EP2097570A1 - Suction chamber for a water bar used for applying jets to fabrics - Google Patents

Abstract

The invention relates to a water bar (1a) comprising nozzle ports (10c) for a suction chamber (5a) to apply jets to fabrics, knitted fabric webs, or nonwoven fabrics (2) composed of staple fibers, endless filaments, or cellulose fibers, also in several layers, or mixtures thereof, and a suction area (3a, 3b) which is located on the bottom side (5b) of the suction chamber (5a) and is used for sucking off spraying water (4). The aim of the invention is to largely prevent spraying water or spraying mist in the region of the water jet that is discharged from the water jet beam. Said aim is achieved by assigning an air supplying device (11a) to the water bar (1a) and/or the suction chamber (5a), said air supplying device (11a) being provided with at least one outlet (11c) which is located in the region of the water bar (1a) and extends to the region of the nozzle ports (10c) of the water bar (1a).

Description

 Suction chamber for a water beam for exposing tissues to radiation

The invention relates to a water bar with nozzle openings for a suction chamber for the jet exposure of fabrics, tissue webs or webs consisting of staple fibers, continuous filaments o cellulose fibers also from several layers or mixtures thereof and provided on a lower side of the suction suction for suction Water spray.

It is already known to catch the liquid spraying onto the underside of the water bar (DE 199 23 591 A1). For this purpose, a device which is arranged laterally of the water bar over its length is used. At the edge of the water bar a funnel-shaped slot is formed, at the inner end of a suction slot is formed with a height of about 2 mm. If a sufficiently large negative pressure is then connected to the otherwise completely enclosed device, then all drops, including a spray mist, can be sucked off from the underside of the water bar without damage to the goods to be needled.

Further, for the water needling of fabrics a water beam is known (WO 01/40562 A1), which is associated with a cover channel, which is mounted from an upper support and a cover arranged below it with a porous bottom so that a suction channel can be formed. For this purpose, a suction opening and a horizontal porous cover plate are arranged on one side of the water jet. With this device corresponding splash water can be removed only insufficient. Furthermore, resulting spray water can not be sucked off on the opposite side of the water jet. The invention has for its object to form a water beam for the jet exposure of fabrics, tissue webs or webs such that in particular the water spray or spray in the area of emerging from the water beam water jet largely avoided and / or can be easily bundled and / or vacuumed.

The object is achieved in that the water bar and / or the suction chamber is associated with an air supply, which is equipped with at least one outlet opening, which is provided in the region of the water bar and extends into the region of the nozzle openings of the water bar.

By the air supply to the inner region of the nozzle opening prevents the water jet expands too much and ensures that little water spray is formed laterally from the water jet, as the water jet bundled emerges from the nozzle opening. Furthermore, the spray is collected with uniform suction and thus prevent the usual drop formation on the water bar.

For this purpose, it is advantageous that the nozzle opening of the water bar expands in the conveying direction of the liquid.

It is also advantageous that the nozzle opening consists of one or more sections each having a different shape.

It is also advantageous that the first section of the nozzle opening consists of an elongated section, which is followed by at least one further gradually widening section.

It is also advantageous that the first section of the nozzle opening extends on a straight line at least over a section of the surface. Furthermore, it is advantageous that the first section of the nozzle opening extends on a straight line at least over a section of the surface.

It is also advantageous that the second section of the nozzle opening consists of a conically widening section whose angle is smaller than an angle of the third section of the nozzle opening.

Of particular importance for the present invention is that the conically widening second section of the nozzle opening has an angle which has an angle between 25 ° to 45 ° or 30 ° to 40 °, in particular between 33 ° and 37 ° and the third section which is between 80 ° to 100 ° or 85 ° to 95 °, especially between 88 ° and 92 °.

It is also advantageous that the nozzle opening of the water bar extends approximately over the entire length of the water bar, in which a numerous openings exhibiting nozzle strips is embedded, wherein the upstream direction of the water bar, an outlet side of the funnel-shaped extension and that the Length of the third section measured from the exit side is equal to or greater than the length of the second section.

