EP3372719A1 - Nonwoven fabric guiding device - Google Patents

Abstract

Nonwoven web guiding device for guiding a nonwoven web of plastic fibers conveyed in conveying direction F. The nonwoven web is brought into contact contact with at least one guide and / or treatment roller or with at least one roller assembly of at least two guide and / or treatment rollers. In the conveying direction F before or immediately before the roll or the roll aggregate and / or behind or immediately behind the roll or the roll aggregate at least one in the conveying direction F and transverse to the conveying direction F of the nonwoven web extending stabilizing plate is provided. The nonwoven web is guided along the at least one stabilization plate with the proviso that the distance a between the surface of the stabilization plate facing the nonwoven web and the nonwoven web surface is 0 to 20 mm.

Description

The invention relates to a nonwoven web guiding device for guiding a nonwoven web of plastic fibers conveyed in a conveying direction F. Such nonwoven webs are usually guided over the guide rollers and / or treatment rollers after the deposition of the plastic fibers to the nonwoven web. The treatment rollers can be, for example, compacting rollers for compaction of the nonwoven web or calender rolls for calendering the nonwoven web.

Devices of the aforementioned type are known from practice in different embodiments. In the promotion of a nonwoven web with a Ablagesiebband and / or by means of guide rollers and / or treatment rollers, an air flow is always caused, which is at the same time moved in the conveying direction of the nonwoven web. With regard to the nonwoven webs, this air flow leads to poor running behavior, in particular in the area of the guide rollers and / or treatment rollers, which are arranged between the storage screen belt and a winding device. The running behavior on the storage screen belt and in the area of the winding device is adversely affected. The poor running behavior manifests itself in fluttering of the nonwoven web, which may result in discontinuities of the nonwoven web or unwanted wrinkles in the nonwoven web. These disturbances are attempted to be compensated by higher trains to control the nonwoven web. These higher web courses in turn require a smaller width of the nonwoven web on the winding device as well as deteriorated properties of the nonwoven web, in particular a low strength or tensile strength of the nonwoven web transversely to the machine direction (in CD direction). The conveyed by the nonwoven web air can also be problematic when running the nonwoven web to a Guide roller and / or treatment roller. Thus, it can lead to an unwanted floating of the nonwoven web on the roller and, moreover, air flow can be directed from a roller on the nonwoven web surface and cause undesirable inhomogeneous properties of the product here.

In order to counteract the described negative properties, it is already known from practice to install additional rollers (guiding or deflecting rollers) in the conveying path of the nonwoven web. Other guide elements such as curved bars or the like have already been used. These measures are on the one hand consuming and costly and on the other hand, they often have not led to the desired success. Furthermore, it is already known to install so-called spoiler sheets in the conveying path of the nonwoven web in order to redirect air flows. Also, this has so far usually succeeded with unsatisfactory success.

In contrast, the invention, the technical problem underlying a device of the type mentioned above, with which the above-described disadvantages can be effectively avoided.

• wobei in Förderrichtung F vor bzw. unmittelbar vor der Walze bzw. dem Walzenaggregat
• und/oder in Förderrichtung F hinter bzw. unmittelbar hinter der Walze bzw. dem Walzenaggregat

zumindest eine sich in Förderrichtung F und quer zur Förderrichtung F der Vliesbahn erstreckende Stabilisierungsplatte vorgesehen ist und wobei die Vliesbahn mit der Maßgabe entlang der zumindest einen Stabilisierungsplatte geführt wird, dass der Abstand a zwischen der der Vliesbahn zugewandten Oberfläche der Stabilisierungsplatte und der Vliesbahnoberfläche 0 bis 20 mm, bevorzugt 0,1 bis 10 mm und sehr bevorzugt 0,2 bis 5 mm beträgt. Eine besonders bewährte Ausführungsform der Erfindung ist dadurch gekennzeichnet, dass der Abstand a 0,1 bis 4 mm und besonders bevorzugt 0,1 bis 3 mm beträgt.To solve this technical problem, the invention teaches a nonwoven web guiding device for guiding a conveyed in a conveying direction F nonwoven web of plastic fibers, wherein a nonwoven web having a web thickness d less than 2 mm, preferably less than 1.5 mm and with a basis weight less than 30 g / m ² , preferably less than 25 g / m ^{2 is} used,
wherein the nonwoven web in touching contact with at least one guide and / or treatment roller (roller) or at least one roller assembly from at least two guide and / or treatment rollers (rollers) is brought,

