EP1873290A2 - Suction chamber for a water beam for jet impact on textiles - Google Patents

Abstract

A suction chamber (5a) for a water beam (1a), having a perforated suction surface (3a, 3b) for removal of sprayed water at the lower side (5b) of the chamber, includes an air supply device (11a), which is associated with the beam and/or the chamber, has outlet opening(s) (11c) in the beam region, feeds air to the water jet (10) and has a blower to generate excess pressure.

Description

The invention relates to a suction chamber for a water beam for the jet exposure of fabrics, tissue webs or webs, consisting of staple fibers, continuous filaments or cellulose fibers also from several layers or mixtures and provided on the lower side of the suction perforated suction for the extraction of water spray.

It is already known to catch the liquid splashing on the underside of the waterbeam ( 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.

Furthermore, a water bar is known for the water needling of fabrics ( WO 01/40562 A1 ), which is associated with a cover groove, 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 is based on the object that a jet of water emerging from the water bar is projected in a focused manner onto the surface of tissues, So in its direction is not affected by water droplets or water spray.

The object is achieved in that the water bar and / or a 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. By such an independent supply of dry air to the jet of water it is completely freed of spray. The air surrounding the water jet is thus as dry as possible and almost free of spray.

It uses the suction effect of the water jet running at up to 200 m / s. This no longer sucks the enriched with spray moist ambient air, but the supplied via the air supply dry air. Thus, the distraction of the water jet caused by the finest water droplets in the air can be suppressed. The exploitation of the suction effect of the water jet has the further advantage that the air supply can be realized without great equipment expense and very cost-effectively.

It is also advantageous that the air supply device has an air supply channel which is formed 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 an outer side of the suction chamber facing the water bar , In this particularly simple embodiment of the air supply device, the air supply channel is formed by an air gap between the water bar and the suction chamber. For this purpose, essentially no additional components are needed. However, the air supply channel can also be realized, for example, via installed hoses.

In an advantageous embodiment of the air supply device, the air supply to the water jet can be carried out such that the air supply device is associated with a blower for generating a slight overpressure. Thus, the dry air is actively supplied to the water jet and the air supply to Water jet does not take place solely due to the suction effect described above by the water jet, but also by a slight overpressure within the air supply duct.

According to a further feature of the invention, it is advantageous that the outlet opening of the air supply device extends approximately over the entire length of the water bar. This ensures in a simple manner that supplied over the entire length of the water bar of the water jet with dry air and thus is not affected by fine water droplets or spray.

In a further embodiment of the invention, it is advantageous that the outlet opening of the air supply device is aligned so that the air flow impinges approximately perpendicular to the water jet emerging from the water bar. As a result, the exiting water jet is focused in a simple manner and directed spray water in the direction of the water jet.

It is also 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 along the outside of the water bar and runs parallel to this in the region of a lower side of the water bar. With the help of emerging from the air supply device dry air flow in the region of the underside of the water bar, the emerging water jet is focused. In this case, the supplied air flow is protected from splashing water until it exits because the air supply channel is limited downwards by the suction chamber.

An additional possibility, according to a development of the invention, that the suction chamber and / or the air supply device is arranged in each case symmetrically to both sides of the water bar and / or the water jet or are. Splashing water reflected by the fabric can thus be sucked off in the running direction of the fabric after the impingement of the water jet or optionally also in front of the water jet. Likewise, the independent Supply of dry air via the air supply device both before and behind the water jet. The arrangement of the suction chamber and the air supply device can be made independently of each other in any combination.

Furthermore, it is advantageous that the perforated suction surface is arranged to extend in an inclined manner and extends from an upper region near the water bar and / or a drip edge to a lower region of the suction chamber.

In this way it is achieved in a simple and cost-effective manner that an approximately drip-free water bar is ensured, and it is further ensured that the spray is completely sucked off on both sides of the water jet, so that no more drops fall on the fabric, a tissue web or a nonwoven fabric, which can lead to their contamination or impairment. The discharge of the spray water is particularly effective because move at the inclined suction surface of a suction water drops due to gravity in the direction of the lower portion of the suction and thus remove from the water jet. For this purpose, the area of the suction chamber facing the water bar can also be formed without a drip edge.

For this purpose, it is advantageous that the perforated suction surface has openings with different sized cross-sectional area. Thus, a uniform suction pressure is ensured over the entire suction surface of the suction device.

It is also advantageous that the cross-sectional areas of the openings are increasingly larger starting from the drip edge downwards.