Furthermore, it is advantageous for the surface of the second and / or third section to run on a curved path or a circular arc at least over a section of the surface.

It is also advantageous that the outlet opening of the air supply device is flat in the region of its outlet end and runs approximately parallel to the surface of the third and / or the second portion.

It is also advantageous that two or more outlet openings of the air supply device are arranged opposite one another and in the region of their outlet. Laßendes are flat and extend approximately parallel to the surface of the third and / or the second portion.

Furthermore, water bar with nozzle openings for a suction chamber for jet exposure of fabrics, tissue webs or webs consisting of staple fibers, continuous filaments or cellulose fibers also from several layers or mixtures thereof and provided on a lower side of the suction suction for the extraction of water spray advantageous.

It is advantageous that the water beam and / or the suction chamber is associated with an air supply device which is equipped with at least one outlet opening which is provided in the region of the water bar and into the region of and / or into the Düsenöffnungen the water bar extends, wherein at least two outlet openings of the air supply device are arranged opposite and flat in the region of their outlet end and extend approximately parallel to the surface of the third and / or the second portion. As a result, an almost drip-free water bar is created in a simple and cost-effective manner, so that no more drops fall on the fabric, a woven fabric web or a nonwoven, which can lead to their optical impairment. In the process, the spray water and the water mist produced by spraying are collected over the entire surface of a suction device with uniform suction power, thus preventing the usual drop formation on the water beam.

It is also advantageous for an air displacement body to be located above the perforated suction surface, in particular above the suction surface with a relatively large open area, and to narrow the perforated suction surface such that a maximum air flow of, for example, 2 m / s reaches on the outside of the perforated suction surface is, with the air displacement body is positioned so that a uniform suction over the entire width and / or length of the perforated suction surface is ensured, wherein the air displacement body and also the outlet openings of the air supply device extend over the entire length of the water bar.

The arrangement of the air displacement body air flows are adjusted within the suction as needed. A special flexibility is achieved when the air displacement body is mounted variable in height and inclination.

In a further embodiment of the invention, it is advantageous that the air displacement body has a lower side which includes in the longitudinal direction of the suction chamber with the underside of the angle between 1 ° and 30 °, in particular between 1 ° and 5 °, wherein the gap between see the air displacement body and the perforated suction in the direction of a suction closer.

It is also advantageous that the air displacement body ends with its one end or one side wall in the region of the suction device connected to the suction chamber.

It is advantageous that the suction surface is arranged to extend inclined and extending from an upper portion near the water bar and / or a drip edge to a lower portion of the suction chamber.

Furthermore, it is advantageous that the perforated suction surface has openings with different sized cross-sectional area.

It is also advantageous that the cross-sectional areas of the openings, starting from the drip edge are increasingly larger. In a further embodiment of the invention, it is advantageous that the cross-sectional areas of the openings are increasingly larger, starting from the drip edge, continuously or in uniform steps.

It is also advantageous that the distance between the individual openings is equal or different in size.

According to a further feature of the invention, it is advantageous that an angle is formed by a tangential of a screen roller and the perforated suction surface, which is between 5 ° and 25 °, in particular between 6 ° and 15 °, the openings of the suction on the a water jet facing inner side of an open area of about 3% to 8%, preferably from 5% and on the outer side of about 10% to 25%, preferably from 20%.

In a further embodiment of the invention, it is advantageous that the air supply device has an air supply channel, by a distance of 1 to 15 mm, preferably 3 to 10 mm and in particular 3 and 6 mm between an outer side of the water bar and a water bar facing the outside the suction chamber is formed.

It is also advantageous for this purpose that via the air supply device, the air supply to the water jet takes place, wherein the air supply device is associated with a blower for generating an overpressure.

An additional possibility, according to a development of the invention, that the outlet opening is oriented so that the air stream impinges approximately perpendicular to the emerging from the water beam water jet.

