EP4178781A1

EP4178781A1 - Coating system and coating method

Info

Publication number: EP4178781A1
Application number: EP21728850.5A
Authority: EP
Inventors: Christoph Henninger; Franziska FERRER; Tobias KOHLHAGEN; Harald Hess
Original assignee: Voith Patent GmbH
Current assignee: Voith Patent GmbH
Priority date: 2020-07-08
Filing date: 2021-05-20
Publication date: 2023-05-17
Also published as: WO2022008129A1; DE102020117953A1

Abstract

The invention relates to a coating system and a method for coating a running web, in particular a paper or cardboard web, with a coating medium, comprising a roller and an application head for applying the coating medium onto the roller, and a treatment nip for transferring the coating medium from the roller onto the web, wherein the treatment nip is formed by the roller and a counter element, and wherein, when seen in the rotational direction of the roller, an applicator is arranged between the application head and the treatment nip in order to subject the coating medium on the roller to vapor and/or air.

Description

Coating installation and method for coating.

The invention relates to a coating system for coating a moving web according to the preamble of claim 1 and a method for coating according to the preamble of claim 13.

The coating of running webs, especially paper webs, is a known process. Coating with a starch solution in particular has a long tradition, for example to positively influence the surface quality or strength properties of the web. In order to increase the strength of the web, it is usually advantageous if the starch solution does not essentially remain on the surface of the web but penetrates as deeply as possible into the structure of the web.

Starch is usually applied to a paper or cardboard web using a film press. In order to improve the penetration of the starch into the web in such film presses, DE 102018 100 924 proposes increasing the roller hardness for one or two of the application rollers, the flattening of the roller surface and thereby obtaining a comparatively hard treatment gap. However, in some applications this effect of the hard treatment gap is not sufficient. A possibility to further increase the penetration of the starch would be desirable here.

In addition, it would be desirable to be able to increase the starch penetration even with existing coating units without replacing the rollers.

It is therefore an object of the present invention to propose a device and a method for increasing the penetration of a coating medium. It is a further object of the invention to allow for a simple conversion of existing coaters to improve web penetration.

Finally, a further object of the invention is to be able to adapt the penetration behavior of the coating medium quickly and specifically in terms of time and space. These objects are completely solved by a coating system according to claim 1 and a method according to claim 13.

Advantageous embodiments are described in the dependent claims. A coating system for coating a running web, in particular a paper or cardboard web, with a coating medium is proposed, which comprises a roller and an application head for applying the coating medium to the roller. In addition, a treatment gap is provided for transferring the coating medium from the roller to the web, the treatment gap being formed by the roller and a counter-element. According to the invention, an applicator is arranged between the application head and the treatment gap, viewed in the direction of rotation of the roller, in order to apply steam and/or air to the coating medium on the roller.

The feature that the applicator is arranged between the application head and the treatment gap is to be understood in such a way that at least the point at which the vapor or the air impinges on the coating medium is arranged at an intermediate point between the application head and the treatment gap. It is advantageous that the applicator is also located at least partially between the application head and the treatment gap. However, the invention should also include such embodiments in which the applicator is attached, for example, to the applicator head or above it, and from there the roller is acted upon by air and/or steam at an intermediate point.

The vapor and/or air is applied to the coating medium while it is on the roller as described. The loading therefore takes place in particular in an area between the application head and the treatment gap. It is advantageous if a distance is provided between the area in which air and/or steam impinges on the coating medium and the treatment gap. In particular, this distance can be more than 20 mm, for example 30 mm, 40 mm, 50 mm, 60 mm, 70 mm, 80 mm, 90 mm or even more than 100mm. As a result, on the one hand it can be reliably avoided that the steam and/or the air gets onto the running web. On the other hand, this makes additional installations, such as a hood to shield the applicator, easier.

The invention can be advantageously used for a large number of coating media. However, since an important application is the application of starch, the terms coating medium, medium and starch are used synonymously in the following, unless explicitly stated otherwise.

The rheology of the coating medium can be influenced very easily and in a targeted manner by subjecting the coating medium, for example a starch solution, to steam and/or air. For example, the viscosity of the coating medium can be reduced by applying hot steam. This less viscous medium can then be pressed deeper into the web in the treatment gap. Alternatively, the viscosity of the medium can also be increased by cooling the medium, for example with air, as a result of which the coating medium remains closer to the surface.

Since only a very thin film of the coating medium is applied to the roller, the temperature of this thin film can be changed very quickly and easily by applying steam or air. In this way, it is possible to react very quickly and directly, e.g. to properties of the running web that fluctuate over time, and the penetration behavior can be adjusted. With the present invention, it is possible to react immediately to the web fluctuations, ie without a time delay. Such a device can thus be used within the framework of a strength control.