It is also advantageous that the cross-sectional areas of the openings, starting from the drip edge, are continuously larger or progressively larger in uniform steps.

It is also advantageous that the distance between the individual openings is the same or different.

It is also 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 °, wherein the openings of the suction surface on the inner side facing a water jet an open area of about 3% to 8% preferably 5% and on the outer side of about 10% to 25% preferably 20%. As a result, a stronger air flow is achieved on the outer side of the suction surface than on the inner side. The drops of water, which migrate by gravity to the lower and thus to the outer area of the suction surface, are then finally sucked through the large openings into the interior of the suction chamber.

It is advantageous for this purpose that the openings of the perforated suction on the inner side facing the water jet are preferably formed as parallel slots having a length between 1 mm and 10 mm and a width between 0.1 mm and 3 mm, wherein the The openings provided on the outer side of the perforated suction surface are preferably formed angularly with a length between 1 mm and 10 mm and a width between 0.1 mm and 3 mm.

It is particularly advantageous that the openings have differently shaped cross-sectional areas and are formed oval, polygonal, angular or elongated slots. Such an arrangement, as well as the shape of the openings, ensures that the drops, as they travel along the surface towards the lower portion of the suction surface, are forced to pass through the openings and can not easily bypass them. Particularly effective are the angularly shaped openings of the perforated suction in that area with a relatively large open area.

Of particular importance for the present invention is that in the suction chamber, an air displacement body is positioned so that a uniform suction across the entire width and / or length of the perforated suction is ensured because the suction is done on one side. The arrangement of the air displacement body air flows are fine adjusted within the suction as needed. A special flexibility is achieved when the air displacement body is mounted variable in height and inclination.

Furthermore, it is advantageous that the air displacement body above the perforated suction surface, in particular above the suction surface with a relatively large open area and the perforated suction so narrows that a maximum air flow of, for example, 2 m / s is achieved on the outside of the perforated suction.

In a further embodiment of the invention, it is advantageous that the air displacement body extends approximately over the entire width and / or length of the suction chamber and that the air displacement body is an approximately rectangular body, in particular a housing which extends in the direction of the suction chamber and in this Direction inclined.

It is also advantageous that the air displacement body has a lower side which encloses an angle in the longitudinal direction of the suction chamber with its underside, which is between 1 ° and 30 °, in particular between 1 ° and 5 °, wherein the gap between the air displacement body and the perforated suction in the direction of a suction closer.

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

Fig. 1

Eine Absaugkammer für einen Wasserbalken zur Strahlbeaufschlagung von Geweben mit einer Absaugkammer im Schnitt,

Fig. 2

ein weiteres Ausführungsbeispiel einer Absaugkammer für einen Wasserbalken mit einer Luftzufuhrrichtung, die mit einer Auslassöffnung ausgestattet ist, die im Bereich des Wasserbalkens endet,

Fig. 3

einen in der Absaugkammer vorgesehenen Luftverdrängungskörper, der derart positioniert ist, dass eine gleichmäßige Saugwirkung über die gesamte Breite der perforierten Oberfläche bzw. Absaugfläche gewährleistet wird,

Fig. 4

ein Ausführungsbeispiel für die Gestaltung von Öffnungen der perforierten Absaugfläche, wobei die Anordnung der Öffnungen ein effizientes Absaugen des Sprühwassers an der Unterseite einer Absaugkammer ermöglicht.

Further advantages and details of the invention are explained in the patent claims and in the description and illustrated in the figures.
Show it:

Fig. 1

A suction chamber for a water beam for the jet exposure of tissues with a suction chamber in section,

Fig. 2

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,

Fig. 3

an air displacement body provided in the suction chamber, which is positioned so as to ensure a uniform suction over the entire width of the perforated surface or suction surface,

Fig. 4

an embodiment for the design of openings of the perforated suction, wherein the arrangement of the openings allows efficient suction of the spray water at the bottom of a suction chamber.

In Fig. 1, 1a denotes a water beam, from which a water jet 10 exits through nozzle openings, not shown in the drawing and impinges on a fabric backing 13 of a screen drum or screen roller 14a zoom introduced tissue, a tissue web or webs 2. 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 an inclined perforated suction surface 3a, b with openings 3c, so that the appearance of the water jet 10 on tissue, a tissue web or webs 2 resulting Splashing water is passed to the underside of the suction chamber 5b and can then be completely sucked off by 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 this embodiment, the suction chamber 5a is arranged symmetrically on 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.