It is advantageous for this purpose that the air supply device or the air gap is at least partially provided between the water bar and the outlet opening of the suction chamber or on the outside of Wasserbai- kens along and runs in the region of a lower side of the water bar parallel to this.

It is particularly advantageous that the suction chamber and / or the air supply device is in each case arranged symmetrically to both sides of the water bar and / or the water jet or are.

It is advantageous that the air supply duct extends with its outlet opening into the funnel-shaped widening nozzle opening and the air jet emerging from the outlet opening runs counter to the flow direction of the water jet emerging from the nozzle opening.

It is also advantageous that the air supply channel extends into the funnel-shaped widening nozzle opening and runs approximately parallel to a part of the wall of the funnel-shaped widening nozzle opening and the air jet approximately opposite to the flow direction of the water jet emerging from the nozzle opening.

Furthermore, it is advantageous that the air jet emerging from an outlet opening is deflected to the extent that it extends approximately in the direction of the flow direction of the water jet emerging from the nozzle opening via a deflection device. This prevents the water jet from spreading too far.

An additional possibility is, according to a development of the invention, that the deflection device is provided in the region of the outlet end of the outlet opening of the second section of the nozzle opening or in a region in which the funnel-shaped widening part of the nozzle opening has approximately its smallest cross-sectional dimension. Further advantages and details of the invention are explained in the patent claims and in the description and illustrated in the figures.

Show it:

1 is a suction chamber for a water beam for the jet exposure of tissues with a suction chamber in the partial section,

2 shows a further embodiment of a suction chamber for a water bar with an air supply direction, which is equipped with an outlet opening which ends in the region of the water bar,

3 shows an air displacement body provided in the suction chamber, which is positioned in such a way that a uniform suction effect over the entire width of the perforated surface or suction surface is ensured,

Fig. 4 is a sectional view of the water bar shown in Fig. 1 with a funnel-shaped widening nozzle opening, which is only partially indicated in Fig. 1.

5 is a sectional view of the funnel-shaped widening nozzle opening shown in FIG. 1, into which the air supply channel extends with its outlet opening, FIG.

Fig. 6 is a sectional view of the water bar shown in Fig. 1 with a funnel-shaped widening nozzle opening, in which the air supply duct extends with its outlet opening, wherein in the second section a nose or deflection device is provided for the air flow. In FIG. 1, 1a denotes a water beam, from which a water jet 10 exits via nozzle orifices, not shown in the drawing, and strikes tissue, fabric web or web 2 brought in via a fabric support 13 of a sieve drum or screen roller 14a. The water is discharged for the most part via a Wasserabführvorrichtung 12 of the screen roller 14a.

In the area of the water bar 1a there is a suction device or suction chamber 5a, which has on its lower side 5b a perforated suction surface 3a, b with openings 3c inclined so that when the water jet 10 appears on the fabric, a woven fabric web or nonwoven fabric 2 resulting spray water is passed to the bottom of the suction chamber 5b and then can be completely sucked from the suction chamber 5a. As a result, the water droplets occurring on the underside of the water bar 1a can be avoided and no longer drip onto the fabric, the fabric web or the webs 2.

In an embodiment, not shown in the drawing, the suction chamber 5a is arranged symmetrically to both sides of the water bar 1a. In the suction chamber 5a there is a negative pressure, which is provided by a not shown in the drawing pump, which is connected via a suction hose 8b with the suction chamber 5a.

2 shows a further embodiment of the suction chamber 5a for the water beam 1a for exposing tissues, tissue webs or webs 2 with perforated suction surfaces 3a and 3b provided on the lower side 5b of the suction chamber 3a for sucking out spray water 4. The perforated suction surface 3a, 3b is inclined so as to extend from an upper portion 6b near the water beam 1a and / or a drip edge 6a to a lower portion 6c of the suction chamber 5a. The first portion 3a of the perforated suction surface has a relatively small open area, while the second portion 3b of the perforated suction area has a relatively large area has. In a variant, not shown in the drawing, the suction chamber can also be formed without the drip edge.

