EP1475477A2 - Apparatus for applying directly a fluid or pasty coating onto a moving web - Google Patents

Abstract

Applicator assembly (1), giving direct coating application of liquid/paste medium (M) on to surface of moving paper or cardboard web (2), has unit (7) in front of applicator to remove layer of air carried by web. The unit is within wedge entry gap (4) radially towards surface (3a) of web support roller (3). A bar (8) is against web surface (2a), together with blade (11), across direction of travel (L) and over width of applicator (6). The applicator assembly (1), giving a direct coating application of a liquid or paste medium (M) on to the surface of a moving paper or cardboard web (2), has a unit (7) in front of the applicator to remove the layer of air carried by the web. The unit is within the wedge entry gap (4) radially towards the surface (3a) of a web support roller (3). A bar (8) is against the web surface (2a), together with a blade (11), across the direction of travel (L) and over the width of the applicator (6). The downstream end (11a) of the blade extends into the gap, to form a minimum gap between it and the roller surface.

Description

The invention relates to a device for direct application of a liquid or pasty medium on a running material web, especially a Fibrous web made of paper or cardboard, according to the preamble of claim 1.

Generic devices are usually in the context of Coating machines used to use the running material web on one or both sides one or more commissioned works and with one or more layers of Treat application medium. The application medium is pigmented Coating color, glue, starch or an impregnating liquid.

In the so-called direct application, the liquid to pasty medium becomes one Application device directly on the surface of the running material web applied. The material web wraps around a rotating one during the order Counter surface, for example an endless support belt or a support roller (also as Counter roll) and is guided or supported thereby.

During the operation of such a device occur on the moving Surfaces, i.e. the running material web and the counter surface, which in the Hereinafter referred to as the support surface, air boundary layers in which the Air is dragged along. The influence is growing with high-speed paper machines this drag air is enormous and there are more runs and orders Problems. The air can so strongly between the material web and the Support surface that the material web is in contact with the support surface partially or completely lost. The result is that, for example, driven Rollers do not transfer the drive torque correctly to the material web.

In addition, set train sets cannot be set correctly and are constant hold.

In addition, non-driven rollers or support belts do not run correctly, so that there are zones of increased wear or deposits on the support surfaces or also comes to web breaks.

A particularly negative effect of the influence of the air boundary layer is that with nip - forming constellations both the material web and the Introduce the supporting surface air and complement both air boundary layers and strengthen. They act in the same direction and cause wedge-shaped Inlet nip (inlet gusset) a considerable pressure build-up.

Some of the air that is carried away escapes to the side in front of the nip. The but only works with narrow machines. But with increasing Machine widths that can be 10m and more, this is hardly possible. Air pockets are therefore created, preferably in the middle of the application device or the coating machine, which are very unstable and of which the air, as I said, can hardly escape.

Air pockets of this type have a particularly great effect on the application device unfavorable, since the material web is not across its entire width the application device passes evenly enough and thereby the quality of the order on the material web deteriorated. This negative impact one tries to avoid.

Such air pockets or bubbles could be adjusted in the past be minimized somewhat by high trains. However, high trains often run to web breaks, which are also extremely undesirable.

In US 5,506,005 a solution is given with which the problem by variation of the wrap angle of the material band to be released around a backup roller.

However, the larger the wrap angle is selected, the larger the wrap angle Danger of renewed until the application device is reached Can form air boundary layers. The lower the wrap angle, the more more air is brought in.

DE - A1 19702605 describes a device with an air boundary layer removal device known with which both the material web and air boundary layer entrained by a support roller is to be avoided. The said air boundary layer removal device is in the inlet gusset between Material web and backup roller arranged.

The air boundary layer removal device described in DE - A1 19702605 includes an air boundary layer suction device. In another In a variant, it includes a blowing device which ejects a gaseous medium. The The outflow opening is directed in such a way that the gaseous medium essentially blows against the direction of rotation of the support roller and material web.

In a further variant, the gaseous medium also blows in the opposite direction Direction (i.e. in the direction of rotation of the roller and the material web) into the inlet gusset into it.

In addition, in one variant there is also a curved one toward the gusset tip Deflection plate available, which deflects the amount of gas injected and this thereby against the direction of rotation of the backup roller and the direction of rotation Material web leads out of the inlet gusset. This should result in the drag air entering be pushed away.

However, it is to be feared that despite the measures mentioned Air boundary layer rebuilds very quickly. This happens particularly quickly at the already mentioned high running speeds of today Material web and the large dimensions of the machines in which the Material web is manufactured and / or refined.

The present invention is therefore based on the object of a generic Develop device further, which with only little equipment Counteracts disadvantages of the prior art.

The object is achieved with the characterizing part of claim 1 specified features solved.

The device according to the invention then has one, based on the direction of rotation the support member arranged in front of the application device for removal, at least weakening one of the support member and / or the material web entrained air boundary layer (entrained air), the device as one the Inlet gusset formed in an almost radial direction spanning assembly is.