• wherein in the conveying direction F before or immediately before the roll or the roll aggregate
• and / or in the conveying direction F behind or immediately behind the roller or the roller assembly

at least one in the conveying direction F and transverse to the conveying direction F of the nonwoven web extending stabilizing plate is provided and wherein the nonwoven web is guided along the at least one stabilizing plate with the proviso that the distance a between the nonwoven web facing surface of the stabilizing plate and the nonwoven web surface 0 to 20 mm, preferably 0.1 to 10 mm and very preferably 0.2 to 5 mm. A particularly proven embodiment of the invention is characterized in that the distance a is 0.1 to 4 mm and particularly preferably 0.1 to 3 mm.

According to a highly recommended embodiment of the invention, a nonwoven web having a basis weight of less than 20 g / m ² , preferably less than 15 g / m ² and preferably less than 10 g / m ^{2 is} conveyed. At basis weights below 20 g / m ² , especially at basis weights below 15 g / m ² and especially at basis weights below 10 g / m ² , the invention has proven very special. Nonwoven web means in the context of the invention, moreover, a nonwoven web of only one Filamentablage or even a nonwoven web laminate of several Filamentablagen.

A particularly recommended embodiment, which has special significance in the context of the invention, is characterized in that plastic filaments are used as plastic fibers. Nonwoven webs made of continuous filaments are characterized by very particular aerodynamic properties and in this respect differ significantly from nonwoven webs of short fibers. Conveniently, plastic fibers or plastic filaments made of thermoplastic material are used in the context of the invention.

A preferred embodiment of the invention is characterized in that at least one spunbond nonwoven web and / or at least one meltblown nonwoven web is used as the nonwoven web. These types of nonwoven webs have proven particularly useful in the nonwoven web guide device of the present invention. Spunbond nonwoven webs and / or meltblown nonwoven webs are characterized by special properties when exposed to air or when aerodynamically influenced, and they can be conveyed in a particularly reliable and trouble-free manner with the nonwoven web guide device according to the invention. According to one embodiment of the invention, the conveyed nonwoven web corresponds to a laminate of at least one spunbond nonwoven web and at least one meltblown nonwoven web. Also particularly suitable is a laminate with the layer sequence spunbond nonwoven web / meltblown nonwoven web / spunbond nonwoven web (SMS laminate).

According to a recommended embodiment of the invention, at least one stabilizing plate is arranged in the conveying direction in front of a roll or in front of a roll aggregate. It is within the scope of the invention that the nonwoven web in the conveying direction F in front of the roller or in front of the roller assembly via a first conveying section is free or substantially freely guided and wherein in this first conveying section at least one Stabilizing plate is arranged before or directly below the roller or the roller unit. Free guidance of the nonwoven web here and below means, in particular, that the nonwoven web is not guided / treated by rollers or roll aggregates in this conveying section and expediently also is not guided by means of a depositing device or by means of a filing screen belt. In the aforementioned embodiment, the at least one stabilization plate can be arranged below the nonwoven web and / or above the nonwoven web. In a stabilizing plate arranged below the nonwoven web, the distance a between the upper side of the stabilizing plate and the underside of the nonwoven web is measured, and at a stabilizing plate arranged above the nonwoven web, the distance a between the underside of the stabilizing plate and the upper side of the nonwoven web is measured.

According to a further preferred embodiment of the invention, the nonwoven web is conveyed freely or essentially freely in the conveying direction F behind a roll or behind a roll aggregate via a second conveying section and in this second conveying section at least one stabilizing plate behind or immediately behind the roll or arranged the roller unit. In this case, the at least one stabilization plate can be positioned below the nonwoven web and / or above the nonwoven web.