It is also easy to react to different properties across the width of the web. Because of the shrinkage during drying, paper webs at the edges differ significantly from the middle of the web, where the web hardly shrinks during drying. With a device as proposed in the invention, the coating medium can be applied differently at the edges than in the middle. It is also possible to apply steam/air to only part of the width of the web - for example only the edges.

The solids content of the starch solution can also be controlled by applying steam. The application of steam leads to a supply of water to the coating medium through condensation. By increasing or reducing the amount of steam, the solids content of the medium can be adjusted very easily and efficiently. Here, too, embodiments of the present invention allow the targeted spatial and temporal adjustment of the solids content of the coating medium directly before it is transferred to the web and offer possibilities for use within the framework of a regulation or control.

Another advantage of the proposed solution is that it can also be easily and inexpensively retrofitted into existing systems. In simple cases, the applicator can consist of a simple tube with nozzle openings. Since steam and compressed air are already available to supply a paper machine, a simple embodiment of the invention can be implemented with extremely little effort. Alternatively or additionally, however, more complex applicators can also be used, such as a steam blower box, which is described as an example in DE 102015217375.

It can often be advantageous if only steam is applied to the coating medium. Alternatively, the coating medium can also only be charged with air. In yet other versions, provision can be made for the coating medium to be subjected to steam and air. This can be done separately or in the form of a steam-air mixture.

The counter element can be realized in different ways. For example, it can be a static element or a band - e.g. a polymer tape or a metal tape can be formed.

In preferred embodiments, the counter element can be formed by a second roller. The treatment nip is then formed by a roller nip. In such embodiments, it can in turn be very advantageous if the coating system has a second application head for applying a coating medium to the second roller.

In this way, the coating medium can be transferred to both sides of the web at the same time.

Provision can be made in particular for a second applicator to be arranged between the second application head and the treatment gap, viewed in the direction of rotation of the second roller, in order to apply steam and/or air to the coating medium on the second roller.

The embodiments and advantages described for the (first) applicator also apply—mutatis mutandis—to the second applicator. In principle, all application heads known to those skilled in the art can be used. Advantageously, however, the application head and/or the second application head can be a non-contact application head, in particular a curtain or spray application head. It can be advantageous here that these application heads do not apply the medium in excess, and therefore no squeegee has to be used to control the application quantity. In combination with very hard roller surfaces, for example, these doctor blades can exhibit heavy wear.

Advantageously, a hood can also be provided, which shields the applicator alone or together with the applicator head from the environment. Alternatively or additionally, a second hood can also be provided, which shields the second applicator alone or together with the second application head from the environment.

Such hoods prevent, among other things, the escape of hot steam into the environment and can be necessary for safety reasons. In addition, hoods of this type can prevent the web run from being disturbed in front of the treatment gap by escaping steam or air. In a particularly preferred embodiment, two hard rollers can be provided. It can be advantageous if the surface of the roller and/or the second roller has a hardness of less than 15 P&J, in particular less than 5 P&J, or less than 1 P&J. Since the information in P&J is inaccurate in the case of very hard surfaces, it should be mentioned here that the surface of the roller and/or the second roller must also have a hardness of 45 Shore D and more, in particular more than 70 Shore D, preferably between 80 Shore D and 96 Shore D.

As already mentioned, a hard treatment gap is generally advantageous for the penetration of coating medium. In a device according to one aspect of the invention, however, such a hard nip can be particularly effective, for example through the combination with a reduction in the viscosity of the medium.

Furthermore, it is advantageous if the roller or the second roller is designed as a deflection compensation roller. This allows the pressure profile in the

Treatment gap can be changed across the width, which, in particular in combination with an adjustment of the properties of the treatment medium (e.g. viscosity or solids content) by the application of steam or air, enables a very efficient control of the penetration behavior of the coating medium. One of the rollers, in particular a deflection compensation roller, can be designed as a ceramic roller.

Furthermore, one of the two rollers can be designed as a composite roller. If you look at the diameter of the rolls, it can be advantageous - especially with hard rolls - to avoid vibrations if they are rather large

select roller diameter.

On the other hand, to generate a short, strong pressure peak in the treatment gap, it is advantageous if the diameters of the rollers are rather small. It can represent a good compromise if the roller and the second roller have a diameter of between 920 mm and 1280 mm, in particular between 1040 mm and 1120 mm. In addition, if the diameter of the roller and the second roller differ by more than 3% but less than 20%, the tendency to vibrate can often be further reduced.