The openings 3c provided in the perforated suction surface have a smaller cross section in the section 3a than in the section 3b. In this way, an approximately equal suction pressure is generated on the inner upper side of the suction surface 3a or 3b so that the spray water impinging on the fabric, the fabric weft web or the webs 2 can be readily sucked off. Furthermore, the water droplets traveling downwards due to gravity can be completely sucked into the suction chamber 5a through the larger openings 3c in the lower area of the suction area 6c.

The distance between the individual openings 3c can be the same or different in size. The cross-sectional areas of the openings 3c, starting from the drip edge 6a, become progressively larger in the direction of the suction chamber 5a or a side 5c of the suction chamber 5a facing away from the water chamber 1a. For this purpose, the cross-sectional areas of the openings 3c, starting from the drip edge 6a, can also increase continuously or continuously in uniform steps.

As is apparent from Fig. 2, the second embodiment, is located on the outer periphery of the screen roller 14a on a tangential 14b. The tangents 14b make an angle with the lower surface of the suction surface 3a and 3b. The angle may be between 5 ° and 25 °, but preferably between 6 ° and 15 °. The openings 3c of the suction surface 3a, 3b on the inner side 5d facing the water jet 10 of the water bar 1a make an open area of about 3% to 8%, preferably of 5%, and on the outer side an open area of about 10% to 25%. preferably from 20% about 20%. 2 is located on the right side of the water bar 1a, the suction chamber 5a, which may be formed as an approximately rectangular box and is received via the spray water 4. 2, the water beam 1a and the suction chamber 5a are associated with an air supply device 11a having an air supply passage 11b terminating in a lower side 1b of the water beam 1a, with an exhaust port 11c of the air supply passage 11b near the water jet 10 , The air supply passage 11b is formed substantially by an outer side of the water bar 1c and a left-hand continuous outer side 5d of the suction chamber 5a. For this purpose, the air supply duct 11b extends approximately parallel to the outside of the water bar 1a and the lower side 1b of the water bar 1a. In the region of the outlet opening 11c of the air supply channel 11b, there is also the drip edge 6a belonging to the suction chamber 5a. At the drip edge 6a only very fine drops of water can form, which can do no further damage when they fall down.

The dry air introduced via the air supply duct 11b of the air supply device 11a to the water jet 10 has the advantage that it does not influence the water jet 10 in its direction. The water jet 10 is thus not influenced by very fine water droplets or mist and can be projected particularly focused on the tissue, the tissue web or the webs 2. In this case, in the embodiment of FIG. 2, the dry air is supplied to the water jet 10 via the air supply channel 11b by intrinsic suction.

In a further exemplary embodiment, which is not shown in the drawing, the dry air can also be actively guided to the water jet 10 via the air supply device 11a if required with the aid of a blower.

According to FIG. 2, the air supply device 11a and the suction chamber 5a are located only on the right side of the water beam 1a. According to another embodiment, not shown in the drawing, the suction chamber 5a can be arranged symmetrically on both sides of the water bar 1a (see also Fig. 1). Likewise, too the air supply device 11a are arranged symmetrically on both sides of the water bar 1a.

In a further embodiment, the water bar 1a is shown in cross-section and has a plurality of openings provided in a rectangular recess 15 nozzle strips 16 which are arranged in a row and as small holes with a diameter size between 0.1 and 0.15 mm are formed and through which the water enters the elongated nozzle opening 10c.

The lower part of the water bar 1d illustrated in FIG. 4 is provided with the oblong nozzle opening 10c extending approximately over its entire length, to which, according to FIG. 1, the air supply device 11a is provided, which is equipped with at least one outlet opening 11c in the region the water bar 1a is provided and extends into the front, middle or rear region of the nozzle openings 10c of the water bar 1a.

The nozzle opening 10c of the water bar 1a widens in the conveying direction of the liquid, ie in the direction of the front side. The nozzle opening 10c may consist of one or more portions 10d, 10e, 10f each having a different shape.

