower gas distributor 248 ,

The gas distributor 248 is essentially an elongated, hollow, parallel-sided body 292 formed in its longitudinal direction over the entire width of the web 216 extends. The hollow body 292 shows at its bottom that to the railway 216 is directed, a gas outlet 286 , The underside is thus the gas outlet section 248a , In the upper side 248d opposite the gas outlet section of the gas distributor 248 is located in the region of its center in the longitudinal direction of a gas inlet 284 , Inside the gas distributor 248 is located in the middle in the longitudinal direction of the gas distributor, a breaker plate 294 parallel to the gas outlet section 248a and spaced below the gas inlet. This breaker plate 294 avoids a short circuit of the gas ejection nozzles, which in a direct extension to the gas inlet 284 are arranged with the gas inlet 284 , The gas inside the gas distributor 248 must be like the arrows 290 on the left side of the gas distributor 248 indicated around the breaker plate 294 stream. This will be a harmonized gas ejection flow 288 achieved along the length of the gas distributor. The breaker plate can as through the breaker plate 294 ' of the lower gas distributor 248 indicated also have the shape of an arrow. The breaker plate inside the gas distributor could also be omitted.

The advantage of this gas distributor compared to the gas distributor of the prior art, which in 9 is shown is its reduced height. If it is assumed that the height of the end section 248c by the amount of gas coming out of that end section 248c is determined, the height of the gas distributor of the prior art in the longitudinal direction of the gas distributor, starting from the end portion 248c to the opposite end portion 248b increase linearly. An outline of a conventional gas distributor of the same length is in FIG 10 indicated by dashed lines.

11 shows an arrangement of gas distributors 448 that are in the drying units 442. and 466 from 5 be used. The same ingredients as in 10 are with the same reference numbers, but around 200 increased, shown. As in 9 and 10 is in 11 only the upper gas distributor 448 described, and only as far as he himself from the gas distributor 248 who in 10 shown differs.

The gas distributor 448 is designed in such a way that its height, or rather the height of the inner flow-relevant cross-section of its gas inlet 484 , near the center in the longitudinal direction of the gas distributor 448 to its end sections 448b and 448c decreases. The decrease in the height of the flow-relevant cross-section at any given point in the longitudinal direction corresponds to the amount of gas at this point in the longitudinal direction of the gas distributor 448 is delivered. This means that the height of the gas distributor 448 per way increase from this point in the longitudinal direction to the next end in the longitudinal direction 448b or 448c decreases in proportion to the amount of gas expelled along the path increase. If like in 10 It is assumed that the cross-sectional area of the end portion 448c of the gas distributor 448 proportional to the amount of out of the end section 448c flowing gas, and therefore having a fixed height accordingly, would result in an equally working gas distributor of the prior art, the outline in 11 shown in dashed lines. You can see that in 11 shown gas distributor 448 has a much lower overall height than a prior art gas distributor of the prior art, which saves space for the construction.

The gas flow inside the gas distributor 448 is by arrows 490 specified. In addition, the gas distributor 448 as in the lower gas distributor in 11 shown with a breaker plate 494 be provided.

12 to 15 show embodiments of drying units or baffles as may be used in coating devices of the present invention.

12 shows a schematic cross-sectional view through the drying units 262 and 268 along the line XII-XII of 3 , The following is only the upper drying unit 268 described since the construction of the lower drying unit 262 a reflection of the upper drying unit 268 is and therefore corresponds to her. The mirror image refers to a reflection at the plane of the web 216 ,