It is within the scope of the invention that the nonwoven web is guided freely or essentially freely in the conveying direction F in front of a roll or in front of a roll aggregate and in this first conveying section at least one stabilizing plate before or below the roll or before the roll the roll unit is arranged and that the nonwoven web is conveyed freely or substantially freely in the conveying direction F behind the roller or the roller assembly via a second conveyor section and that in this second conveying section, at least one stabilizing plate is positioned behind or immediately behind the roller or the roller aggregate.

Roller assembly means in the context of the invention at least two rollers arranged one above the other with their roller axes. These may be guide rollers and / or treatment rollers. - According to a recommended embodiment of the invention, a roller assembly comprises two spaced-apart superposed rollers and advantageously the nonwoven web is guided in an S-shape over or through this roller assembly (in the sense of an S-roll take-off). In this case, the nonwoven web can first be guided over the upper roll of the roll aggregate or first passed past the lower roll of the roll aggregate. According to a preferred embodiment, the nonwoven web is first passed over the upper roll of the roll aggregate and then around the lower roll of the roll aggregate.

According to a first embodiment, at least one or one stabilizing plate is arranged below the conveyed or freely conveyed nonwoven web in the first conveying section before or immediately before the above-described roller aggregate (S roller aggregate). Preferably, at least one planar deflecting element for deflecting the air conveyed on the surface of the conveyed nonwoven web is provided in the conveying direction behind this roll aggregate and particularly preferably directly behind the upper roll of this roll aggregate. In this case, the planar deflecting element preferably directs the air conveyed along by the nonwoven web surface upwards.

A variant of the first embodiment explained above is characterized in that in addition to the stabilizing plate arranged in front of the roll aggregate (S roll aggregate) and below the nonwoven web at least one additional stabilizing plate or an additional stabilizing plate is arranged in a second conveyor section behind or immediately behind the roller assembly. In this case, this stabilizing plate can be arranged above the conveyed nonwoven web or below the conveyed nonwoven web. In both cases, the nonwoven web further guided behind the roll aggregate can be stabilized with respect to air flow effects resulting from air conveyed with the nonwoven web via the roll aggregate.

A second embodiment of the invention is characterized in that at least one stabilizing plate or stabilizing plate is arranged above the nonwoven web in the first conveying section before or immediately before the above-described roller aggregate (S roller aggregate). Conveniently, in this embodiment, at least one planar deflecting element below the nonwoven web and preferably also arranged below said stabilizing plate. Empfohlenermaßen this is arranged at least one planar deflecting element with respect to the conveying direction at the end of the stabilizing plate below the nonwoven web or below the stabilizing plate. It is within the scope of the invention that with this flat deflecting element on the underside of the nonwoven web mitgeförderte air is deflected and although expediently is deflected away from the nonwoven web downwards. For this purpose, the planar deflecting element is preferably formed curved and the arc extends suitably from the bottom of the nonwoven web downwards.

Another proven embodiment of the invention is characterized in that at least two treatment rollers - preferably two treatment rollers - with their axes are preferably arranged directly above one another and that only a narrow treatment gap (so-called Nip) between the two treatment rollers is present. The nonwoven web is guided through this nip and preferably both treatment rollers act on the nonwoven web, from above and from below. It is recommended that the treatment rollers are compaction rollers or calender rollers. The aggregate of the at least two treatment rollers is referred to here and below as a treatment roller assembly. Such a treatment roller assembly thus expediently has a treatment gap or nip through which the conveyed nonwoven web is guided.

A first variant of the invention with this treatment unit is characterized in that in the conveying direction F of the nonwoven web at least one stabilizing plate - preferably a stabilizing plate - is arranged before or immediately before the roller assembly and is positioned above the nonwoven web according to the recommended embodiment. In this case, the nonwoven web according to a variant instead of being released also rest on a storage device or on a Ablagesiebband and the stabilizing plate is then conveniently arranged on the storage device or on the Ablagesiebband so that the funded nonwoven web between storage device or Ablage filter belt and above arranged stabilization plate is located. The stabilization plate is positioned at a distance a above the conveyed nonwoven web.