The first portion 10d of the nozzle orifice 10c consists of an elongated portion extending into the image plane, followed by at least one further gradually widening portion 10e extending into the image plane, followed by a similar gradually widening portion 10f. The length of the three sections corresponds to the length of the nozzle opening 10c.

Referring to FIG. 4, the first portion 10d of the nozzle opening 10c has a dimension smaller than the dimension of an outlet opening 10ee, 10ff of the subsequent second and third portions. The As already mentioned, sections 10d, 10e, 10f are slit-shaped and, as shown in FIG. 4, are located below the nozzle strip 16, which has numerous openings or bores 16a. The nozzle opening 10c therefore also has approximately the length of the row of successively arranged ones Holes 16a on.

The cross-sectional area of the air supply device 11a or of the air supply channel 11b is between 3 and 15 mm, preferably between 5 and 10 mm, in particular between 7 and 8 mm.

The second and third portions 10e, 10f of the nozzle opening 10c gradually widen conically. The angle of the second portion 10e is smaller than the angle β of the adjoining third portion 10f of the nozzle opening 10c.

The conically widening second section 10e of the nozzle opening 10c has an angle which is between 25 ° to 45 ° or 30 ° to 40 °, in particular between 33 ° and 37 °, and the third section 10f has an angle β which is between 80 ° to 100 ° or 85 ° to 95 °, in particular between see 88 ° and 92 ° is large.

The surface of the second portion 10e and / or third portion 10f extends at least over a limited area of the surface on a curved path or a circular arc.

A front side of the water bar 1a lying in the direction of flow is the outlet side 10g of the funnel-shaped extension. The length of the third portion 10f measured from the exit side 10g is equal to or larger than the length of the second portion 10e.

The air supply channel 11b of the air supply device 11a is in the embodiment of FIG. 2 substantially by a distance of 1 to 15 mm, preferably from 3 to 10 mm and in particular from 3 and 6 mm formed between an outer side of the water bar 1c and the water bar facing the outside of the suction chamber 5d. The air supply channel 11b can also be designed by hoses or similar air supply devices in a variant of the drawing which is not shown in the drawing.

The outlet opening 11c extends approximately over the entire width of the water bar 1a and is oriented so that the exiting air jet occurs approximately perpendicularly to the water jet 10 emerging from the water bar 1a.

4, when the outlet opening 11c is oriented such that the outgoing air jet extends approximately parallel to the surface of the third section 10f and / or of the second section 10e. This prevents that the water jet expands too much and thereby ensures that little water spray is formed laterally from the water jet, since the water jet remains bundled.

According to FIG. 2, the openings 3c of the perforated suction surface on the side 3a facing the water jet 10 can be designed as elongated approximately parallel slits with a length between 1 mm and 10 mm and a width A between 0.1 mm and 3 mm. Further, it is possible that the slits provided on the outer side 3b of the perforated suction surface are preferably formed angularly with a length between 1 mm and 10 mm and a width B between 0.1 mm and 3 mm. Depending on the embodiment, the slots may also be linear or have a wave-shaped course. All of these design variants of the openings 3c have the goal of absorbing the water droplets of the spray water 4 running along the perforated suction surface as efficiently as possible. It should be prevented in particular that the water droplets of the spray water 4 can pass between the openings 3c. According to FIGS. 2 and 3, according to a further embodiment, an air displacement body 7a can be arranged in the suction chamber 5a, which can have different shapes. According to Fig. 2 and 3, the air displacement body 7a is formed as a hollow body and is bounded by two parallel side walls 7c and 7d. In the region of the suction surface 3a and 3b, a lower side 7b of the displacement body 7a runs approximately parallel to the inner surface of the perforated suction surface 3a, 3b. Between the lower surface 7b of the displacement body 7a and the inner surface of the suction surface 3a and 3b there is a small gap between 2 mm and 10 mm, which ensures that a uniform suction pressure is achieved over the entire suction surface. The air displacement body 7a is located above the perforated suction surface 3a, 3b, in particular above the suction surface with relatively large open area 3b, so that the perforated suction surface 3a, 3b is narrowed such that a maximum air flow of, for example, 2 m / s on the outside of the perforated Absaugfläche 3b is achieved.