According to the invention, this assembly consists of a strip touching the material web and a blade element. The bar and the blade element extend transversely to the web running direction and are at least adapted to the width of the application work. The blade element projects with its downstream side or end into the inlet gusset in such a way that an air gap remains between this end and the support surface. The air gap is, however, only so minimal that wear and tear on the support surface (in particular if it is designed as a roller) and accumulations of fibers and the like are avoided.
Thus, only an extremely thin, harmless trailing air layer can get from the support surface into the inlet gusset, which results in a considerable reduction in pressure in the inlet gusset.

The drag air flowing into the inlet gusset next to the blade element is forced to flow back on the same side of the blade element. As a result, air flowing in further is braked. The device according to the invention thus acts as an air deflector.
In addition, the material web is prevented from floating on the support surface. During the entire operation of the device, the contact of the material web with the support surface remains guaranteed. This has an extremely positive effect with regard to a desired uniform application layer over the entire width and length of the web.

The device according to the invention allows driving higher Operating speeds, larger web widths and also allows greater freedom in the choice of the wrap angle of the material web around the support surface what is regarded as a particular advantage of the invention.

Advantageous design features of the device according to the invention result itself from the subclaims.

The invention will be explained in more detail below using an exemplary embodiment become.

Figur 1 :einen Querschnitt der erfindungsgemäßen Vorrichtung in schematischer Darstellung

Figur 2: ein Versuchsdiagramm, in welchem Ergebnisse ohne und mit erfindungsgemäßer Vorrichtung dargestellt sind

Show it

Figure 1 shows a cross section of the device according to the invention in a schematic representation

FIG. 2: an experimental diagram in which results are shown without and with the device according to the invention

1 shows a device 1 according to the invention for the direct application of a liquid to pasty medium M onto a running material web 2 consisting of paper.

The device 1 comprises a support surface partially wrapped around by the material web or paper web 2, which in the example is a roller 3, but could also be a support belt. The support roller 3 provided here thus supports the paper web 2 on its web side 2a or is partially wrapped around it.
The support roller 3 provided here forms with its support roller surface 3a and the material web side 2a a wedge-shaped tapered inlet gusset 4 and an outlet gusset 5.

The direction of rotation of the roller 3 is indicated by an arrow P in FIG . Furthermore, the device 1 comprises an application unit 6 assigned to the support roller 3 for coating the web side 2b facing away from the support roller 3 with coating medium M. A doctor device (not shown in FIG. 1) can be arranged downstream of the application unit 6 in the running direction L of the material web 2 the medium M previously applied in excess is brought to the desired coat weight. In the case of a 1: 1 application, where the coating quantity that should also remain on the material web 2 is applied, the doctor device would only serve to even out the applied layer, but did not even have to be present in the 1: 1 application.

In the present example, a free jet nozzle device is used as the application unit 6 illustrated as an example, but could also be any other commissioned work.

Relative to the direction of rotation of the support roller 3 is in front of the applicator 6 across the entire machine width and the inlet gusset 4 in device 7 spanning approximately radial direction to support roller 3 intended. The device serves to weaken or prevent the Material web 2 and the support roller 3 introduced air boundary layer LG, which also is referred to as drag air 10. Such a disturbing air boundary layer would be a high web speed, e.g. at approx.2,000m / min, without device 7 several cm thick, so that there would also be high pressures.

The device 7 preventing such a strong boundary layer comprises as Assembly or structural unit a machine width, i.e. an approximately the width of the Applicator 1 adapted box-like bar 8 and an equally wide connected to this flexible blade element 11.

In the example, the strip 8 is connected to a vacuum source P-, for which the End faces of the box-like bar 8 are closed with side walls 9. This allows the bar 8 as a suction box, i.e. serve as a so-called foil bar, with the additional drag air 10 is extracted. The foil bar 8 touches her Suction side the material web side 2a.

As an extension of the foil strip 8, the blade element 11 protrudes with its downstream side 11a into the inlet gusset 4 and thereby forms a gap 12 with the support surface, ie roller 3. The gap is approximately 0.5 to 1 mm wide, as a result of which only in this Order of magnitude occurring air boundary layers can reach the inlet gusset 4. This is an enormous reduction compared to a layer several cm thick without the device 7.
The remaining air masses are pushed sideways to the outside in the case of narrower machines or can also be extracted to the outside in the case of extremely wide machines in a direction which is indicated by strong arrows in FIG. 1.

From Figure 1 it can be seen that the blade element 11 in its central region 11c is angled outward at an angle α of equal to or greater than 90 °. The Blade element 11 is designed as a so-called "stiff blade", ie a stiff blade is connected to the foil strip 8 on its upstream side 11b. Even in the case when the roll 3 is wrapped (e.g. after a web break), it can become stiff Bend blade element 11 up to approx. 20 mm undamaged. Otherwise, that shows Blade element 11 has a constant and small thickness of approximately 0.2 to 0.4 mm. The is the case if the blade element is made of metal. In plastic or plated version, the thickness can also be up to 5mm.

The strip or foil strip 8 is for reasons of high rigidity of the whole Assembly 7 opposite the inlet gusset 4 at a distance a of about 500 mm that point A arranged at which the material web 2 runs onto the support surface 4.