A second variant of the invention with the treatment roller assembly is characterized in that in the conveying direction F of the nonwoven web before or immediately before the treatment roller assembly, a stabilizing plate above the nonwoven web and a stabilizing plate is disposed below the nonwoven web. In this case, the conveyed nonwoven web is at least partially through an intermediate gap between the below the nonwoven web arranged stabilizing plate and the positioned above the nonwoven web stabilizing plate out. It is within the scope of the invention that in this embodiment, the ends of the stabilizing plates are aligned in the vertical direction or substantially aligned. However, it is also possible for an offset or a small offset to be realized between the stabilization plates. By means of the stabilizing plates arranged below and above the nonwoven web, the air flow caused by the movement of the nonwoven web can be reduced or largely diverted into areas in which it does not interfere.

According to one embodiment of the invention, a stabilization plate on its surface facing the nonwoven web has a plurality of grooves, wherein the grooves according to a variant embodiment may be aligned at least partially parallel to each other. The grooves may for example also be arranged in a herringbone pattern. By means of these grooves provided in the surface of the stabilizing plate, the frictional forces between the moving nonwoven web and the preferably non-moving stabilizing plate can be reduced. By means of the grooves, air flows or air layers resulting from the movement of the nonwoven web can be discharged. - An embodiment of the invention is characterized in that openings or pressure compensation openings are arranged in a stabilizing plate. These openings or pressure compensation openings can be positioned in the region or in the grooves. It is possible that air is sucked through the pressure equalization openings from the intermediate area between nonwoven web and stabilizing plate. It is within the scope of the invention that the air flows between nonwoven web and stabilizing plate can be adjusted or influenced in an advantageous manner by the number and arrangement of the grooves and / or by the number and arrangement of the pressure equalization openings.

It has already been indicated above that according to a preferred embodiment of the invention except for working with at least one stabilizing plate with at least one further stabilizing element, wherein the stabilizing element is expediently designed as a planar deflecting element. By means of such a planar deflecting element, the air conveyed by the conveyed nonwoven web on the nonwoven web surface can be deflected or deflected away from the nonwoven web surface in an effective manner. The flat deflecting element is expediently designed as a flat deflecting plate. Such a flat deflecting element is arranged above and / or below the conveyed nonwoven web, so that air entrained by the nonwoven web top side and / or entrained air from the nonwoven web underside can be deflected away from the nonwoven web surface with the aid of the planar deflecting element or planar deflecting plate. Examples for this are explained in more detail in the description of the figures.

According to a preferred embodiment of the invention, the conveyed nonwoven web is conveyed at a conveying speed greater than 600 m / min, preferably greater than 700 m / min and particularly preferably greater than 750 m / min. It is within the scope of the invention that the conveyed nonwoven web in the region of a stabilizing plate or in the region of at least one stabilizing plate is guided free of gas loading and thus free of any air impingement and free of steam. Conveniently, therefore, the nonwoven web is not specifically or not artificially charged with a gas and thus not with air or steam.

• wobei in Förderrichtung F vor bzw. unmittelbar vor der Walze bzw. dem Walzenaggregat
• und/oder in Förderrichtung F hinter bzw. unmittelbar hinter der Walze bzw. dem Walzenaggregat

zumindest eine sich in Förderrichtung F und quer zur Förderrichtung F der Vliesbahn erstreckende Stabilisierungsplatte vorgesehen ist, wobei die zumindest eine Stabilisierungsplatte mit der Maßgabe angeordnet ist, dass der Abstand a zwischen der der Vliesbahn zugewandten Oberfläche der Stabilisierungsplatte und der Vliesbahnoberfläche 0 bis 20 mm, bevorzugt 0,1 bis 10 mm, sehr bevorzugt 0,2 bis 5 mm und besonders bevorzugt 0,2 bis 3 mm beträgt.It is within the scope of the invention that a feeding device for the conveyed nonwoven web is present, wherein at least one guide and / or treatment roller (roller) for the nonwoven web or at least one roller assembly from at least two guide rollers and / or treatment rollers (Rolls) for the nonwoven web is arranged in the conveying direction of the nonwoven web behind the feed device,

• wherein in the conveying direction F before or immediately before the roll or the roll aggregate
• and / or in the conveying direction F behind or immediately behind the roller or the roller assembly

at least one in the conveying direction F and transverse to the conveying direction F of the nonwoven web extending stabilizing plate is provided, wherein the at least one stabilizing plate is arranged with the proviso that the distance a between the nonwoven web facing surface of the stabilizing plate and the nonwoven web surface 0 to 20 mm, preferably 0.1 to 10 mm, more preferably 0.2 to 5 mm and particularly preferably 0.2 to 3 mm.