Fig. 2 shows a further embodiment of the suction chamber 5a for the water beam 1 a for jet exposure of fabrics, tissue webs or webs 2 with provided on the lower side 5b of the suction 5a perforated suction 3a and 3b for the suction of water spray 4. The perforated suction 3a 3b is inclined so as to extend from an upper portion 6b close to the water bar 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. 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 average in the section 3a than the openings 3c 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 downwardly due to gravity can be completely sucked into the suction chamber 5a through the larger openings 3c in the lower area of the suction surface 6c.

The distance between the individual openings 3c may be the same or different. The cross-sectional areas of the openings 3 c starting from the drip edge 6 a are in the direction of the suction chamber 5 a and a dem Water bar 1a facing away from side 5c of the suction 5a increasingly larger. For this purpose, the cross-sectional areas of the openings 3c, starting from the drip edge 6a continuously or in uniform steps can be increasingly larger.

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 tangential 14b encloses an angle α with the lower surface of the suction surface 3a and 3b. The angle α may be between 5 ° and 25 °, but preferably between 6 ° and 15 °. The openings 3 c of the suction surface 3 a, 3 b on the inner side 3 a facing the water jet 10 of the water bar 1 a make an open area of about 3% to 8%, preferably 5%, and an open area of about 10% to 25 on the outer side % 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 is associated with an air supply 11a, which has an air supply channel 11b, which ends in the lower side 1b of the water bar 1 a, wherein an outlet opening 11c of the air supply channel 11b in the vicinity of the water jet 10 is located. The air supply passage 11b is formed substantially by an outside of the water bar 1c and a left outside 5d of the suction chamber 5a. For this purpose, the air supply channel 11b extends approximately parallel to the outside of the water bar 1 a and the lower side 1b of the water bar 1 a. In the area of the outlet opening 11 c of the air supply channel 11 b is also the drip edge 6 a associated with the suction chamber 5 a. At the dripcane 6a only very fine drops of water can form, which can cause 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 the finest drops of water or fog and can be particularly focused on the tissue, the tissue web or the webs 2 are projected. In this case, in this embodiment of FIG. 2, the dry air via the air supply channel 11 b introduced by the water jet 10 intrinsic suction effect.

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

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

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 air supply channel 11b of the air supply device 11a is in this embodiment substantially 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 1 c and the water bar facing the outside of the suction chamber 5d educated. The air supply channel 11 b may be configured in a drawing variant, not shown, by hoses or similar air supply means.

The outlet opening 11c extends approximately over the entire width of the water bar 1 a. The outlet opening 11 c is further aligned so that the emerging air jet occurs approximately perpendicular to the emerging from the water bar 1 a water jet 10.

According to FIG. 4, the openings 3c of the perforated suction surface on the side 3a facing the water jet 10 may be formed as elongated approximately parallel slots having 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 have a linear or a wave-shaped course. All of these design variants of the openings 3c have the aim 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 b, a lower side 7b of the displacement body 7a extends 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 may be variably mounted in a further advantageous embodiment, not shown in the drawing, in 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 γ not shown in the drawing between 5 ° and 30 °. 3, the air displacement body may also include, with its lower side 7b, an angle β, which is between 1 ° and 30 ° and between 1 ° and 5 °, relative to the inner surface of the perforated suction surface 3a, 3b. the gap between the air displacement body 7a and the perforated suction surface 3a, 3b becoming 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 a connecting piece 8a and a suction hose 8b, via which the spray water taken up 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.

LIST OF REFERENCE NUMBERS

1 a

water beam

1 b

lower side of the water bar

1 c

Outside of the water bar

2

Fabric, woven fabric web, fleece

3a

perforated suction surface, relatively small open area

3b

perforated suction surface, relatively large open area

3c

opening

4

Water spray

5a

suction

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 area of the suction surface or suction chamber

6c

lower area of the suction surface or suction chamber

7a

Air-displacement body

7b

lower side of the displacement body

7c

Sidewall of the displacement body

7d

Sidewall of the displacement body

8a

Extraction device, connection piece

8b

Suction device, suction hose

9

supply Hatch

10

waterjet

11a

Air supply device, air gap

11 b

air supply duct

11 c

outlet

12

water draining

13

Cloth backing

14a

dandy roll

14b

tangential

α

angle

β

angle

Claims (20)