Advantageously, the air displacement body 7a extends over the entire width and / or length of the suction chamber 5a. In order to achieve the greatest possible flexibility in the adjustment of the air flows within the suction chamber 5a, the air displacement body 7a can be variably mounted in a further advantageous embodiment, not shown in the drawing, in terms of its height and inclination.

As is apparent from Fig. 2, the underside 7b of the displacement body 7a extends in the same direction as the suction surface 3a and 3b and thus includes an angle, not graphically represented between 5 ° and 30 °. 3, the air displacement body may also include with its lower side 7b opposite the inner surface of the perforated suction surface 3a, 3b an angle β which is between 1 ° and 30 ° or between 1 ° and 5 ° is, wherein the gap between the air displacement body 7a and the perforated suction 3a, 3b is narrower in the direction of a suction device 8a. At the rear side of the suction chamber 5a there is a suction device consisting of the connecting piece 8a and the suction hose 8b, via which the spray water absorbed by the suction chamber 5a is discharged and the negative pressure is generated in the same. The interior of the suction chamber 5 a is accessible via a supply flap 9.

As is apparent from Fig. 3, ends in an advantageous manner, the air displacement body 7a with its lower end in the region of the connecting piece of the suction device 8a

According to another exemplary embodiment shown in FIG. 5, the air supply duct 11b extends into the funnel-shaped widening nozzle opening 10c and runs approximately parallel to a part of the wall of the funnel-shaped widening nozzle opening 10c and approximately opposite to the flow direction of the nozzle opening 10c exiting water jet.

Furthermore, according to FIG. 6, the air jet emerging from its outlet opening 11c can be deflected so far via a deflection device 17 that it extends approximately in the direction of the flow direction of the water jet emerging from the nozzle opening 10c.

In addition, the baffle 17 may be provided in the region of the outlet end of the outlet opening 10 e of the second portion 10 e of the nozzle opening 10 c or in a region where the funnel-shaped widening portion of the nozzle opening 10 c has approximately its smallest cross-sectional dimension. LIST OF REFERENCE NUMBERS

1a water bar

1 b lower side of the water bar

1c outside of the water bar

1 d lower part of the water bar

2 fabric, fabric weft web, nonwoven 3a perforated suction surface, relatively small open area

3b perforated suction surface, relatively large open area

3c opening

4 spraying water

5a suction chamber 5b Lower side of the suction chamber

5c side of the suction chamber, facing away from the water bar

5d side of the suction chamber, facing the water bar

6a drip edge

6b upper portion of the suction surface or suction 6c lower portion of the suction or suction

7a air displacement body

7b lower side of the displacement body

7c side wall of the displacement body

7d side wall of the displacement body 8a suction device, connecting piece

8b suction device, suction hose

9 supply flap

10 water jet 10 c nozzle opening 10 d first section

10 e second section

10 f third section

10 g outlet side, lower part 10 ee outlet opening

10 ff outlet opening

11a air supply device, air gap

11b air supply duct

11c outlet opening

12 water drainage device

13 fabric backing

14a screen roller

14b tangentials

15 recess

16 jet strips

16a opening, bore

17 deflection device

18 air jet, air flow

19 wall

20 wall α angle ß angle

Y angle δ angle

A width

B width

Claims

claims:

1. Water bar (1a) with nozzle openings (10c) for a suction chamber (5a) for the jet exposure of fabrics, tissue webs or webs (2) consisting of staple fibers, continuous filaments or cellulose fibers also from several layers or mixtures thereof and one at a lower side (5b suction suction surface (3a, 3b) for the extraction of water spray (4), characterized in that the water bar (1a) and / or the suction chamber (5a) is associated with an air supply device (11a) is provided with at least one outlet opening (11c) which is provided in the region of the water bar (1a) and extends into the region of the nozzle openings (10c) of the water bar (1a).