According to the recommended embodiment, the shortest distance A ₁ between the roller-side end of a arranged in the conveying direction F before the roller or before the roll aggregate stabilizing plate and the stabilizing plate downstream in the conveying direction roller or first roller 0.2 to 500 mm, preferably 0.2 to 200 mm, preferably 0.2 to 100 mm and particularly preferably 0.2 to 50 mm. According to one embodiment, the distance A ₁ amounts to 0.2 to 40 mm.

As an alternative or in addition to this embodiment, it is recommended that the shortest distance A ₂ between the roller-side end of a stabilizing plate arranged in the conveying direction F behind the roller or behind the roller unit and that of the stabilizing plate in the conveying direction upstream roll or last roll of the roll unit 0.2 to 500 mm, preferably 0.2 to 150 mm, preferably 0.2 to 100 mm.

The feeding device for feeding the nonwoven web used in the context of the invention may, for example, be a conveyor belt or a conveyor belt of a storage screen belt or another depositing device which conveys the nonwoven web in the conveying direction F. In principle, however, it is also possible to use any device with which the aid can move the nonwoven web in the conveying direction F.

It is within the scope of the invention that a roller assembly is provided from at least two guide rollers, wherein the two guide rollers are arranged with the proviso that the funded nonwoven web is first passed over an upper guide roller and subsequently thereto at a lower roller arranged below the upper Guide roller is guided. In principle, the guidance may also be reversed, i. The conveyed nonwoven web is first passed along the lower guide roller and then passed over the upper guide roller.

According to a further embodiment variant already mentioned above, the roller assembly has at least two treatment rollers, wherein the treatment rollers are arranged with the proviso that the conveyed nonwoven web is passed through a treatment nip or nip between the two treatment rollers.

A preferred embodiment of the guide device according to the invention is characterized in that the at least one stabilizing plate is designed as a stationary stabilizing plate. This means in the context of the invention that the at least one stabilizing plate or that the stabilizing plates used is / are positioned in their position during operation of the guiding device and are not moved or moved away from this position. On the other hand, however, it is also within the scope of the invention that the at least one stabilizing plate or the stabilizing plates in particular outside the operation of the guide device with respect to their position is adjustable or finely adjustable / are.

It has already been pointed out that according to the proven embodiment of the invention, in addition to the at least one stabilizing plate, at least one stabilizing element is designed as a planar deflecting element, preferably as a flat deflecting plate. Empfohlenermaßen, the planar deflecting element or the deflecting plate arranged at a small distance u to the nonwoven web surface Umlenkzunge, wherein by means of the Umlenkzunge of the nonwoven web at the nonwoven web surface mitgeförderte air is deflected or deflected over the planar deflecting element of the nonwoven web surface.

The invention is based on the finding that with the nonwoven web guiding device according to the invention an optimal functionally reliable and trouble-free guidance of nonwoven webs is possible, in particular also of nonwoven webs with a small thickness and with a low basis weight. The disturbing influence of air currents can be largely reduced or minimized with the aid of the guiding measures according to the invention, so that unwanted fluttering of the nonwoven web no longer occurs or occurs only negligibly. Overall, the running behavior of the moving nonwoven web can be remarkably improved in comparison to many known methods and guide devices. Undesirably high web tension is not required, resulting in undesirable decreases in nonwoven web width as well as undesirable reductions the strength in the transverse direction of the nonwoven web does not occur. It should be emphasized that the technical problem according to the invention can be solved with relatively simple and cost-effective measures, namely surprisingly effective and reliable.