Suction chamber (5a) for a water beam (1a) for exposing fabrics, woven fabric webs or webs (2) consisting of staple fibers, continuous filaments or cellulose fibers also from several layers or mixtures thereof and one on a lower side (5b) of the suction chamber (5a) provided , perforated suction surface (3a, 3b) for the suction 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), which with at least one outlet opening (11 c) is equipped in the region of the water bar (1 a), wherein the air supply to the water jet (10) takes place by the air supply device (11 a) and a blower is used to generate an overpressure. Apparatus according to claim 1, characterized in that the air supply device (11a) has an air supply channel (11b) which is separated by an interval of 1 to 15 mm, preferably 3 to 10 mm and in particular 3 and 6 mm between an outside (1c). the water bar (1a) and the water bar facing outside (5d) of the suction chamber (5a) is formed. Apparatus according to claim 1, characterized in that the outlet opening (11c) extends approximately over the entire length of the water bar (1a). Apparatus according to claim 1, characterized in that the outlet opening (11 c) is aligned so that the air flow in approximately perpendicular to the water jet (1 a) emerging from the water jet (10) impinges. Apparatus according to claim 1, characterized in that the air supply device or the air gap (11a) at least partially between the Water bar (1 a) and the outlet opening (11 c) of the suction chamber (5 a) is provided or on the outside of the water bar (1 c) along and runs in the region of a lower side of the water bar (1 b) parallel thereto. Apparatus according to claim 1, characterized in that the suction chamber (5a) and / or the air supply device (11 a) is arranged in each case symmetrically to both sides of the water bar (1 a) and / or the water jet (10) or are. Apparatus according to claim 1, characterized in that the perforated suction surface (3a, 3b) is arranged inclined and extending from an upper portion (6b) close to the water bar (1a) and / or a drip edge (6a) to a lower portion (6c) of the suction chamber (5a) extends. Suction chamber according to claim 1, characterized in that the perforated suction surface (3a, 3b) openings (3c) having different sized cross-sectional area. Suction chamber according to claim 1, characterized in that the cross-sectional areas of the openings (3c), starting from the drip edge (6a) are increasingly larger. Suction chamber according to claim 1, characterized in that the cross-sectional areas of the openings (3c) starting from the drip edge (6a) are continuously increasing continuously or in uniform steps. Suction chamber according to claim 1, characterized in that the distance between the individual openings (3c) is equal or different in size. Suction chamber according to claim 1, characterized in that an angle ( α ) is formed by a tangential (14b) of a screen roller (14a) and the perforated suction surface (3a, 3b) which is between 5 ° and 25 °, in particular between 6 ° and 15 °, wherein the openings of the suction surface on the water jet (10) facing inner side (3a) has an open area of about 3% to 8%, preferably 5% and on the outer side (3b) of about 10% 25%, preferably 20%. Suction chamber according to claim 7, characterized in that the openings (3c) of the perforated suction surface on the water jet (10) facing inner side (3a) preferably as parallel slits with a length between 1 mm and 10 mm and a width between 0, 1 mm and 3 mm are formed and the openings 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 between 0.1 mm and 3 mm. Suction chamber according to claim 7, characterized in that the openings (3c) have differently shaped cross-sectional areas and are oval, polygonal, angular or elongated slots. Suction chamber according to claim 7, characterized in that in the suction chamber (5a) an air displacement body (7a) is positioned so that a uniform suction effect over the entire width and / or length of the perforated suction surface (3a, 3b) is ensured. Suction chamber according to claim 7, characterized in that the air displacement body (7a) above the perforated suction surface (3a, 3b) is located in particular above the suction surface with a relatively large open area (3b) and the perforated suction surface (3a, 3b) such that a maximum air flow of, for example, 2 m / s on the outside of the perforated suction surface (3b) is achieved. Suction chamber according to claim 7, characterized in that the air displacement body (7a) extends approximately over the entire width and / or length of the suction chamber (5a). Absaugkämmer according to claim 7, characterized in that the air displacement body (7a) is an approximately rectangular body, in particular a housing which extends in the direction of the suction chamber (5a) and extends in this direction inclined. Suction chamber according to claim 7, characterized in that the air displacement body (7a) has a lower side (7b) which encloses in the longitudinal direction of the suction chamber (5a) with its underside (5b) an angle ( β ) which is between 1 ° and 30 ° is 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) is narrower. Suction chamber according to claim 7, characterized in that the air displacement body (7a) ends with its one end or its side wall (7d) in the region of the suction device (8a) connected to the suction chamber (5a).

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