2. Apparatus according to claim 1, characterized in that the nozzle opening (10c) of the water bar (1a) widens in the conveying direction of the liquid.

3. Apparatus according to claim 1 or 2, characterized in that the nozzle opening (10c) consists of one or more depending on a different shape having portions (10d, e, f).

4. The device according to claim 1, characterized in that the first portion (10d) of the nozzle opening (10c) consists of an elongated portion, which is followed by at least one further gradually widening portion (10e).

5. The device according to claim 1, characterized in that the first portion (10d) of the nozzle opening (10c) extends on at least a portion of the surface on a straight line. Apparatus according to claim 1, characterized in that the first portion (10d) of the nozzle opening (10c) consists of an elongated portion whose dimension is smaller than outlet openings (10ee, 10ff) of the subsequent second and third portions.

6. The device according to claim 1, characterized in that the second portion (10e) of the nozzle opening (10c) consists of a conically widening portion whose angle (α) is smaller than an angle (ß) of the third portion (10f) of Nozzle opening (10c).

7. The device according to claim 1, characterized in that the conically widening second portion (10e) of the nozzle opening (10c) has an angle (a) which is between 25 ° to 45 ° or 30 ° to 40 °, in particular between 33 ° and 37 ° and the third section (10f) has an angle (β) which is between 80 ° to 100 ° or 85 ° to 95 °, in particular between 88 ° and 92 °.

8. The device according to claim 1, characterized in that the nozzle opening (10c) of the water bar (1a) extends approximately over the entire length of the water bar (1a), in which a numerous openings (16a) exhibiting nozzle strip (16) is embedded wherein the downstream side of the water bar (1a) is an exit side (10g) of the funnel-shaped extension and the length of the third section (10f) measured from the exit side (10g) is equal to or greater than the length of the third second section (1 Oe).

9. The device according to claim 1, characterized in that the surface of the second (10e) and / or third (10f) section extends on at least a portion of the surface on a curved path or a circular arc.

10. The device according to claim 1, characterized in that the outlet opening (11c) of the air supply device (11a) in the region of its Ausle Lying flat is formed and extends approximately parallel to the surface of the third (1Of) and / or the second portion (1Oe).

11. The device according to claim 1, characterized in that two or more outlet openings (11c) of the air supply device (11a) are arranged opposite and flat in the region of their outlet end and approximately parallel to the surface of the third (10f) and / or the second portion (10e).

12. Water bar (1a) with nozzle openings (10c) for a suction chamber (5a) for the jet exposure of fabrics, tissue webs or webs (2) consisting of staple fibers, continuous filaments or cellulose fibers also from several layers or mixtures thereof and one at a lower side (5b Suction surface (3a, 3b) for the extraction of water spray (4), characterized in that the water beam (1a) and / or the suction chamber (5a) is associated with an air supply device (11a), the is provided with at least one outlet opening (11c) which is provided in the region of the water bar (1a) and extends into the region of and / or into the nozzle openings (10c) of the water bar (1a), wherein at least two outlet openings (11c ) of the air supply device (11a) are arranged opposite one another and flat in the region of their outlet end and approximately parallel to the surface of the third (10f) and / or the second Section (10e) run.

13. The device according to claim 1, characterized in that an air displacement body (7a) above the perforated suction surface (3a, 3b) in particular above the suction surface with a relatively large open area (3b) and the perforated suction (3a, 3b) narrows so in that a maximum air flow of 0.5 m / s to 5 m / s, preferably 1 m / s to 3 m / s, in particular 2 m / s, is achieved on the outside of the perforated suction surface (3b), the air displacement body (7a) is positioned so that a uniform suction across the entire width and / or length of the perforated suction surface (3a, 3b) is ensured, wherein the air displacement body (7a) and also the outlet openings (11c) of the air supply device (11a) extend over the entire length of the water bar (1a).

14. The device according to claim 1, characterized in that the air displacement body (7a) has a lower side (7b) in the longitudinal direction of the suction chamber (5a) with its underside (5b) the angle (ß) includes, between 1 ° and 30 °, in particular between 1 ° and 5 °, wherein the gap between the air displacement body (7a) and the perforated suction surface (3a, 3b) in the direction of a suction device (8a) becomes narrower.