Fig. 1

eine Vliesbahn-Führungsvorrichtung nach dem Stand der Technik,

Fig. 2

eine erfindungsgemäße Vliesbahn-Führungsvorrichtung in einer ersten Ausführungsform,

Fig. 3

den Gegenstand nach Fig. 2 in einer zweiten Ausführungsform,

Fig. 4

den Gegenstand gemäß Fig. 2 in einer dritten Ausführungsform,

Fig. 5

den Gegenstand nach Fig. 2 in einer vierten Ausführungsform,

Fig. 6

eine erfindungsgemäße Vliesbahn-Führungsvorrichtung mit einem Behandlungswalzenaggregat in einer ersten Ausführungsvariante,

Fig. 7

den Gegenstand nach Fig. 6 in einer zweiten Ausführungsvariante und

Fig. 8

den Gegenstand gemäß Fig. 6 in einer dritten Ausführungsvariante.

The invention will be explained in more detail with reference to a drawing showing only one exemplary embodiment. In a schematic representation:

Fig. 1

a nonwoven web guide device according to the prior art,

Fig. 2

a nonwoven web guiding device according to the invention in a first embodiment,

Fig. 3

the object after Fig. 2 in a second embodiment,

Fig. 4

the object according to Fig. 2 in a third embodiment,

Fig. 5

the object after Fig. 2 in a fourth embodiment,

Fig. 6

a nonwoven web guiding device according to the invention with a treatment roller assembly in a first embodiment,

Fig. 7

the object after Fig. 6 in a second embodiment and

Fig. 8

the object according to Fig. 6 in a third embodiment.

The figures show a nonwoven web guiding device according to the invention for guiding a nonwoven web 1 of plastic fibers conveyed in a conveying direction F. The plastic fibers are preferably and in the exemplary embodiment plastic continuous filaments, wherein these plastic continuous filaments are advantageously made of thermoplastic material. In the nonwoven web 1, it may in the embodiment of the Figures act around a spunbond nonwoven web. It is in particular within the scope of the invention to use a nonwoven web laminate as the nonwoven web, the laminate then preferably comprising at least one spunbond nonwoven web and one meltblown nonwoven web, and particularly preferably a laminate having a layer sequence of spunbond nonwoven web / meltblown nonwoven web / spunbond web. Nonwoven web (SMS) is. It is within the scope of the invention that the nonwoven web 1 has a web thickness d of less than 2 mm and preferably has a basis weight of less than 20 g / m ² , more preferably less than 15 g / m ² . The nonwoven web 1 comes in touching contact with guide rollers 2 and / or treatment rollers 3. A guide roller assembly 4 has a plurality of guide rollers 2, preferably two guide rollers 2 and a treatment unit 5 has a plurality of treatment rollers 3, preferably two treatment rollers 3.
The Fig. 1 shows a nonwoven web guide device according to the prior art. Here, the nonwoven web 1 is guided only over the two guide rollers 2 of an S-shaped guide roller assembly 4. At the nonwoven web surfaces 1 air is carried along due to the movement of the nonwoven web. The air flow created by the entrained air on the one hand leads to the nonwoven web 1 from the upper guide roller - as in Fig. 1 indicated - is lifted and so far not functionally safe. In addition, the air conveyed along at the top side of the nonwoven web 1 causes an air flow behind the guide roller assembly 4 to strike the further conveyed nonwoven web 1 (right side of FIG Fig. 1 ) and the nonwoven web 1 influenced or deformed. On the one hand undesired inhomogeneities in the nonwoven web 1 can result from these influences or disturbances due to air currents and, on the other hand, an elevated web tension may be required for the secure guiding of the nonwoven web 1, which in turn may result in undesired width reduction of the nonwoven web 1.