The drying unit 268 shows a gas exhaust hood 294 in which several gas distributors 248 are arranged parallel to each other in the longitudinal direction. The end sections 248b and 248c the gas distributor stand with the inside of the gas extraction hood 294 in contact. The gas distributor 248 are about this contact by, for example, welding, screwing, riveting or gluing on the gas exhaust hood 294 appropriate. A gas supply line 296 is through an opening 295 in the gas extraction hood 294 inside the drying unit 268 brought in. Several distribution lines lead from the gas supply line to the gas distributors 248 and supply the gas distributors with gas. The gas flows along the continuously drawn arrows via the gas supply line 296 through the gas distribution lines 298 to the gas distributors 248 , From there, the gas flows as if through arrows 288 indicated by the gas outlet section 248a and hit the track area. There it absorbs moisture in the form of water and / or solvent and passes through a gas ejection port 299 (not in 12 shown) sucked along the dashed arrows. The gas discharge opening 299 is located at the level of the gas supply line 296 but behind the drawing plane of 12 , In 12 to 15 The solid arrows generally indicate drying air flowing onto the web 216 is blown, and the dashed arrows indicate the moist and / or solvent-containing air exhausted from the surface of the web.

In 13 is the gas discharge opening 299 more clearly visible. 13 is a section through the drying units 262 and 268a along the line XIII-XIII of 12 , In 13 is the gas discharge opening 299 shown attached to a gas discharge pipe (not shown) shown on the right side next to the cross section of the gas supply pipe. In 13 is also apparent that the gas distributor 248 which are parallel to each other with respect to their longitudinal directions in the running direction L of the web 216 are spaced, so that moist and / or solvent-containing exhaust gas or exhaust air from the rooms 202 , which are formed by this arrangement, can be sucked. Further, the first and the last gas distributor 248 with respect to the running direction L of the web from the wall of the gas exhaust hood 294 spaced to provide more spaces through which the exhaust gas or the exhaust air can be sucked from the surface of the web.

In 13 It can also be seen that the gas distributor of the drying unit 268 and the gas distributor of the drying unit 262 at the same respective points in the longitudinal direction in the running direction L of the web 216 arranged in pairs opposite one another. This will over and under the track 216 a sturdy air cushion is formed, which is the web 216 hardly influenced mechanically, since the forces of the air flow compensate each other.

14 shows an alternative arrangement of gas distributors in the upper and in the lower drying unit. The only difference to the gas distributors of 13 is that the gas distributor 248 ' the drying unit 268 ' from 14 at below different sides of the railway 216 ' opposite one another, but in the running direction L 'of the web 216 ' alternately, are arranged. That means a fixed point of the web 216 ' passing through the drying units 262 ' and 268 ' moved through the gas distributor 248 ' the drying unit 268 ' and the drying unit 262 ' alternately influenced by drying air on both sides.

In this arrangement of gas distributors, the flow forces from the gas distributors are similar 248 ' the different sides of the railway 216 ' no longer look at each other, leaving the train 216 ' Waves forming the surface of the web 216 ' passing through the drying units 262 ' and 268 ' to be dried, enlarge. This increases the drying performance of the drying units.

15 is a longitudinal section of the 6 shown drying units 562 and 568 , of the 13 and 14 equivalent. 15 shows an alternative embodiment of a drying unit. In 15 are the same ingredients as in 13 with the same reference numbers, but around 100 increased, designated. Since the drying units are symmetrical, only the upper drying unit becomes 568 to be discribed. Their description also applies to the lower drying unit 562 , The following will be 15 only described as far as they differ from 13 different. This is expressly referred to the description.

In the gas extraction hood 594 are two groups 591 and 593 of gas distributors 548 contain. Each group 591 . 593 of gas distributors 548 are each a gas supply line 596 with corresponding distribution lines as well as a gas discharge opening 599 allocated. In this way, long drying and / or deflection units with long radii can be realized and it can be guaranteed that all gas distributors are supplied with sufficient drying gas. Between the groups 591 . 593 there is a vertical perforated plate 504 extending over the entire cross-sectional area of the gas exhaust hood 594 runs and each gas exhaust opening 599 by providing increased flow resistance between the two groups 591 . 593 allocates a gas space for exhausting exhaust gas. The provision of a perforated plate instead of a fixed partition wall has the result that, in the event of a complete failure of one of the two gas discharge lines connected to the gas discharge openings 599 - the negative pressure present in the gas space of the still operating gas discharge opening can propagate to the gas space of the failed gas discharge opening, thereby guaranteeing that the device itself operates in cases of the above-mentioned malfunctions. In addition, there is between the rooms 502 between the gas distributors 548 and between the spaces between a wall of the gas exhaust hood 594 and a gas distributor 548 a flow balance means in the form of a perforated plate 506 provided to aspirate humid and / or solvent-containing off-gas from the surface of the web 516 over the length of the drying unit 568 to homogenize.