15. The device according to claim 1, characterized in that the air displacement body (7a) ends with its one end or a side wall (7d) in the region of the suction chamber (5a) connected to the suction device (8a).

16. The device according to claim 1, characterized in that the suction surface (3 a, 3 b) is arranged inclined and extending from an upper portion (6 b) lying close to the water bar (1 a) and / or a drip edge (6 a) to a lower Area (6c) of the suction chamber (5a) extends.

17. Suction chamber according to claim 16, characterized in that the perforated suction surface (3a, 3b) has openings (3c) with different sized cross-sectional area.

18. Suction chamber according to claim 16, characterized in that the cross-sectional areas of the openings (3c), starting from the drip edge (6a) are increasingly larger.

19, suction chamber according to claim 16, characterized in that the cross-sectional areas of the openings (3 c) starting from the drip edge (6 a) are continuously larger or continuously in uniform steps.

20. Suction chamber according to claim 16, characterized in that the distance between the individual openings (3c) is equal or different in size.

21. Suction chamber according to claim 16, characterized in that from a tangential (14b) of a screen roller (14a) and the perforated suction surface (3a, 3b) an angle (α) is formed which is between 5 ° and 25 °, in particular between 6 ° and 15 °, wherein the openings of the suction on the water jet (10) facing inner side (3a) an open area of about 3% to 8%, preferably 5% and on the outer side (3b) of about 10% to 25%, preferably 20%.

22. Suction chamber according to claim 16, characterized in that the air supply device (11a) has an air supply channel (11b) which is separated by a distance of 1 to 15 mm, preferably 3 to 10 mm and in particular 3 and 6 mm between an outside ( 1c) of the water bar (1a) and a water bar facing the outside (5d) of the suction chamber (5a) is formed.

23. Suction chamber according to claim 16, characterized in that the air supply to the water jet (10) takes place via the air supply device (11a), wherein the air supply device (11a) is associated with a blower to generate an overpressure.

24. Suction chamber according to claim 16, characterized in that the outlet opening (11c) is aligned so that the air flow impinges approximately perpendicular to the water jet (10) emerging from the water bar (1a).

25. Suction chamber according to claim 16, characterized in that the air supply device or the air gap (11a) at least partially between the water beam (1a) and the outlet opening (11c) of the suction chamber (5a) is provided or on the outside (1c) of Water bar (1 a) along and extends in the region of a lower side of the water bar (1 b) parallel to this.

26. Suction chamber according to claim 16, characterized in that the suction chamber (5a) and / or the air supply device (11a) is arranged symmetrically to both sides of the water bar (1a) and / or the water jet (10) or are.

27. Suction chamber according to claim 1 or 2, characterized in that extending into the funnel-shaped widening nozzle opening (10c) of the air supply duct (11b) with its outlet opening (11c) and the outlet from the outlet opening (11c) exiting air jet opposite to the flow direction of the jet opening (10c) exiting water jet extends.

28. Suction chamber according to claim 1 or 27, characterized in that the air supply duct (11b) extends into the funnel-shaped widening nozzle opening (10c) and approximately parallel to a part of the wall of the funnel-shaped widening nozzle opening (10c) and the air jet in approximately opposite to the flow direction of the nozzle opening (10c) exiting water jet extends.

29. Suction chamber according to claim 1 or 27, characterized in that the air jet emerging from an outlet opening (11c) is deflected to the extent that it extends approximately in the direction of the flow direction of the water jet emerging from the nozzle opening (10c) via a deflection device (17).

30. A suction chamber according to claim 1 or 27, characterized in that the deflection device (17) is provided in the region of the outlet end of the outlet opening (10ee) of the second section (10e) of the nozzle opening (10c) or in a region in which it is funnel-shaped widening part of the nozzle opening (10c) has approximately its smallest cross-sectional dimension.