The Fig. 2 to 5 show one too Fig. 1 Analog nonwoven web guiding device with measures or device components according to the invention. - In the Fig. 2 the nonwoven web 1 is in turn passed over an S-shaped guide roller assembly 4 of two guide rollers 2 arranged directly above one another. In this case, in the conveying direction F before or immediately before the guide roller assembly 4 or before / immediately before the upper guide roller 2 in the conveying direction F and transverse to the conveying direction F of the nonwoven web 1 extending stabilizing plate 6 is provided. In the embodiment according to Fig. 2 the stabilization plate 6 is arranged below the nonwoven web 1 at a distance a from the nonwoven web. The distance a may be between 0.1 and 3 mm in the exemplary embodiment. By means of in Fig. 2 Stabilizing plate 6 arranged below nonwoven web 1 can control the air entrained on the lower surface of nonwoven web 1 in a functionally reliable manner. In the embodiment of Fig. 2 behind the upper guide roller 2 of this guide roller assembly 4, a planar deflecting element 7 in the form of a planar deflecting plate 7 is positioned behind the guide roller assembly 4 or. With the help of this flat deflecting element 7, the entrained at the top of the funded nonwoven web 1 air is deflected upward, so that the air flow is not - as in the embodiment of Fig. 1 - Can meet on the conveyed behind the guide roller assembly 4 nonwoven web 1. The planar deflecting element 7 is preferred and arc-shaped in the exemplary embodiment, so that the entrained with the nonwoven web 1 air is deflected upward. A comparative consideration of Fig. 1 and 2 one takes that with the inventive measures in Fig. 1 recognizable disturbing air or air currents can be effectively avoided.

The Fig. 3 shows a further embodiment of the nonwoven web guiding device according to the invention. Here is first as in the exemplary embodiment Fig. 2 in the conveying direction F of the nonwoven web immediately before the guide roller assembly 4, a stabilizing plate 6 at a distance a below the nonwoven web 1 is arranged. Instead of the planar deflecting element 7 in the embodiment according to Fig. 2 Here, immediately behind the guide roller assembly 4, a further stabilizing plate 6 is arranged at a distance a above the nonwoven web 1. Also, this will be on the right side of the Fig. 1 shown negative influence of entrained by the nonwoven web 1 and guided over the upper guide roller 2 air effectively avoided by the nonwoven web 1 is protected behind the guide roller assembly 4 of the positioned above the nonwoven web 1 stabilizing plate 6 from this adverse air flow.

The Fig. 4 shows a similar embodiment as the Fig. 2 , Here, however, immediately behind the guide roller assembly 4, the second stabilizing plate 6 is arranged at a distance a below the nonwoven web 1. However, this also effectively avoids the negative influence of the air flow described above. The nonwoven web 1 can function safely and continue largely without deformation on the second stabilizing plate 6.

In the embodiment according to Fig. 5 is in the conveying direction F of the nonwoven web 1 seen immediately before the guide roller assembly 4, a stabilizing plate 6 positioned at a distance above the nonwoven web 1 a. This stabilizing plate 6 arranged at the top has the effect that the air entrained on the upper side of the nonwoven web 1 does not act as in FIG Fig. 1 shown on the right side - the non-woven web 1 continued beyond the guide roller assembly 4 can adversely affect or act upon. In order to avoid negative influences of the entrained air at the bottom of the nonwoven web 1, a planar deflecting element 7 is arranged immediately before the guide roller assembly 4 below the nonwoven web 1 with the proviso that at the bottom of the Nonwoven web 1 mitgeförderte air with the help of this flat deflecting element 7 is deflected away from the nonwoven web 1. For this purpose, this planar deflecting element 7 has a deflecting tongue 8 arranged at a small distance u from the lower nonwoven web surface and, starting from this deflecting tongue 8, the planar deflecting element 7 is bent downwards. By means of the Umlenkzunge 8 at the bottom of the nonwoven web 1 mitgeförderte air is effectively deflected over the arc of the planar deflecting element 7 downwards or deflected. This effectively prevents the nonwoven web 1 above the upper guide roller 1 - as in Fig. 1 represented - as if hovering.

The Fig. 6 shows another embodiment of the nonwoven web guiding device according to the invention. Here, the conveyed nonwoven web 1 is guided through a narrow treatment nip 9 (nip) between an upper treatment roller 3 and a lower treatment roller 3 of a treatment roller assembly 5. The treatment roller assembly 5 may be a calender roller assembly. Conveniently, at least one treatment roller 3 of this calender roll aggregate or treatment roll aggregate 5 is heated. The nonwoven web 1 is still guided in the conveying direction in front of this treatment roller assembly 5 on a Ablagesiebband 10. In order to avoid negative influences of the entrained air at the top of the nonwoven web 1, a stabilizing plate 6 is positioned above the nonwoven web 1 at a distance a immediately before the treatment roller assembly 5.