Claims (15)

Device for coating a running web ( 16 ), in particular of paper or cardboard, on one or both sides with a liquid or pasty coating material ( 28 ), comprising - a coating station ( 12 ) to the coating material ( 28 ) on the train ( 16 ), as well as - a non-contact deflection device ( 14 ), the coating station ( 12 ) in the running direction of the web ( 16 ), the coating station ( 12 ) with respect to the non-contact deflection device ( 14 ) is arranged such that the web ( 16 ) between the point at which the coating station ( 12 ) leaves ( 36 ), and the point at which the non-contact deflection device ( 14 ) enters ( 52 ), running in only one plane, without changing the direction, characterized in that the arrangement of the coating station ( 12 ) with respect to the non-contact deflection device ( 14 ) is such that the web ( 16 ) the coating station ( 12 ) leaves in an upward and vertical direction. Coating device according to claim 1, characterized in that the non-contact deflection device ( 14 ) the train ( 16 ) deflects by about 90 °. Coating device according to claim 1 or 2, characterized in that the non-contact deflection device ( 114 ) the train ( 116 ) deflects by about 180 °. Coating device according to one of claims 1 to 3, characterized in that the first deflection of the web, which in the non-contact deflection device ( 14 ), takes place in the machine direction (R). Coating device according to one of claims 1 to 4, characterized in that the deflection device ( 14 ) a deflection unit ( 44 ), which on the concave side of a deflection portion of the web ( 16 ) is arranged. Coating device according to claim 5, characterized in that the deflection device ( 14 ) a stabilization unit ( 50 ), the deflection unit ( 44 ) opposite to the Convex side of the deflection is arranged. Coating device according to one of claims 1 to 6, characterized in that at least one non-contact drying unit ( 42 or and 46 and 62 ) in the running direction of the web ( 16 ) before and / or after the deflection unit ( 44 ) is arranged at. Coating device according to claim 7, characterized in that at least two non-contact drying units ( 142 / 166 . 162 / 168 . 346 / 380 ) are opposite each other on different sides of the web ( 116 ) are arranged. Coating device according to one of claims 1 to 8, characterized in that at least one drying unit ( 42 . 46 ) is an air dryer. Coating device according to one of claims 1 to 8, characterized in that at least one drying unit ( 142 . 162 . 166 . 168 ) is an infrared dryer. Coating device according to one of claims 1 to 10, characterized in that following the one non-contact deflection unit ( 144 ) in the running direction of the web ( 116 ) at least one further non-contact deflection unit ( 164 ). Coating device according to one of claims 1 to 11, characterized in that the at least one of the non-contact deflection units ( 44 ) is operated with gas that is warmer than the ambient atmosphere surrounding the web ( 16 ) surrounds. Coating device according to one of claims 1 to 12, characterized in that the non-contact deflection unit ( 44 ) and / or the at least one further non-contact deflection unit or / and the at least one non-contact drying unit ( 42 / 46 ) under a common housing ( 38 ) are arranged, wherein the housing ( 38 ) - if desired - several housing parts ( 38a . 38b ). Coating device according to one of claims 1 to 13, characterized in that the coating station ( 12 ) at least one coating unit ( 26 ) for direct application of the coating material ( 28 ) on the train ( 16 ) and / or at least one coating unit ( 154 ) for the indirect application of the coating ( 156 ) on the train ( 116 ). Coating device for coating a running web, in particular of paper or cardboard, on one or both sides using at least two coating devices according to the claims 1 to 16 arranged in a sequential order.