With regard to the method, the object is achieved by a method for coating a running web, in particular a paper or cardboard web, with a coating medium, the coating medium being applied to the surface of a roller by means of an application head, and then in a treatment gap from the roller to the web is transferred. It is provided that the coating medium is subjected to steam and/or air between application to the roller and transfer to the web.

In preferred embodiments, the coating medium can be a starch solution.

Advantageously, the steam and/or the air can have a higher temperature than the coating medium when it is applied. The exposure to air/steam then increases the temperature of the coating medium, which reduces its viscosity. This is also very easy to do, especially when using steam. Here the temperature of the steam is usually much higher than the temperature of the coating medium. The temperature difference between the coating medium can, for example, be more than 20°C, specifically more than 30°C or more than 40°C. A high steam temperature has the advantage that less steam is used to increase the temperature of the coating medium, and therefore less additional moisture is introduced into the coating medium. Furthermore, with regard to reducing the viscosity, it can be advantageous if the temperature of the coating medium increases by at least 3°, in particular by 5° to 20°, as a result of the application of steam and/or air. With the methods described, a coating medium, in particular the same coating medium, can be applied to one side of the web or to both sides of the web simultaneously.

In the case of application to both sides, the coating medium on the second side can either be applied conventionally or, in an analogous manner, steam and/or air can be applied between application to the roller and transfer to the web.

The present invention is explained further with reference to figures that are not to scale. However, the invention is not limited to the embodiments shown here.

FIG. 1 shows a coating system according to one aspect of the present invention.

FIG. 2 shows a coating system according to a further aspect of the present invention.

The coating system shown in FIG. 1 has a roller 1 and a second roller 2 as a counter-element 2, which are arranged in such a way that together they form a treatment gap 7. Furthermore, an application head 3 for applying a coating medium to the roller 1 is provided. The applicator head 3 can advantageously be a non-contact applicator head 3, in particular a curtain applicator head 3 or a spray applicator head. In principle, however, any application head 3 can be used. In advantageous embodiments, the coating medium can be a starch solution. Viewed in the direction of rotation of the roller 1 , an applicator 5 is arranged between the application head 3 and the treatment gap 7 . This applicator 5 is designed to apply steam and/or air to the coating medium on the roller 1 . In simple cases, the applicator 5 can consist of a simple tube with nozzle openings. Since steam and compressed air are already available to supply a paper machine, a simple embodiment of the invention can be implemented with extremely little effort. Alternatively, the applicator 5 can also be designed to be more complex, for example in the form of a steam blower box 5. Such a one Applicator 5 then also allows, for example, a different application of steam across the width of web 10.

If the temperature of the air or vapor is higher than that of the coating medium, the temperature of the medium will increase, thereby reducing the viscosity. This less viscous medium can then be pressed deeper into the web 10 in the treatment gap 7 . Alternatively, by cooling the media, such as with air, the viscosity of the media can also be increased, thereby keeping the coating media closer to the web 10 surface. A possible embodiment of the coating device for applying coating medium to both sides is shown in FIG. A second applicator head 4 is provided, which applies a coating medium to the surface of the second roller 2 . This coating medium - which may or may not be the same coating medium as for the first side - is then also transferred to the web in the treatment nip 7 . A second applicator is also provided here in order to apply steam and/or air to the coating medium on the second roller 2 . With regard to the design of the second applicator head 5 and the second applicator 6, what was said above for the applicator head 3 and the applicator 5 also applies. Depending on the application, different versions are conceivable here. Thus, the second applicator head 4 and the second applicator 6 and/or the applicator 5 and the second applicator 6 can be of identical design. This is advantageous, for example, when applying the same coating medium to both sides of the web 10 with the same objective, e.g., deep penetration into the web 10 to increase strength. Alternatively, however, different media can be applied to both sides and/or different goals can be pursued.

For example, it is also possible for the applicator 5 to apply hot steam to the coating medium in order to cause the starch to penetrate deeply into the web, for example, by reducing the viscosity, while the second applicator 6 applies cold air to the medium on the second roller 2, to keep the medium just more on the surface. In this way, in one Treatment step both increase the strength of the web 10 and finish one of the tops.

In the embodiment in FIG. 1, a fluff 8 is provided, which shields the applicator 5 together with the applicator head 3 from the environment. A similar fluff 9 is provided for the second applicator 6 and the second applicator head 4 . Although these flaps 8, 9 are not absolutely necessary, they can be advantageous for a stable coating or necessary for safety reasons. It is also possible to configure the fluffs 8, 9 in such a way that only the applicator 5 or the second applicator 6 is surrounded by the fluff, but not the applicator head 3 or the second applicator head 4.

The person skilled in the art has a great deal of freedom in designing the rollers 1, 2. In principle, all roller types customary for coating systems can be used.