Also in the embodiment of the Fig. 7 is a treatment roller assembly 5 according to the nonwoven web guiding device Fig. 6 shown. The guided through the treatment nip 9 of the treatment roller assembly 5 nonwoven web 1 is passed immediately before the treatment roller assembly 5 between two stabilizing plates 6. Each stabilization plate 6 is positioned at a distance a above or below the nonwoven web 1. Negative influences of both the top and at the bottom of the nonwoven web 1 mitgeförderten air can be effectively avoided by this arrangement.

In the embodiment according to Fig. 8 the nonwoven web 1 is also guided by a treatment roller assembly 5 of two treatment rollers 3. The guided through the treatment nip 9 nonwoven web 1 is performed immediately before the treatment roller assembly 5 via a stabilizing plate 6. The stabilizing plate 6 is arranged at a distance a below the nonwoven web 1. In addition, immediately before the treatment roller assembly 5 and above the stabilizing plate 6 a planar deflection element 7 on the nonwoven web 1 is present and with the help of this planar deflecting element 7 can be deflected away from the nonwoven web 1 at the top of the nonwoven web 1 mitgeförderte air. For this purpose, the flat deflecting element 7 has a deflecting tongue 8 arranged at a short distance u from the upper nonwoven web surface. Starting from this Umlenkzunge 8, the planar deflecting element 7 is formed bent upwards. By means of the Umlenkzunge 8 at the top of the nonwoven web 1 mitgeförderte air is deflected over the arc of the planar deflecting element 7 upwards.

Claims (5)

Nonwoven web guiding device for guiding a nonwoven web of plastic fibers, preferably plastic endless filaments, conveyed in a conveying direction F, wherein at least one feed device for the conveyed nonwoven web is present, wherein at least one guide and / or treatment roll (roller) for the nonwoven web or at least one roller assembly of at least two guide and / or treatment rollers (rollers) for the nonwoven web is arranged in the conveying direction of the nonwoven web behind the feed device, wherein in the conveying direction F before or immediately before the roll or the roll aggregate and / or in the conveying direction F behind or immediately behind the roller or the roller assembly at least one in the conveying direction F and transverse to the conveying direction F of the nonwoven web extending stabilizing plate is provided, wherein the at least one stabilizing plate is arranged with the proviso that the distance a between the nonwoven web facing surface of the stabilizing plate and the nonwoven web surface 0 to 20 mm, preferably 0.1 to 10 mm and very preferably 0.2 to 5 mm, wherein the (shortest) distance A ₁ between the roller-side end of a arranged in the conveying direction F before the roller or before the roller unit stabilization plate and the stabilizing plate downstream in the conveying direction roller or first roller 0.2 to 500 mm, preferably 0.2 to 200 mm, preferably 0.2 to 100 mm and very preferably 0.2 to 40 mm, and / or wherein the (shortest) distance A ₂ between the roller-side end of which is arranged in the conveying direction F behind the roller or downstream of the roller unit stabilization plate and the stabilizing plate in the conveying direction upstream roll or last roll of the roll assembly from 0.2 to 500 mm, preferably 0.2 to 150 mm and preferably 0.2 to 100 mm. Nonwoven web guiding device according to claim 1, wherein a roller assembly of at least two guide rollers (rollers) is provided, wherein the two guide rollers are arranged with the proviso that the conveyed nonwoven web is first passed over an upper guide roller and subsequently at one below the upper Roller arranged lower guide roller is guided. Nonwoven web guiding device according to one of claims 1 or 2, wherein the roller assembly comprises at least two treatment rollers, wherein the treatment rollers are arranged with the proviso that the conveyed nonwoven web is passed through a treatment nip (treatment nip) between the two treatment rollers. Nonwoven web guiding device according to one of claims 1 to 3, wherein the at least one stabilizing plate is designed as a stationary stabilizing plate. Nonwoven web guiding device according to one of claims 1 to 4, wherein in addition to the at least one stabilizing plate at least one stabilizing element is formed as a planar deflecting element, wherein the deflecting element has a short distance u to the nonwoven web surface arranged Umlenkzunge, said means of Umlenkzunge of the Nonwoven web at the nonwoven web surface with conveyed air is deflected or deflected away from the nonwoven web surface via the planar deflecting element.

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