In addition, the entire device 7 is pivotally mounted. It is possible to clean the device 7 better or to perform a blade change.

It should also be mentioned that the blade element 11 with its upstream Page 11b is clamped to the bar 8.

This can be done in that the blade element 11 in the bar 8 by means of a Row of knobs or a continuous groove (both not shown) is hooked in and can be replaced quickly. The However, connection can also be made by screwing or otherwise.

Otherwise, the blade element 11 is made of metal, preferably stainless steel, or plastic, preferably fiber-reinforced material, and the strip 8 with edge lengths of approximately 50 × 50 mm is made of steel, plastic or ceramic or a combination of the materials mentioned.
The entire blade element 11, or at least its downstream end 11a, should consist of or be coated with wear-resistant material and / or material with a low friction factor, such as PTFE.

It should be added that other shapes of blade elements 11 are also conceivable. For example, so-called "bent blades" could be considered. The Blade element 11 can be curved with an outward curve, but also in use a straight shape and in an almost radial orientation to the support roller 3. In However, the embodiment shown in FIG. 1 has tried to be special proven suitable.

FIG. 2 illustrates in a diagram results from tests which were achieved with and without the device 7 according to the invention.

The machine or web speed is plotted horizontally in m / min and vertically the air pressure in the inlet gusset 4 in mbar.
The measuring point was approx. 50 mm away from web run-up point A in the middle of the web. The tests were carried out with a paper web which had a weight per unit area of 63 g / m ² . The web tension was set at 0.4 kN / m.
From the diagram it can be seen from line 1 that at a speed of approx. 2000 m / min (this is the speed at which modern machines are driven) with the device according to the invention using a foil strip 8 with a low vacuum and not one Blade element 11 touching roller 3, in the inlet gusset 4 approximately 0 mbar were measured. Without the device according to the invention, as entered in line II, on the other hand, the pressure in the inlet gusset 4 is slightly over 10 mbar.

The effectiveness of the device according to the invention could thus be impressive Proof will be provided.

Claims (13)

Device for direct application of a liquid or pasty medium (M) to a running material web (2), in particular a fibrous web made of paper or cardboard, comprising a rotatable support surface (3) partially wrapped by the material web (2), such as a support belt or a support roller, which supports a side (2a) of the material web (2) facing the support surface (3), the support surface (3) and the Material web (2) form a wedge-shaped tapered inlet gusset (4) and an outlet gusset (5), at least one application unit (6) assigned to the support surface (3) for coating, gluing or pigmenting a side (2b) of the material web (2) facing away from the support surface (3) with the medium (M), a device (7) arranged in relation to the direction of rotation of the support surface (3) in front of the application unit (6) for removing, but at least weakening an air boundary layer (10) carried along by the support surface (3) and / or the material web (2), wherein the device (7) is arranged in the inlet gusset (4) between the support surface (3) and the side (2a) of the material web (2) facing the support surface (3), characterized in that
the device (7) is constructed as an assembly spanning the inlet gusset (4) in an approximately radial direction to the support surface (3), consisting of a bar (8) touching the material web side (2a) and a blade element (11), the bar (11) 8) and the blade element (11) extend transversely to the web running direction (L) and are at least adapted to the width of the application unit (6) and wherein the blade element (11) protrudes into the inlet gusset (4) in such a way that between its downstream end (11a ) and the support surface (3) a minimal gap (12) remains. Device according to claim 1,
characterized in that
the blade element (11) is stiff and has an outwardly pointing bend in its central region (11c), the bend, or angle α, being equal to / greater than 90 °. Device according to claims 1 and 2,
characterized in that
the blade element (11) is connected to the bar (8) at its upstream end (11b). Device according to claims 1 to 3,
characterized in that
the blade element (11) has a constant thickness. Device according to claims 1 to 4,
characterized in that
the gap (12) is 0.5 mm to 1 mm. Device according to claim 1 to 5,
characterized in that
the strip (8) can be connected to a vacuum source (P-) and can thus be designed as a foil strip, that is to say as a suction box. Apparatus according to claim 1 to 6,
characterized in that
the bar (8) is arranged at a distance a of approx. 500 mm from that point A at which the material web (2) runs onto the support surface (3). Device according to claims 1 to 7,
characterized in that
the device (7) is pivotally mounted. Device according to claim 3,
characterized in that
the blade element (11) is clamped to the bar (8). Device according to claim 9,
characterized in that
the blade element (11) is suspended in the bar (8) by means of a row of knobs or a continuous groove. Device according to one or more of the preceding claims,
characterized in that
the blade element (11) is made of metal, preferably stainless steel, or plastic, preferably fiber-reinforced material, and the strip (8) is made of steel, plastic or ceramic or in a combination of the materials mentioned. Device according to one or more of the preceding claims,
characterized in that
the blade element (11) at least partially, at least its downstream end (11a) made of wear-resistant material and / or material with a low friction factor, such as PTFE, or coated with it. Device according to claims 9 to 11,
characterized in that
the blade element (11) has a thickness of 0.1 to 5 mm, preferably 0.2 to 0.4 mm.

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