In order specifically to support deep penetration of the coating medium into the web 10, it can be advantageous to use rollers with hard surfaces, so that, for example, both the roller 1 and the second roller 2 have surface hardnesses of 45 Shore D and more, in particular more than 70 Shore D, preferably between 80 Shore D and 96 Shore D.

Rollers 1, 2 for conventional coating systems with diameters of up to 200 cm and more can also be used for coating devices as in FIG. However, it can be very advantageous—in particular in combination with the hard surfaces described above—if the roller 1 and the second roller 2 have a diameter between 920 mm and 1280 mm, in particular between 1040 mm and 1120 mm. The diameter of the roller 1 and the second roller 2 advantageously differ by more than 3% but less than 20%.

When relatively small and hard rollers 1, 2 are used, the treatment gap 7 is very short and the coating medium is transferred to the web 10 with a short but strong pressure pulse. As a result, the penetration of the coating medium into the depth of the web 10 can be supported in particular.

FIG. 2 shows an example of a coating device for coating on one side. It differs from the embodiment shown in Figure 1 in that that the second roller 2 now acts only as a counter-roller 2. In addition, the application head 3 for applying the coating medium is designed as a spray application head 3 . Finally, FIG. 2 also shows that a hood 8, 9 can optionally be dispensed with. This demonstrates the great flexibility and variety that can be realized with implementations in accordance with aspects of this invention.

Reference List

1 roll

2 second roller 3 applicator head

4 second application head

5 applicator

6 second applicator

7 treatment gap 8 hood

9 second hood

10 lane

Claims

patent claims

1. Coating system for coating a running web (10), in particular a paper or cardboard web (10) with a coating medium, comprising a roller (1) and an application head (3) for applying the coating medium to the roller (1), and a Treatment gap (7) for transferring the coating medium from the roller (1) to the web (10), the treatment gap (7) being formed by the roller (1) and a counter-element (2), characterized in that in the direction of rotation of the roller ( 1) viewed between the application head (1) and the treatment gap (7), an applicator (5) is arranged in order to apply steam and/or air to the coating medium on the roller (1).

2. Coating system according to claim 1, characterized in that the counter-element (2) is formed by a second roller (2).

3. Coating system according to claim 2, characterized in that the coating system has a second application head (4) for applying a coating medium to the second roller (2).

4. Coating system according to one of Claims 2 to 3, characterized in that viewed in the direction of rotation of the second roller (2), a second applicator (6) is arranged between the second application head (4) and the treatment gap (7) in order to apply the coating medium to apply steam and/or air to the second roller (2).

5. Coating system according to one of claims 2 to 4, characterized in that the application head (3) and/or the second application head (4) is a non-contact application head, in particular a curtain or spray application head (3, 4).

6. Coating system according to one of claims 2 to 5, characterized in that a hood (8) is provided which the applicator (5) shields alone or together with the application head (3) from the environment.

7. Coating system according to one of claims 2 to 6, characterized in that a second hood (9) is provided which shields the second applicator (6) alone or together with the second applicator head (4) from the environment.

8. Coating device according to one of claims 2 to 7, characterized in that the surface of the roller (1) and / or the second roller (2) has a hardness of 45 Shore D and more, in particular more than 70 Shore D, preferably between 80 Shore D and 96 Shore D.

9. Coating device according to one of claims 2 to 8, characterized in that the roller (1) or the second roller (2) is designed as a deflection compensation roller.

10. Coating device according to claim 9, characterized in that the other of the two rollers (2, 1) is designed as a composite roller.

11. Coating device according to one of claims 2 to 10, characterized in that the roller (1) and the second roller (2) have a diameter between 920mm and 1280mm, in particular between 1040mm and 1120mm and / or the diameter of the

Roller (1) and the second roller (2) differ by more than 3% but less than 20%.

12. Device according to one of claims 1 to 11, characterized in that a distance is provided between the area in which the air and/or the steam impinges on the coating medium and the treatment gap (7), this distance being in particular 20 mm or is more.

13. A method for coating a running web (10), in particular a paper or cardboard web (10), with a coating medium, the coating medium being applied to the surface of a roller (1) by means of an applicator head (3), and then in a treatment gap ( 7) is transferred from the roller (1) to the web, characterized in that the coating medium is subjected to steam and/or air between application to the roller (1) and transfer to the web (10).

14. The method according to claim 13, characterized in that the steam and/or the air have a higher temperature than the coating medium when it is applied.

15. The method as claimed in claim 13 or 14, characterized in that the temperature of the coating medium increases by at least 3°, in particular by 5° to 20°, as a result of the application of steam and/or air.